AU2012216703B2 - Markers for detection of gastric cancer - Google Patents
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- AU2012216703B2 AU2012216703B2 AU2012216703A AU2012216703A AU2012216703B2 AU 2012216703 B2 AU2012216703 B2 AU 2012216703B2 AU 2012216703 A AU2012216703 A AU 2012216703A AU 2012216703 A AU2012216703 A AU 2012216703A AU 2012216703 B2 AU2012216703 B2 AU 2012216703B2
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Abstract
Abstract Early detection of tumors is a major determinant of survival of patients suffering from tumors, including gastric tumors. Members of the GTM gene family can be over expressed in gastric tumor tissue and other tumor tissue, and thus can be used as markers for gastric and other types of cancer. GTM proteins can be released from cancer cells, and can reach sufficiently high concentrations in the serum and/or other fluids to permit their detection. Thus, methods and test kits for detection and quantification of GTM can provide a valuable tool for diagnosis of gastric cancer.
Description
WO 2005/010213 PCT/US2004/022959 MARKERS FOR DETECTION OF GASTRIC CANCER Related Application This application claims priority under 35 U.S.C. 119 to United States Provisional Patent Application Serial No: 60/487,906, filed July 17, 2003, titled "Markers for Detection of Gastric Cancer," listing Parry John Guilford as inventor. The above application is herein incorporated fully by reference. Field of the Invention This invention relates to detection of cancer. Specifically, this invention relates to the use of genetic and/or protein markers for detection of cancer, and more particularly to the use of genetic and/or protein markers for detection of gastric cancer. BACKGROUND Survival of cancer patients is greatly enhanced when the cancer is detected and treated early. In the case of gastric cancer, patients diagnosed with early stage disease have 5-year survival rates of 90%, compared to approximately 10% for patients diagnosed with advanced disease. However, the vast majority of gastric cancer patients currently present with advanced disease. Therefore, developments that lead to early diagnosis of gastric cancer can lead to an improved prognosis for the patients. Identification of specific cancer-associated markers in biological samples, including body fluids, for example, blood, urine, peritoneal washes and stool extracts can provide a valuable approach for the early diagnosis of cancer, leading to early treatment and improved prognosis. Specific cancer markers also can provide a means for monitoring disease progression, enabling the efficacy of surgical, radiotherapeutic and chemotherapeutic treatments to be tracked. However, for a number of major cancers, the available markers suffer from insufficient sensitivity and specificity. For example, the most frequently used markers for gastric cancer, ca19-9, ca72-4 and chorioembryonic antigen (CEA) detect only about 15-50% of gastric tumors of any stage, declining to approximately 2-11% for early stage disease. Thus, there is a very high frequency of false negative tests that can lead patients and health care practitioners to believe that no disease exists, whereas in fact, the patient may have 1 WO 2005/010213 PCT/US2004/022959 severe cancer that needs immediate attention. Moreover, these markers can give false positive signals in up to 1/3 of individuals affected by benign gastric disease. SUMMARY OF THE INVENTION Thus, there is an acute need for better methods for detecting the presence of cancer. Aspects of this invention provide methods, compositions and devices that can provide for detection of early stage cancer, and decreasing the frequency of false positives and false negative test results. In certain embodiments, molecular analysis can be used to identify genes that are over-expressed in gastric tumor tissue compared to non-malignant gastric tissue. Such analyses include microarray and quantitative polymerase chain reaction (qPCR) methods. Cancer genes and proteins encoded by those genes are herein termed gastric tumor markers (GTM). It is to be understood that the term GTM does not require that the marker be specific only for gastric tumors. Rather, expression of GTM can be increased in other types of tumors, including malignant or non-malignant tumors, including gastric, bladder, colorectal, pancreatic, ovarian, skin (e.g., melanomas), liver, esophageal, endometrial and brain cancers, among others. It should be understood, however that the term GTM does not include prior the art markers, cal9 9, ca72-4 and CEA. Some GTM are sufficiently over-expressed to be diagnostic of gastric cancer with a high degree of reliability, and in other cases, over-expression of two or more GTM can provide reliable diagnosis of gastric cancer. In certain embodiments, microarray methods can be used to detect patterns of over-expression of one or more genes associated with cancer. In other embodiments, quantitative polymerase chain reaction (qPCR) can be used to identify the presence of markers over expressed in tumor or other biological samples. Some of the embodiments of GTM detection disclosed herein are over expressed in a highly selective fashion in tumor cells and little, if at all, in non-tumor cells, permitting sensitive and accurate detection of cancer with measurement of only one over expressed GTM. In other embodiments, over-expression of two, three or more GTM can be detected in a sample and can provide greater certainty of diagnosis. Selected genes that encode proteins can be secreted by or cleaved from the cell. These proteins, either alone or in combination with each other, have utility as serum or body fluid markers for the diagnosis of gastric cancer or as markers for 2 WO 2005/010213 PCT[US2004/022959 monitoring the progression of established disease. Detection of protein markers can be carried out using methods known in the art, and include the use of monoclonal antibodies, polyclonal antisera and the like. BRIEF DESCRIPTION OF THE FIGURES This invention is described with reference to specific embodiments thereof and with reference to the figures, in which: Figure 1 depicts a table of markers and oligonucleotide sequences of markers for gastric cancer of this invention. Figure 2 depicts a table of results obtained of studies carried out using microarray methods. Figure 3 depicts a table of results obtained of studies carried out using quantitative PCR. Figures 4a - 4d depict relationships between log2 fold results obtained using array and qPCR methods, in which the data is centered on the median normal for four gastric cancer markers. Grey squares correspond to non-malignant ("normal") samples and black triangles to tumor samples. Figure 4a: ASPN. Figure 4b: SPP1. Figure 4c: SPARC. Figure 4d: MMP 12. Figures Sa-5w depict histograms showing the relative frequency vs. log2 fold change data obtained from quantitative PCR studies of various tumor markers. Figure 5a: ASPN; Figure 5b: CSTI,2 & 4; Figure 5c: CSPG2; Figure 5d: IGFBP7; Figure 5e: INHBA; Figure 5f: LOXL2; Figure 5g: LUM; Figure 5h: SFRP4; Figure Si: SPARC; Figure 5j: SPPl; Figure 5k: THBS2; Figure 51: TIMP1; Figure 5m: adlican; Figure 5n: PRS11; Figure 5o: ASAHI; Figure 5p: SFRP2; Figure 5q: GGH; Figure 5r: MMP12; Figure 5s: ILK1O; Figure 5t: LEPRE1; Figure Su: TG; Figure 5v: EFEMP2 and Figure 5w: TGFBI. Figure 6 is a histogram showing the number of markers with a higher expression than the 95t percentile of the median normal expression. Results are based on qPCR data and are shown separately for each tumor sample. Figures 7a- 7c depicts graphs that show relative log2 expression of the markers in individual tumor samples and non-malignant samples compared to the expression of the gene for the tumor marker, CEA. CEA is the serum marker currently most used to monitor progression of gastric cancer. 3 WO 2005/010213 PCT/US2004/022959 Figure 8 shows a table that complements Figure 3. Figure 8 summarizes expression levels determined by qPCR for the candidate tumor markers, but using the paired data (i.e., tumor ("T") and non-malignant ("N") samples from the same individual) to provide a T:N ratio. Figure 8 also includes additional markers not included in Figure 3, namely MMP2, CGR11, TGFB1, PCSK5, SERPINB5, SERPINH1. For comparison, the expression level of the established serum marker gene, CEACAM5 (CEA), is also shown, 27 of the 29 markers have a median T:N difference greater than or equal to CEA. Further, compared to CEA, 29/29 of the markers have a higher percentage of paired samples in which the expression in the tumor sample exceeds the expression in the normal sample. Three markers, CST1,2,44, ASPN and SFRP4 showed 100% discrimination between the paired tumor and normal samples. The gene sequences of these markers, and the location of the primers and probes used to detect them, are shown herein. Figures 9a - 9d depict individual and median T:N fold change data for 29 gastric cancer markers in 40 patients with paired samples. Figures 10a - 10ad depict graphs of tumor stage and log2 fold change in expression of CEA and other GTM of this invention. Figure 10a: adlican; Figure 10b: ASPN; Figure 10c: CSPG2; Figure 10d: CST1,2,4; Figure 10e:EFEMP2; Figure 10f: GGF; Figure 10g: INIA; Figure 10h: IGFBP7; Figure 10i: KLK1O; Figure 10j: LEPRE1; Figure 10k: LUM; Figure 101: LOXL2; Figure 10m: MMP12; Figure 10n; TIMP1; Figure 10o: ASAH1; Figure 10p: SPP1; Figure 10q: SFRP2; Figure 10r: SFRP4; Figure 10s: SPARC; Figure 10t: PRSS1I; Figure 10u: THBS2: Figure 10v: TG; Figure l0w: TGFBI; Figure 10x: CGR11; Figure 10y: SERPINH1; Figure 10z: MMP2;. Figure 10aa: PCSK5; Figure 10ab: SERPINB5; Figure 10ac: TGFB1 and Figure 10ad: CEA (CEACAM5). Figures 11 a - 11 ad depict graphs of tumor type (diffuse (D) or intestinal (I)) and log2 fold change in expression 29 GTM of this invention and CEA. Figure 11 a: adlican; Figure 1lb: ASPN; Figure 1le: CSPG2; Figure 1ld: CST1,2,4; Figure 1le: EFEMP2; Figure 1lf: GGH; Figure 11g: INHBA; Figure 11h: IGFBP7; Figure 11i: KLK1O; Figure 11j: LEPRE1: Figure Ilk: LUM; Figure 111: LOXL2; Figure 11m: MMP12; Figure 11n: TIMP1; Figure 110: ASAH1; Figure I1p: SPP1; Figure 11q: SFRP2; Figure 11r: SFRP4: Figure 11s; SPARC; Figure 1lt: PRSS11: Figure 11u: THBS2; Figure 1lv: TG; Figure 11w: TGFBI; Figure 1lx: CGR11: Figure ily: 4 WO 2005/010213 PCT/US2004/022959 SERPIH1; Figure 11z: IvMMP2; Figure 1laa: PCSK5; Figure 1lab:SERPINB5; Figure 11 ac: TGFB1 and Figure 11 ad: CEA (CEACAM5). Figure 12 depicts a three-dimensional graph showing 3 markers, SERPITH1, CST1,2,4 and INRBA, in a series of gastric tumor samples and non-malignant gastric samples. Figure 13 depicts a table that shows the effect of multiple markers on the ability to accurately discriminate between tumor tissue and non-malignant tissue. The table has been derived from normal distributions derived from qPCR data. Figure 14 is a Western blot of 4 tumor markers derived from tumor and non tumor tissue. Figure 15 is a Western blot of the tumor marker SPARC in gastric tumor tissue and in serum. Figure 16 is an immunoblot depicting cystatin SN in the supernatant of a gastric cell line, AGS. DETAILED DESCRIPTION Definitions Before describing embodiments of the invention in detail, it will be useful to provide some definitions of terms as used herein. The term "GTM" or "gastric tumor marker" or "GTM family member" means a gene, gene fragment, RNA, RNA fragment, protein or protein fragment related or other identifying molecule associated with gastric cancer that does not include molecules that are known in the prior art to be associated with gastric cancer, cal9-9, ca72-4 and CEA. Examples of GTMs are included herein below. The term "marker" means a molecule that is associated quantitatively or qualitatively with the presence of a biological phenomenon. Examples of "markers" are GTMs, however, "markers" also includes metabolites, byproducts, whether related directly or indirectly to a mechanism underlying a condition. The term "qPCR" means quantitative polymerase chain reaction. The term "expression" includes production of mRNA from a gene or portion of a gene, and includes the production of a protein encoded by an RNA or gene or portion of a gene, and includes appearance of a detection material associated with expression. For example, the binding of a binding ligand, such as an antibody, to a gene or other oligonucleotide, a protein or a protein fragment and the visualization of 5 WO 2005/010213 PCT/US2004/022959 the binding ligand is included within the scope of the term "expression." Thus, increased density of a spot on an immunoblot, such as a Western blot, is included within the term "expression" of the underlying biological molecule. The term "CPN2" means human carboxypeptidase N, polypeptide 2, 83 kDa chain; and carboxypeptidase N. The term "HAPLN4" means human hyaluronan glycoprotein link protein 4. The term "MIMP12" means human matrix metalloproteinase 12. The term "INHBA" means human inhibin, beta A (also includes activin A, activin AB or alpha polypeptide). The term "IGFBP7" means human insulin-like growth factor 7. The term "GGH" means human gamma-glutamyl hydrolase (also known as conjugase, folylpolygammaglutamyl hydrolase). The term "LEPRE1" means human leucine proline-enriched proteoglycan (also known as leprecan 1). The term "CST4" means human cystatin S. The term "SFRP4" means human secreted frizzled-related protein 4. The term "ASPN" means human asporin (also known as LRR class 1). The term "CGREF 1" or "CGR 11" means human cell growth regulator with EF hand domain 1. The term "KLK" means either human kallikrein 10, variant 1 or human kallikrein 10, variant 2, or both, unless specified otherwise. The term "TIP 1" means human tissue inhibitor of metalloproteinase 1 (also known as erythroid potentiating activity or collagenase inhibitor). The term "SPARC" means human secreted protein, acidic, cysteine-rich (also known as osteonectin). The term "TGFBI" means human transforming growth factor, beta-induced,. 68kDa. The term "EFEMP2" means human EGF-containing fibulin-like extracellular matrix protein 2. The term "LUM" means human lumican. The term "SNN" means human stannin. The term "SPP1" means human secreted phosphoprotein 1 (also known as osteopontin, or bone sialoprotein I, or early T-lymphocyte activation 1). 6 WO 2005/010213 PCT/US2004/022959 The term "CSPG2" means human chondroitin sulfate proteoglycan 2 (also known as versican). The term "ASAHI" means human N-acylsphingosine amidohydrolase, variant 1, or N-acylsphingosine amidohydrolase, variant 2, or both N-acylsphingosine amidohydrolase variants 1 and 2 (also known as acid ceramidase 1, variants 1 and 2). The term "PRSS11" means human protease, serine, 11 (also known as IGF binding seine protease). The term "SFRP2" means human secreted frizzled-related protein 2. The term "PLA2G12B" means human phospholipase A2, group XIIB. The term "SPON2" means human spondin 2, extracellular matrix protein. The term "OLFM1" means human olfactomedin 1. The term "TSRCI" means human thrombospondin repeat containing 1. The term "THBS2" means human thrombospondin 2. The term "adlican" means DKFZp564I1922. The term "CST2" means human cystatin SA. The term "CST1" means human cystatin SN. The term "LOXL2" means human lysyl oxidase-like enzyme 2. The term "TG" means human thyroglobulin. The term "TGFB1" means human transforming growth factor, betal . The term "SERPINH1" means human shrine or cysteine proteinase inhibitor clade H (also known as heat shock protein 47, member 1, or collagen binding protein 1). The term "SERPINB5" means human serine or cysteine proteinase inhibitor, clade B (also known as ovalbumin, member 5). The term "CEACAM5" or "CEA" means human carcinoembryonic antigen related cell adhesion molecule 5. The term "MIMP2" means human matrix metalloproteinase 2 (also known as gelatinase A, or 72 kDa gelatinase, or 72 kDa type IV collagenase). The term "PCSK5" means human proprotein convertase subtilisin/kexin type 5. It is to be understood that the above terms may refer to protein, DNA sequence and/or RNA sequence. It is also to be understood that the above terms also refer to non-human proteins, DNA and/or RNA having the same -sequences as depicted herein. 7 WO 2005/010213 PCT/US2004/022959 Description of Embodiments of the Invention Markers for detection and evaluation of tumors including gastric cancer are provided that have a greater reliability in detecting gastric cancer than prior art markers. By the term "reliability" we include the absence of false positives and/or false negatives. Thus, with higher reliability of a marker, fewer false positives and/or false negatives are associated with diagnoses made using that marker Therefore, in certain embodiments, markers are provided that permit detection of gastric cancer with reliability greater than the reliability of prior art markers of about 50%. In other embodiments, markers are provided that have reliability greater than about 70%; in other embodiments, greater than about 73%, in still other embodiments, greater than about 80%, in yet further embodiments, greater than about 90%, in still others, greater than about 95%, in yet further embodiments greater than about 98%, and in certain embodiments, about 100% reliability. Thus, we have surprisingly found numerous genes and proteins whose presence is associated with gastric tumors. Detection of gene products (e.g., oligonucleotides such as mRNA) and proteins and peptides translated from such oligonucleotides therefore can be used to diagnose tumors, such as gastric tumors. Array analysis of samples taken from patients with gastric tumors and from non malignant tissues of the same subjects has led us to the surprising discovery that in many gastric tumors, specific patterns of over-expression of certain genes are associated with the disease. Cancer markers can also be detected using antibodies raised against cancer markers. By analyzing the presence and amounts of expression of a plurality of cancer markers can thus increase the sensitivity of diagnosis while decreasing the frequency of false positive and/or false negative results. General Approaches to Cancer Detection The following approaches are non-limiting methods that can be used to detect cancer including gastric cancer using GTM family members. * Microarray approaches using oligonucleotide probes selective for products of GTM genes. 8 WO 2005/010213 PCT/US2004/022959 o Real-time quantitative PCR (qPCR) on tumor samples and nonnal samples using marker specific primers and probes. * Enzyme-linked immunological assays (ELISA). * nmunohistochemistry using anti-marker antibodies on gastric tumors and lymph node metastases. * Immunohistochemistry using anti-marker antibodies on other tumors including but not limited to colorectal, pancreatic, ovarian, melanoma, liver, esophageal, bladder, endometrial, and brain. o Immunodetection of marker family members in sera from gastric cancer patients taken before and after surgery to remove the tumor. * Immunodetection of marker family members in sera from healthy individuals and individuals with non-malignant diseases such as gastritis, ulceration, gastric metaplasia and dysplasia. o Immunodetection of marker family members in patients with other cancers including but not limited to colorectal, pancreatic, ovarian, melanoma, liver, oesophageal, bladder, endometrial, and brain. * Detection of markers in body fluids, including serum, lymph, peritoneal fluid, cerebrospinal fluid, synovial fluid and the like. o Imnunodetection of marker family members in gastric fluid, peritoneal washes, urine and stool from gastric cancer patients. Using array methods and/or qPCR. * Analysis of array or qPCR data using computers. Primary data is collected and fold change analysis is performed by comparison of levels of gastric tumor gene expression with expression of the same genes in non-tumor tissue. A threshold for concluding that expression is increased is provided (e.g., 1.5 x increase, 2-fold increase, and in alternative embodiments, 3-fold increase, 4 fold increase or 5-fold increase). It can be appreciated that other thresholds for concluding that increased expression has occurred can be selected without departing from the scope of this invention. Further analysis of tumor gene expression includes matching those genes exhibiting increased expression with expression profiles of known gastric tumors to provide diagnosis of tumors. In certain aspects, this invention provides methods for detecting cancer, comprising: 9 WO 2005/010213 PCT/US2004/022959 (a) providing a biological sample; and (b) detecting the over expression of a GTM family member in said sample. In other aspects, the invention includes a step of detecting over expression of GTM mRNA. In other aspects, the invention includes a step of detecting over expression of a GTM protein. In yet further aspects, the invention includes a step of detecting over expression of a GTM peptide. In still further aspects, the invention includes a device for detecting a GTM, comprising: a substrate having a GTM capture reagent thereon; and a detector associated with said substrate, said detector capable of detecting a GTM associated with said capture reagent, wherein the capture reagent includes an oligonucleotide or an antibody. Additional aspects include kits for detecting cancer, comprising: a substrate; a GTM capture reagent, including one or more of a GTM-specific oligonucleotide and a GTM-specific antibody; and instructions for use. Yet further aspects of the invention include method for detecting a GTM using qPCR, comprising: a forward primer specific for said GTM; a reverse primer specific for said GTM; PCR reagents; a reaction vial; and instructions for use. Additional aspects of this invention comprise a kit for detecting the presence of a GTM protein or peptide, comprising: a substrate having a capture agent for said GTM protein or peptide; an antibody specific for said GTM protein or peptide; a reagent capable of labeling bound antibody for said GTM protein or peptide; and instructions for use. 10 WO 2005/010213 PCT/US2004/022959 Additional aspects of this invention include a method for manufacturing a monoclonal antibody, comprising the steps of: In yet further aspects, this invention includes a method for detecting gastric cancer, comprising the steps of: providing a sample from a patient suspected of having gastric cancer; measuring the presence of a GTM protein using an ELISA method. As described herein, detection of tumors can be accomplished by measuring expression of one or more tumor-specific markers. We have unexpectedly found that the association between increased expression of GTMs and the presence of diagnosed gastric cancer is extremely high. The least significant association detected had a p value of about 1.6 x 106. Many of the associations were significant at p values of less than 1020. With such a high significance, it may not be necessary to detect increased expression in more than one GTM. However, the redundancy in the GTMs of this invention can permit detection of gastric cancers with an increased reliability. The methods provided herein also include assays of high sensitivity. qPCR is extremely sensitive, and can be used to detect gene products in very low copy number (e.g., 1 - 100) in a sample. With such sensitivity, very early detection of events that are associated with gastric cancer is made possible. Methods The following general methods were used to evaluate the suitability of various approaches to molecular identification of markers associated with gastric tumors. Tumor Collection Gastric tumor samples and non-malignant gastric tissues were collected from surgical specimens resected at Seoul National University Hospital, Korea and Dunedin Hospital, New Zealand. Diagnosis of gastric cancer was made on the basis of symptoms, physical findings and histological examination of tissues. RNA Extraction In some embodiments, expression of genes associated with gastric tumors was analyzed by determining the changes in RNA from samples taken from tumors. Frozen surgical specimens were embedded in OCT medium. 60 m sections were sliced from the tissue blocks using a microtome, homogenized in a TriReagent: water 11 WO 2005/010213 PCT/US2004/022959 (3:1) mix, then chloroform extracted. Total RNA was then purified from the aqueous phase using the RNeasyTM procedure (Qiagen). RNA was also extracted from 16 cancer cell lines and pooled to serve as a reference RNA. Microarray Slide Preparation Epoxy coated glass slides were obtained from MWG Biotech AG, Ebersberg, Germany) and were printed with ~30,000 50mer oligonucleotides using a Gene Machines microarraying robot, according to the manufacturer's protocol. Reference numbers (MWG oligo #) for relevant oligonucleotides, and the NCBI mRNA and protein reference sequences are shown in Figure 2. Full DNA sequences of the GTM of this invention are shown herein below. RNA labeling and Hybridization cDNA was transcribed from 10ptg total RNA using Superscript ]I reverse transcriptase (Invitrogen) in reactions containing 5-(3-aminoa11yl)- 2' deoxyuridine 5'-triphosphate. The reaction was then de-ionized in a Microcon column before being incubated with Cy3 or Cy5 in bicarbonate buffer for 1 hour at room temperature. Unincorporated dyes were removed using a Qiaquick column (Qiagen) and the sample concentrated to 15ul in a SpeedVac. Cy3 and Cy5 labeled cDNAs were then mixed with Ambion ULTRAhyb buffer, denatured at 100*C for 2 minutes and. hybridized to the microarray slides in hybridization chambers at 42*C for 16 hours. The slides were then washed and scanned twice in an Axon 4000A scanner at two power settings to yield primary fluorescence data on gene expression. Normalization Procedure To compare expression of cancer genes from tumors and non-cancerous tissues, median fluorescence intensities detected by GenepixTM software were corrected by subtraction of the local background fluorescence intensities. Spots with a background corrected intensity of less than zero were excluded. To facilitate normalization, intensity ratios and overall spot intensities were log-transformed. Log-transfonned intensity ratios were corrected for dye and spatial bias using local regression implemented in the LOCFIT package. Log-transformed intensity ratios were regressed simultaneously with respect to overall spot intensity and location. The 12 WO 2005/010213 PCT/US2004/022959 residuals of the local regression provided the corrected log-fold changes. For quality control, ratios of each normalized microarray were plotted with respect to spot intensity and localization. The plots were subsequently visually inspected for possible remaining artifacts. Additionally, an analysis of variance (ANOVA) model was applied for the detection of pin-tip bias. All results and parameters of the normalization were inserted into a Postgres-database for statistical analysis. Statistical Analysis Statistically significant changes in gene expression in tumor samples vs. normal tissues were identified by measured fold changes between arrays. To accomplish this, log2 (ratios) were scaled to have the same overall standard deviation per array. This standardization procedure reduced the average within-tissue class variability. The log2 (ratios) were further shifted to have a median value of zero for each oligonucleotide to facilitate visual inspection of results. A rank-test based on fold changes was then used to improve the noise robustness. This test consisted of two steps: (i) calculation of the rank of fold change (Rfc) within arrays and ii) subtraction of the median (Rfc) for normal tissue from the median(Rfc) for tumor tissue. The difference of both median ranks defines the score of the fold change rank presented in Figure 2. Two additional statistical tests were also performed on this standardized data: 1) Two sample student's t-test, with and without the Bonferroni adjustment and 2) the Wilcoxon test. Statistical Analysis of Marker Combinations To determine the value of using combinations of two or three of the markers to discriminate between tumor and non-malignant samples, the qPCR data from 40 paired samples (tumor and non-malignant samples from the same patient) were subjected to the following analysis. Normal distributions for the non-malignant and tumor samples were generated using the sample means and standard deviations. The probability that values taken from the tumor expression data would exceed a defined threshold (e.g., greater than 50%, 70%, 73%, 80%, 90%, 95%, 98%, 99% or 100%) in the non-malignant distribution was then determined (i.e., sensitivity). For combinations of markers, the probability that at least one marker exceeded the threshold was determined. 13 WO 2005/010213 PCTJUS2004/022959 688 8 rD 8D 8rigUF W 0 u u 19 01 u 06 t,3 t in 10r C u 6q 1ng 11. E E EEE E t h H M __ C j w2 13 5 c~ op~I 'Table I -6 . C 2 k, E 2 0 142 WO 2005/010213 PCT/US2004/022959 Quantitative Real-Time PCR In other embodiments, real-time, or quantitative PCR (qPCR) can be used for absolute or relative quantitation of PCR template copy number. Taqman TM probe and primer sets were designed using Primer Express V 2.OTM (Applied Biosystems). Where possible, all potential splice variants were included in the resulting amplicon, with amplicon preference given to regions covered by the MWG-Biotech-derived microarray oligonucleotide. Alternatively, if the target gene was represented by an Assay-on-Demand T M expression assay (Applied Biosystems) covering the desired amplicons, these were used. The name of the gene, symbol, the Applied Biosystems "assay on demand" number, forward primer, reverse primer and probe sequence used for qPCR are shown in Table 1 and in Figure 1. In the in-house designed assays, primer concentration was titrated using a SYBR green labeling protocol and cDNA made from the reference RNA. Amplification was carried out on an ABI PrismTM 7000 sequence detection system under standard cycling conditions. When single amplification products were observed in the dissociation curves, standard curves were generated over a 625-fold concentration range using optimal primer concentrations and 5'FAM - 3'TAMRA phosphate TaqmanTM probe (Proligo) at a final concentration of 250nM. Assays giving standard curves with regression coefficients over 0.98 were used in subsequent assays. It can be appreciated that in other embodiments, regression coefficients need not be as high. Rather, any standard curve can be used so long as the regression coefficients are sufficiently high to permit statistically significant detennination of differences in expression. Such regression coefficients may be above about 0.7, above about 0.8, above about 0.9 or above about 0.95 in alternative embodiments. Assays were performed over two 96 well plates with each RNA sample represented by a single cDNA. Each plate contained a reference cDNA standard curve, over a 625-fold concentration range, in duplicate. Analysis consisted of calculating the ACT (target gene CT - mean reference cDNA CT). ACT is directly proportional to the negative log2 fold change. Log2 fold changes relative to the median non-malignant log2 fold change were then calculated (log2 fold change median normal log2 fold change). These fold changes were then clustered into frequency classes and graphed. 15 WO 2005/010213 PCT/US2004/022959 Microarray Analysia of Cancer Marker Genes RNA from 58 gastric tumors and 58 non-malignant ("normal") gastric tissue samples were labeled with Cy5 and hybridized in duplicate or triplicate with Cy3 labeled reference RNA. After normalization, the change in expression in each of 29,718 genes was then estimated by three measures: (i) fold change: the ratio of the gene's median expression (un-standardized) in the tunor samples divided by the median level in the non-malignant samples. (ii) fold change rank and (iii) the statistical probability that the observed fold changes were significant. Selection of Serum Markers for Gastric Malignancy In certain embodiments, the cancer marker can be found in biological fluids, including serum. Serum markers were selected from the array data based on (i) the presence of a signal sequence characteristic of secreted proteins or cleaved from the outside of the membrane, (ii) the median level of over-expression (fold change) in tumors compared to non-malignant controls, (iii) the median change in expression rank between tumors and non-malignant controls, and (iv) the degree of overlap between the ranges of expression in the tumor and the non-malignant controls. All 29 GTMs are known to have a signal peptide sequence at the 5'end of their coding sequences. The signal sequence targets the GTM proteins for transport to an extracellular compartment through the plasma membrane (Gunner von Heijne, Journal of Molecular Biology 173:243-251 (1984). In addition, none of the GTMs have transmembrane sequence motifs that would result in the full-length protein being retained within the plasma membrane. Consequently, all of the GTM markers of this invention are likely to be secreted into the extracellular compartment, and therefore can be in contact with the vasculature, either being taken up by capillaries, or by being transported into the lymphatic system and then into the vasculature. As a result, each of these tumor-derived markers will be present in the blood. Next, genes were excluded if >50% of the tumor samples showed expression levels within the 95* percentile of the non-malignant range. The variation in the degree of over-expression in the tumor samples reflects not only tumor heterogeneity but also variations in the extent of contamination of the tumor samples with "normal" tissue including muscle, stromal cells and non-malignant epithelial glands. This normala" contamination ranged from 5 to 70% with a median of approximately 25%. Other genes were excluded because of high relative expression in hematopoietic cells, 16 WO 2005/010213 PCT/US2004/022959 or elevated expression in metaplastic gastric tissue. It can be appreciated that depending on the degree of contamination by normal cells or cells that normally express the marker, different threshold ranges can be selected that can provide sufficient separation between a cancer source and a normal source. GTM that we have found to be useful include genes (DNA), complementary DNA (cDNA), RNA, proteins, and protein fragments of the following markers: carboxypeptidase N, polypeptide 2, 83 kDa chain (also known as carboxypeptidase N (CPN2), matrix metalloproteinase 12 (MMP12), inhibin ("INH13A"), insulin-like growth factor 7 ("IGFBP7"), gamma-glutamyl hydrolase ("GGH"), leucine proline enriched proteoglycan ("LEPREl"), cystatin S ("CST4"), secreted frizzled-related protein 4 ("SFRP4"), asporin ("ASPN"), cell growth regulator with EF hand domain 1 ("CGREF1"), kallikrein (KLK1O), tissue inhibitor of metalloproteinase 1 ("TIMIPl"), secreted acidic cysteine-rich protein ("SPARC"), transforming growth factor, p induced ("TGFBr'), EGF-containing fibulin-like extracellular matrix protein 2 ("EFEMP2"), lumican ("LUM"), stannin ("SNN"), secreted phosphoprotein 1 ("SPP1"), chondroitin sulfate proteoglycan 2 ("CSPG2"), N-acylsphingosine amidohydrolase ("ASAHI"), seine protease 11 ("PRSS11"), secreted frizzled-related protein 2 ("SFRP2"), phospholipase A2, group XIIB ("PLA2Gl2B"), spondin 2, extracellular matrix protein ("SPON2"), olfactomedin 1 ("OLFM1"), thrombospondin repeat containing 1 ("TSRC1"), thrombospondin 2 ("THBS2"), adlican, cystatin SA ("CST2"), cystatin SN (CST1), lysyl oxidase-like enzyme 2 ("LOXL2"), thyroglobulin ("TG"), transforming growth factor betal ("TGFB1"), serine or cysteine proteinase inhibitor clade H ("SERPINH1"), seine or cysteine proteinase inhibitor clade B ("SERPINB5"), matrix metalloproteinase 2 ("MMP2"), proprotein convertase subtilisin/kexin type 5 ("PCSK5"), and hyalronan proteoglycan link protein 4 ("HAPLN4"). DNA sequences of GTM of this invention along with identifying information are shown herein below. Matrix Metalloproteinase 12 >giJ4505206|ref|NM_002426.11 Homo sapiens matrix metalloproteinase 12 (macrophage elastase) (MMP12), mRNA I qPCR forwardprimer match [758..780]| qPCR reverseprimer match [888..864] | qPCR probe match [786..815] 17 WO 2005/010213 PCT/US2004/022959 TAGAAGTTTACAATGAAGTTTCTTCTAATACTGCTCCTGCAGGCCA CTGCTTCTGGAGCTCTTCCCCTGAACAGCTCTACAAGCCTGGAAAAAAAT AATGTGCTATTTGGTGAGAGATACTTAGAAAAATTTTATGGCCTTGAGATA AACAAACTTCCAGTGACAAAAATGAAATATAGTGGAAACTTAATGAAGG AAAAAATCCAAGAAATGCAGCACTTCTTGGGTCTGAAAGTGACCGGGCAA CTGGACACATCTACCCTGGAGATGATGCACGCACCTCGATGTGGApGTCCC CGATCTCCATCATTTCAGGGAAATGCCAGGGGGGCCCGTATGGAGGAAAC ATTATATCACCTACAGAATCAATAATTACACACCTGACATGAACCGTGAG GATGTTGACTACGCAATCCGGAAAGCTTTCCAAGTATGGAGTAATGTTAC CCCCTTGAAATTCAGCAAGATTAACACAGGCATGGCTGACATTTTGGTGG TTTTTGCCCGTGGAGCTCATGGAGACTTCCATGCTTTTGATGGCAAAGGTG GAATCCTAGCCCATGCTTTTGGACCTGGATCTGGCATTGGAGGGGATGCA CATTTCGATGAGGACGAATTCTGGACTACACATTCAGGAGGCACAAACTT GTTCCTCACTGCTGTTCACGAGATTGGCCATTCCTTAGGTCTTGGCCATTCT AGTGATCCAAAGGCTGTAATGTTCCCCACCTACAAATATGTCGACATCAA CACATTTCGCCTCTCTGCTGATGACATACGTGGCATTCAGTCCCTGTATGG AGACCCAAAAGAGAACCAACGCTTGCCAAATCCTGACAATTCAGAACCAG CTCTCTGTGACCCCAATTTGAGTTTTGATGCTGTCACTACCGTGGGAAATA AGATCTITTTCTTCAAAGACAGGTTCTTCTGGCTGAAGGTTrCTGAGAGAC CAAAGACCAGTGTTAATTTAATTTCTTCCTTATGGCCAACCITGCCATCTG GCATTGAAGCTGCTTATGAAATTGAAGCCAGAAATCAAGTTTCTTTTTA AAGATGACAAATACTGGTTAATTAGCAATTTAAGACCAGAGCCAAATTAT CCCAAGAGCATACATTCTTTTGGTTTTCCTAACTTTGTGAAAAAAATTGAT GCAGCTGTTTTTAACCCACGTYTTTATAGGACCTACTTCTTTGTAGATAAC CAGTATTGGAGGTATGATGAAAGGAGACAGATGATGGACCCTGGTTATCC CAAACTGATTACCAAGAACTTCCAAGGAATCGGGCCTAAAATTGATGCAG TCTTCTATTCTAAAAACAAATACTACTATTTCTTCCAAGGATCTAACCAAT TTGAATATGACTTCCTACTCCAACGTATCACCAAAACACTGAAAAGCAAT AGCTGGTTTGGTTGTTAGAAATGGTGTAATTAATGGTTGTTAGTTCAC TTCAGCTTAATAAGTATTTATTGCATATTTGCTATGTCCTCAGTGTACCACT ACTTAGAGATATGTATCATAAAAATAAAATCTGTAAACCATAGGTAATGA TTATATAAAATACATAATATTTTTCAATTTTGAAAACTCTAATTGTCCATTC TTGCTTGACTCTACTATTAAGTTTGAAAATAGTTACCTTCAAAGCAAGATA ATTCTATTTGAAGCATGCTCTGTAAGTTGCTTCCTAACATCCTTGGACTGA GAAATTATACTTACTTCTGGCATAACTAAAATTAAGTATATATATTTTGGC TCAAATAAAATTG SEQ ID NO:67 Inhibin Beta A >gil4504698|re]NM_002192.11 Homo sapiens inhibin, beta A (activin A, activin AB alpha polypeptide) (INHBA), mRNA I qPCR assay on demand-context match [457..481] TCCACACACACAAAAAACCTGCGCGTGAGGGGGGAGGAAAAGCAG GGCCTTTAAAAAGGCAATCACAACAACTTTTGCTGCCAGGATGCCCTTGCT TTGGCTGAGAGGATTTCTGTTGGCAAGTTGCTGGATTATAGTGAGGAGTTC CCCCACCCCAGGATCCGAGGGGCACAGCGCGGCCCCCGACTGTCCGTCCT GTGCGCTGGCCGCCCTCCCAAAGGATGTACCCAACTCTCAGCCAGAGATG GTGGAGGCCGTCAAGAAGCACATTTTAAACATGCTGCACTTGAAGAAGAG ACCCGATGTCACCCAGCCGGTACCCAAGGCGGCGCTTCTGAACGCGATCA 18 WO 2005/010213 PCT/US2004/022959 GAAAGCTTCATGTGGGCAAAGTCGGGGAGAACGGGTATGTGGAGATAGA GGATGACATTGGAAGGAGGGCAGAAATGAATGAACTTATGGAGCAGACC TCGGAGATCATCACGTTTGCCGAGTCAGGAACAGCCAGGAAGACGCTGCA CTTCGAGATTTCCAAGGAAGGCAGTGACCTGTCAGTGGTGGAGCGTGCAG AAGTCTGGCTCTTCCTAAAAGTCCCCAAGGCCAACAGGACCAGGACCAAA GTCACCATCCGCCTCTTCCAGCAGCAGAAGCACCCGCAGGGCAGCTTGGA CACAGGGGAAGAGGCCGAGGAAGTGGGCTTAAAGGGGGAGAGGAGTGA ACTGTTGCTCTCTGAAAAAGTAGTAGACGCTCGGAAGAGCACCTGGCATG TCTTCCCTGTCTCCAGCAGCATCCAGCGGTTGCTGGACCAGGGCAAGAGC TCCCTGGACGTTCGGATTGCCTGTGAGCAGTGCCAGGAGAGTGGCGCCAG CTTGGTTCTCCTGGGCAAGAAGAAGAAGAAAGAAGAGGAGGGGGAAGGG AAAAAGAAGGGCGGAGGTGAAGGTGGGGCAGGAGCAGATGAGGAAAAG GAGCAGTCGCACAGACCTTTCCTCATGCTGCAGGCCCGGCAGTCTGAAGA CCACCCTCATCGCCGGCGTCGGCGGGGCTTGGAGTGTGATGGCAAGGTCA ACATCTGCTGTAAGAAACAGTTCTTTGTCAGTTTCAAGGACATCGGCTGGA ATGACTGGATCATTGCTCCCTCTGGCTATCATGCCAACTACTGCGAGGGTG AGTGCCCGAGCCATATAGCAGGCACGTCCGGGTCCTCACTGTCCTTCCACT CAACAGTCATCAACCACTACCGCATGCGGGGCCATAGCCCCTTTGCCAAC CTCAAATCGTGCTGTGTGCCCACCAAGCTGAGACCCATGTCCATGTTOTAC TATGATGATGGTCAAAACATCATCAAAAAGGACATTCAGAACATGATCGT GGAGGAGTGTGGGTGCTCATAGAGTTGCCCAGCCCAGGGGGAAAGGGAG CAAGAGTTGTCCAGAGAAGACAGTGGCAAAATGAAGAAATTTTTAAGGTT TCTGAGTTAACCAGAAAAATAGAAATTAAAAACAAAACAAAACAAAAAA AAAAACAAAAAAAAACAAAAGTAAATTAAAAACAAACCTGATGAAACAG ATGAAACAGATGAAGGAAGATGTGGAAATCTTAGCCTGCCTTAGCCAGGG CTCAGAGATGAAGCAGTGAAGAGACAGATTGGGAGGGAAAGGGAGAATG GTGTACCCTTTATTTCTTCTGAAATCACACTGATGACATCAGTTGTTTAAA CGGGGTATTGTCCTTTCCCCCCTTGAGGTTCCCTTGTGAGCTTGAATCAAC CAATCTGATCTGCAGTAGTGTGGACTAGAACAACCCAAATAGCATCTAGA AAGCCATGAGTTTGAAAGGGCCCATCACAGGCACTTTCCTAGCCTAAT SEQ ID NO:68 Insulin-Like Growth Factor Binding Protein 7 >gil45046181reflNM_001553.11 Homo sapiens insulin-like growth factor binding protein 7 (IGFBP7), mRNA |qPCR forward_primer match [470..487] | qPCR reverseprimer match [567..546] qPCR probe match [492..517] GCCGCTGCCACCGCACCCCGCCATGGAGCGGCCGTCGCTGCGCGCC CTGCTCCTCGGCGCCGCTGGGCTGCTGCTCCTGCTCCTGCCCCTCTCCTCTT CCTCCTCTTCGGACACCTGCGGCCCCTGCGAGCCGGCCTCCTGCCCGCCCC TGCCCCCGCTGGGCTGCCTGCTGGGCGAGACCCGCGACGCGTGCGGCTGC TGCCCTATGTGCGCCCGCGGCGAGGGCGAGCCGTGCGGGGGTGGCGGCGC CGGCAGGGGGTACTGCGCGCCGGGCATGGAGTGCGTGAAGAGCCGCAAG AGGCGGAAGGGTAAAGCCGGGGCAGCAGCCGGCGGTCCGGGTGTAAGCG GCGTGTGCGTGTGCAAGAGCCGCTACCCGGTGTGCGGCAGCGACGGCACC ACCTACCCGAGCGGCTGCCAGCTGCGCGCCGCCAGCCAGAGGGCCGAGA GCCGCGGGGAGAAGGCCATCACCCAGGTCAGCAAGGGCACCTGCGAGCA AGGTCCTTCCATAGTGACGCCCCCCAAGGACATCTGGAATGTCACTGGTG CCCAGGTGTACTTGAGCTGTGAGGTCATCGGAATCCCGACACCTGTCCTCA 19 WO 2005/010213 PCT/US2004/022959 TCTGGAACAAGGTAAAAAGGGGTCACTATGGAGTTCAAAGGACAGAACT CCTGCCTGGTGACCGGGACAACCTGGCCATTCAGACCCGGGGTGGCCCAG AAAAGCATGAAGTAACTGGCTGGGTGCTGGTATCTCCTCTAAGTAAGGAA GATGCTGGAGAATATGAGTGCCATGCATCCAATTCCCAAGGACAGGCTTC AGCATCAGCAAAAATTACAGTGGTTGATGCCTTACATGAAATACCAGTGA AAAAAGGTGAAGGTGCCGAGCTATAAACCTCCAGAATATTATTAGTCTGC ATGGTTAAAAGTAGTCATGGATAACTACATTACCTGTTCTTGCCTAATAAG TTTCTTTTAATCCAATCCACTAACACTTTAGTTATATTCACTGGTTTTACAC AGAGAAATACAAAATAAAGATCACACATCAAGACTATCTACAAAAATTTA TTATATATTTACAGAAGAAAAGCATGCATATCATTAAACAAATAAAATAC TTTTTATCACAAAAAAAAAAAAAAAA SEQ ID NO: 69 Gamma-Glutamyl Hydrolase >gil4503986|reflNM_003878.1| Homo sapiens gamma-glutamyl hydrolase (conjugase, folylpolygammaglutamyl hydrolase) (GGH), mRNA I qPCR forwardprimer match [531..547] 1 qPCR reverseprimer match [611..587] | qPCR probe match [549..577] TGCCGCAGCCCCCGCCCGCCCGCAGAGCTTTTGAAAGGCGGCGGG AGGCGGCGAGCGCCATGGCCAGTCCGGGCTGCCTGCTGTGCGTGCTGGGC CTGCTACTCTGCGGGGCGGCGAGCCTCGAGCTGTCTAGACCCCACGGCGA CACCGCCAAGAAGCCCATCATCGGAATATTAATGCAAAAATGCCGTAATA AAGTCATGAAAAACTATGGAAGATACTATATTGCTGCGTCCTATGTAAAG TACTTGGAGTCTGCAGGTGCGAGAGTTGTACCAGTAAGGCTGGATCTTAC AGAGAAAGACTATGAAATACTTTTCAAATCTATTAATGGAATCCTTTTCCC TGGAGGAAGTGTTGACCTCAGACGCTCAGATTATGCTAAAGTGGCCAAAA TA'TTATAACTTGTCCATACAGAGTTTTGATGATGGAGACTATTTTCCTGT GTGGGGCACATGCCTTGGATTTGAAGAGCTTTCACTGCTGATTAGTGGAG AGTGCTTATTAACTGCCACAGATACTGTTGACGTGGCAATGCCGCTGAACT TCACTGGAGGTCAATTGCACAGCAGAATGTTCCAGAATTTTCCTACTGAGT TGTTGCTGTCATTAGCAGTAGAACCTCTGACTGCCAATTTCCATAAGTGGA GCCTCTCCGTGAAGAATTTTACAATGAATGAAAAGTTAAAGAAGTTrTTC AATGTCTTAACTACAAATACAGATGGCAAGATTGAGTTTATTTCAACAAT GGAAGGATATAAGTATCCAGTATATGGTGTCCAGTGGCATCCAGAGAAAG CACCTTATGAGTGGAAGAATTTGGATGGCATTTCCCATGCACCTAATGCTG TGAAAACCGCATTTTATTTAGCAGAGTTTTTTGTTAATGAAGCTCGGAAAA ACAACCATCATTTTAAATCTGAATCTGAAGAGGAGAAAGCATTGATTTAT CAGTTCAGTCCAATTTATACTGGAAATATTTCTTCATTTCAGCAATGTTAC ATATTTGATTGAAAGTCTTCAATTTGTTAACAGAGCAAATTTGAATAATTC CATGATTAAACTGTTAGAATAACTTGCTACTCATGGCAAGATTAGGAAGT CACAGATTCTTTCTATAATGTGCCTGGCTCTGATTCTTCATTATGTATGTG ACTATTTATATAACATTAGATAATTAAATAGTGAGACATAAATAGAGTGC TTTTTCATGGAAAAGCCTTCTTATATCTGAAGATTGAAAAATAAATTTACT GAAATACAAAAAAAAAAAAAAA SEQ ID NO: 70 20 WO 2005/010213 PCT[US2004/022959 Leucine Proline-Enriched Proteoglycan 1 'gi[21361917reflNM_022356.2 Homo sapiens leucine proline-enriched proteoglycan (leprecan) 1 (LEPRB1), nimRNA I qPCR forwardprimer match [813..836]|1 qPCR reverse_primer match [894..872] I qPCR probe match [841..870] GGTGGCGGGTGGCTGGCGGTTCCGTTAGGTCTGAGGGAGCGATGG CGGTACGCGCGTTGAAGCTGCTGACCACACTGCTGGCTGTCGTGGCCGCT GCCTCCCAAGCCGAGGTCGAGTCCGAGGCAGGATGGGGCATGGTGACGCC TGATCTGCTCTTCGCCGAGGGGACCGCAGCCTACGCGCGCGGGGACTGGC CCGGGGTGGTCCTGAGCATGGAACGGGCGCTGCGCTCCCGGGCAGCCCTC CGCGCCCTTCGCCTGCGCTGCCGCACCCAGTGTGCCGCCGACTTCCCGTGG GAGCTGGACCCCGACTGGTCCCCCAGCCCGGCCCAGGCCTCGGGCGCCGC CGCCCTGCGCGACCTGAGCTTCTTCGGGGGCCTTCTGCGTCGCGCTGCCTG CCTGCGCCGCTGCCTCGGGCCGCCGGCCGCCCACTCGCTCAGCGAAGAGA TGGAGCTGGAGTTCCGCAAGCGGAGCCCCTACAACTACCTGCAGGTCGCC TACTTCAAGATCAACAAGTTGGAGAAAGCTGTTGCTGCAGCACACACCTT CTTCGTGGGCAATCCTGAGCACATGGAAATGCAGCAGAACCTAGACTATT ACCAAACCATGTCTGGAGTGAAGGAGGCCGACTTCAAGGATCTTGAGACT CAACCCCATATGCAAGAATTTCGACTGGGAGTGCGACTCTACTCAGAGGA ACAGCCACAGGAAGCTGTGCCCCACCTAGAGGCGGCGCTGCAAGAATACT TTGTGGCCTATGAGGAGTGCCGTGCCCTCTGCGAAGGGCCCTATGACTAC GATGGCTACAACTACCTTGAGTACAACGCTGACCTCTTCCAGGCCATCAC AGATCATTACATCCAGGTCCTCAACTGTAAGCAGAACTGTGTCACGGAGC TTGCTTCCCACCCAAGTCGAGAGAAGCCCTTTGAAGACTTCCTCCCATCGC ATTATAATTATCTGCAGTTTGCCTACTATAACATTGGGAATTATACACAGG CTGTTGAATGTGCCAAGACCTATCTTCTCTTCTTCCCCAATGACGAGGTGA TGAACCAAAATTTGGCCTATTATGCAGCTATGCTTGGAGAAGAACACACC AGATCCATCGGCCCCCGTGAGAGTGCCAAGGAGTACCGACAGCGAAGCCT ACTGGAAAAAGAACTGCTTrTTCTTCGCTTATGATGTTTTTGGAATTCCCTTT GTGGATCCGGATTCATGGACTCCAGGAGAAGTGATTCCCAAGAGATTGCA AGAGAAACAGAAGTCAGAACGGGAAACAGCCGTACGCATCTCCCAGGAG ATTGGGAACCTTATGAAGGAAATCGAGACCCTTGTGGAAGAGAAGACCA AGGAGTCACTGGATGTGAGCAGACTGACCCGGGAAGGTGGCCCCCTGCTG TATGAAGGCATCAGTCTCACCATGAACTCCAAACTCCTGAATGGTTCCCA GCGGGTGGTGATGGACGGCGTAATCTCTGACCACGAGTGTCAGGAGCTGC AGAGACTGACCAATGTGGCAGCAACCTCAGGAGATGGCTACCGGGGTCA GACCTCCCCACATACTCCCAATGAAAAGTTCTATGGTGTCACTGTCTTCAA AGCCCTCAAGCTGGGGCAAGAAGGCAAAGTTCCTCTGCAGAGTGCCCACC TGTACTACAACGTGACGGAGAAGGTGCGGCGCATCATGGAGTCCTACTTC CGCCTGGATACGCCCCTCTACTTTTCCTACTCTCATCTGGTGTGCCGCACT GCCATCGAAGAGGTCCAGGCAGAGAGGAAGGATGATAGTCATCCAGTCC ACGTGGACAACTGCATCCTGAATGCCGAGACCCTCGTGTGTGTCAAAGAG CCCCCAGCCTACACCTTCCGCGACTACAGCGCCATCCTTTACCTAAATGGG GACTTCGATGGCGGAAACTTTTATTTCACTGAACTGGATGCCAAGACCGT GACGGCAGAGGTGCAGCCTCAGTGTGGAAGAGCCGTGGGATTCTCTTCAG GCACTGAAAACCCACATGGAGTGAAGGCTGTCACCAGGGGGCAGCGCTGT GCCATCGCCCTGTGGTTCACCCTGGACCCTCGACACAGCGAGCGGGTGAG AGCAGCTCGAGCGGGTGAGAGCAGCTGGTGCTGTGGTGACCCGTTCCCAG 21 WO 2005/010213 PCT/US2004/022959 AGCGCCCTTGGTTGCCTCTCTTCCCCAAATCCCATTGCCAGTGGCTGA GACACGAAAGGAGCACTTGGGACACCAGCTCCAACGCCCTGTCATTATGG TCACATTGCCTTGTCCTCCCTGGGCCTGCTGTGAACGGGATCCAGGTGGGG AAAGAGGTCAAGACAGGGAGCGATGCTGAGTTCTTGGTTCCCTCCTTGGG CCCCACTTCAGCTGTCCTTTTCCAGAGAGTAGGACCTGCTGGGAAGGAGA TGAGCCTGGGGCCATTAAGGAACCTTCCTTGTCCCCTGGGAAGTAGCAGC TGAGAGATAGCGAGTGTCTGGAGCGGAGGCCTCTCTGAATGGGCAGGGGT TTGTCCTTGCAGGACAGGGTGCAGGCAGATGACCTGGTGAAGATGCTCTT CAGCCCAGAAGAGATGGTCCTCTCCCAGGAGCAGCCCCTGGATGCCCAGC AGGGCCCCCCCGAACCTGCACAAGAGTCTCTCTCAGGCAGTGAATCGAAG CCCAAGGATGAGCTATGACAGCGTCCAGGTCAGACGGATGGGTGACTAGA CCCATGGAGAGGAACTCTTCTGCACTCTGAGCTGGCCAGCCCCTCGGGGC TGCAGAGCAGTGAGCCTACATCTGCCACTCAGCCGAGGGGACCCTGCTCA CAGCCTTCTACATGGTGCTACTGCTCTTGGAGTGGACATGACCAGACACC GCACCCCCTGGATCTGGCTGAGGGCTCAGGACACAGGCCCAGCCACCCCC AGGGGCCTCCACAGGCCGCTGCATAACAGCGATACAGTACTTAAGTGTCT GTGTAGACAACCAAAGAATAAATGATTCATGGTTTTTTTT SEQ ID NO: 71 Cystatin S >giJl198822541reflNM_001899.21 Homo sapiens cystatin S (CST4), mRNA | qPCR forwardprimer match [343..361] qPCR reverseprimer match [434..4111 qPCR probe match [382..410] GGCTCTCACCCTCCTCTCCTGCAGCTCCAGCTTTGTGCTCTGCCTCT GAGGAGACCATGGCCCGGCCTCTGTGTACCCTGCTACTCCTGATGGCTACC CTGGCTGGGGCTCTGGCCTCGAGCTCCAAGGAGGAGAATAGGATAATCCC AGGTGGCATCTATGATGCAGACCTCAATGATGAGTGGGTACAGCGTGCCC TTCACTTCGCCATCAGCGAGTACAACAAGGCCACCGAAGATGAGTACTAC AGACGCCCGCTGCAGGTGCTGCGAGCCAGGGAGCAGACCTTTGGGGGGGT GAATTACTTCTTCGACGTAGAGGTGGGCCGCACCATATGTACCAAGTCCC AGCCCAACTTGGACACCTGTGCCTTCCATGAACAGCCAGAACTGCAGAAG AAACAGTTGTGCTCTTTCGAGATCTACGAAGTTCCCTGGGAGGACAGAAT GTCCCTGGTGAATTCCAGGTGTCAAGAAGCCTAGGGGTCTGTGCCAGGCC AGTCACACCGACCACCACCCACTCCCACCCACTGTAGTGCTCCCACCCCTG GACTGGTGGCCCCCACCCTGCGGGAGGCCTCCCCATGTGCCTGTGCCAAG AGACAGACAGAGAAGGCTGCAGGAGTCCTTTGTTGCTCAGCAGGGCGCTC TGCCCTCCCTCCTTCCTTCTTGCTTCTAATAGACCTGGTACATGGTACACAC ACCCCCACCTCCTGCAATTAAACAGTAGCATCGCC SEQ ID NO: 72 Secreted Frizzle-Related Protein 4 >giI84007331refINM_003014.21 Homo sapiens secreted frizzled-related protein 4 (SFRP4), mRNA I qPCR assayon demandcontext match [1079..11031 GGCGGGTTCGCGCCCCGAAGGCTGAGAGCTGGCGCTGCTCGTGCCC TGTGTGCCAGACGGCGGAGCTCCGCGGCCGGACCCCGCGGCCCCGCTTTG CTGCCGACTGGAGTTTGGGGGAAGAAACTCTCCTGCGCCCCAGAAGATTT CTTCCTCGGCGAAGGGACAGCGAAAGATGAGGGTGGCAGGAAGAGAAGG CGCTTTCTGTCTGCCGGGGTCGCAGCGCGAGAGGGCAGTGCCATGTTCCTC 22 WO 2005/010213 PCT/US2004/022959 TCCATCCTAGTGGCGCTGTGCCTGTGGCTGCAGCCTGGCGCTGGGCGTGCGC GGCGGGCCCTGCGAGGCG-iGTGCGCATCCCTATGTGCCGGCACATGCCCTG GAACATCACGCGGATGCCCAACCACCTGCACCACAGCACGCAGGAGAAC GCCATCCTGGCCATCGAGCAGTACGAGGAGCTGGTGGACGTGAACTGCAG CGCCGTGCTGCGCTTCTTCTTGTGTGCCATGTAGGCGCCCATTTGCACCCT GGAGTTCCTGCACGACCCTATCAAGCGGTGCAAGTCGGTGTGCCAACGCG CGCGCGACGACTGCGAGCCCCTCATGAAGATGTACAACCACAGCTGGCCC GAAAGCCTGGCCTG3CGACGAGCTGCCTGTCTATGACCGTGGCGTGTGCAT TTCGCCTGAAGCCATCGTCACGGACGTCCCGGAGGATGTTAAGTGGATAG ACATCACACCAGACATGATGGTACAGOAAAGGCCTCTTGATGTTGACTGT AAACGCCTAAGCCCCGATCGGTGCAAGTGTAAAAAGGTGAAGCCAACTTT GGCAACGTATCTCAGCAAAAACTACAGCTATGTTATTCATGCCAAAATAA AAGCTGTGCAGAGGAGTGGCTGCAATGAGGTCACAACGGTGGTGGATGTA AAAGAGATCTTCAAGTCCTCATCACCCATCCCTCGA-ACTCAAGTCCCGCTC ATTACAAATTCTTCTTGCCAGTGTCCACACATCCTGCCCCATCAAGATGTT CTCATCATGTGTTAC@-AGTGGCGTTCAAGGYATGATGCTTCTTGAAAATTGC TTAGTTGAAAAATGGAGAGATCAGCTTAGTAAAAGATCCATACAGTGGGA AGAGAGGCTGCAGTGAAGAGCGGAGA-ACAGTTCAGGACAAGAAGAAAACA GCCGGGCGCACCAGTCGTAGTAATCCCCCCAAACCAAAGGGAAAGCCTCC TGGTCCCAAACCAGCCAGTCCCAAGAAGAACATTAAAACTAGGAGTGCCC AGAAGAGAACAAACCGGAAAAGiAGTGTGAGCTAACTAGTTTCCAAAGCG GAGACTTCCGACTTGCTTACAGGATGAGGCTGGGCATTGCCTGGGAGAGC CTATGTAAGGCCATGTGCGCCTTGCCCTAACAACTCACTGCAGTGCTCTTC ATAGACACATCT1TGCAGCATTUTTCTTAAGGCTATGCTTCAG1TTTCTTTG TAAGCCATGACAAGCCATAGTGGTAGGYFTGGCCT'ITGGTACAGAAGGTG AGTTAAAGCTGGTGGAAAAGGC1ITATTGCATTGCA1ITCAGAGTAACCTGT GTGCATACTCTAGAAGAGTAGGGAA-AATAATGCTTGYFACAATTCGACCT AATATGTGCATTGTAAAATAAATGGCATATTTCAAACAAAACACGTAATT T2ITTACAGTATG=TTrACCTTTTGATATCTGTTGTTGCAATGTTAGTG ATGT=rAAAATGTGATGAAAATATAATGTT17ITAAGAAGGAACAGTAGT GGAATGAATGTTAAAAGATCTI7TATGTGTTTATGGTCTGCAGAAGGATTITT TGTGATGAAAGGGGATTTnGAAAAATTAGAGAAGTAGCATATGGAAAA ]ITATAATGTGTTTTTTTACCAATGACTTCAGTTTGTGTYFETAGCTAGAAAC TTAAAAACAAAAATAATAATAAAGAAAAATAAATAAAAAGG3AGAGGCAG ACAATGTCTGGATTCCTGTITITTGGTTACCTGATTTCCATGATCATGATGC TTCTTGTCAACACCCTCTTAAGCAGCACCAGAAACAGTGAGTTTGTCTGTA CCATTAGGAGTTAGGTACTAATTAGTTGGCTAATGCTCAAGTATTTTATAC CCACAAGAGAGGTATGTCACTCATCTTACTTCGCAGGACATCGACCCTGA GAATAATTTGACAAGCTTAAAAATGGCCTTCATGTGAGTGCCAAATTTTGT TTTCTTCA'ITTAAATAITICTTTGCCTAAATACATGTGjAGAGGAGTTAA ATATAAATGTACAGAGAGGAAAGTTGAGTTCCACCTCTGAAATGAGAATT ACTTGACAGTTGGGATACTTTAATCAGAAAAAAAGAACT7ATTTGCAGCA TTTTATCAACAAATTTCATAATTGTGGACAATTGGAGGCATTATT7TAAA AAACAATTTTATTGGCCTTI'TGCTAACACAGTAAGCATGTATJTTATAAGG CATTCAATAAATGCACAACGCCCAAAGGAAATAAAATCCTATCTAATCCT ACTCTCCACTACACAGAGGTAATCACTATTAGTATTTTGGCATATTATTCT CCAGGTGTTTGCTTATGCACTTATAAAATGATTUGAACAAATAAAACTAG GAACCTGTATACATGTGTTTCATA-AGCTGCCTCCTTTGCTTGGCCCTJTTATT GAGATAAGTTTTCCTGTCAAGAAAGCAGAAACCATGTCATPTCTAACAGC TGTGTTATATTCCATAGTATGCATTACTCAACAAACTGTTGTGCTAT7GGA 23 WO 2005/010213 PCT/US2004/022959 TACTTAGGTGGTTTCTTCACTGACAATACTGAATAAACATCTCACCGGAAT TC SEQ ID NO: 73 Asporin >gil41350213|reflNM_017680.31 Homo sapiens asporin (LRR class 1) (ASPN), mRNA | qPCR forwardprimer match [798..823] | qPCR reverseprimer match [934..912] qPCR probe match [842..875] AGTACTAACATGGACTAATCTGTGGGAGCAGTTTATTCCAGTATCA CCCAGGGTGCAGCCACACCAGGACTGTGTTGAAGGGTGTTTFTTCTTTT AAATGTAATACCTCCTCATCTTTTCTTCTTACACAGTGTCTGAGAACATTT ACATTATAGATAAGTAGTACATGGTGGATAACTTCTACTTTTAGGAGGACT ACTCTCTTCTGACAGTCCTAGACTGGTCYCTACACTAAGACACCATGAAG GAGTATGTGCTCCTATTATTCCTGGCTTTGTGCTCTGCCAAACCCTTCTTTA GCCCTTCACACATCGCACTGAAGAATATGATGCTGAAGGATATGGAAGAC ACAGATGATGATGATGATGATGATGATGATGATGATGATGATGATGAGGA CAACTCTCTrTTTCCAACAAGAGAGCCAAGAAGCCATTTTTCCATTTGA TCTGTTTCCAATGTGTCCATTTGGATGTCAGTGCTATTCACGAGTTGTACA TTGCTCAGATTTAGGTTTGACCTCAGTCCCAACCAACATTCCATTTGATAC TCGAATGCTTGATCTTCAAAACAATAAAATTAAGGAAATCAAAGAAAATG ATTTTAAAGGACTCACTTCACTTTATGGTCTGATCCTGAACAACAACAAGC TAACGAAGATTCACCCAAAAGCCTTTCTAACCACAAAGAAGTTGCGAAGG CTGTATCTGTCCCACAATCAACTAAGTGAAATACCACTTAATCTTCCCAAA TCATTAGCAGAACTCAGAATTCATGAAAATAAAGTTAAGAAAATACAAAA GGACACATTCAAAGGAATGAATGCTTTACACGTTTTGGAAATGAGTGCAA ACCCTCTTGATAATAATGGGATAGAGCCAGGGGCATTTGAAGGGGTGACG GTGTTCCATATCAGAATTGCAGAAGCAAAACTGACCTCAGTTCCTAAAGG CTTACCACCAACTTTATTGGAGCTTCACTTAGATTATAATAAAATTTCAAC AGTGGAACTTGAGGATTTTAAACGATACAAAGAACTACAAAGGCTGGGCC TAGGAAACAACAAAATCACAGATATCGAAAATGGGAGTCTTGCTAACATA CCACGTGTGAGAGAAATACATTTGGAAAACAATAAACTAAAAAAAATCCC TTCAGGATTACCAGAGTTGAAATACCTCCAGATAATCTTCCTTCATTCTAA TTCAATTGCAAGAGTGGGAGTAAATGACTTCTGTCCAACAGTGCCAAAGA TGAAGAAATCTTTATACAGTGCAATAAGTTTATTCAACAACCCGGTGAAA TACTGGGAAATGCAACCTGCAACATTTCGTTGTGTTTTGAGCAGAATGAGT GTTCAGCTTGGGAACTTTGGAATGTAATAATTAGTAATTGGTAATGTCCAT TTAATATAAGATTCAAAAATCCCTACATTTGGAATACTTGAACTCTATTAA TAATGGTAGTATTATATATACAAGCAAATATCTATTCTCAAGTGGTAAGTC CACTGACTTATTTTATGACAAGAAATTTCAACGGAATTTTGCCAAACTATT GATACATAAGGGTTGAGAGAAACAAGCATCTATTGCAGTTTCTTTTTGCGT ACAAATGATCTTACATAAATCTCATGCTTGACCATTCCTTTCTTCATAACA AAAAAGTAAGATATTCGGTATTTAACACTTTGTTATCAAGCATATTTTAAA AAGAACTGTACTGTAAATGGAATGCTTGACTTAGCAAAATTTGTGCTCTTT CATTTGCTGTTAGAAAAACAGAATTAACAAAGACAGTAATGTGAAGAGTG CATTACACTATTCTTATTCTTTAGTAACTTGGGTAGTACTGTAATATTTTTA ATCATCTTAAAGTATGATTTGATATAATCTTATTGAAATTACCTTATCATG TCTTAGAGCCCGTCTFATGTTTAAAACTAATTTCYAAAATAAAGCCTTC AGTAAATGTTCATTACCAACTTGATAAATGCTACTCATAAGAGCTGGTTTG GGGCTATAGCATATGCTTTTTTTTAATTATTACCTGATTTAAAAATCT 24 WO 2005/010213 PCT/US2004/022959 CTGTAAAAACGTGTAGTGTTTCATAAAATCTGTAACTCGCATTTTAATGAT CCGCTATTATAAGCTTTTAATAGCATGAAAATTGTTAGGCTATATAACATT GCCACTTCAACTCTAAGGAATATTTTTGAGATATCCCTTTGGAAGACCTTG CTTGGAAGAGCCTGGACACTAACAATTCTACACCAAATTGTCTCITCAAAT ACGTATGGACTGGATAACTCTGAGAAACACATCTAGTATAACTGAATAAG CAGAGCATCAAATTAAACAGACAGAAACCGAAAGCTCTATATAAATGCTC AGAGTTCTTTATGTATTTCTTATTGGCATTCAACATATGTAAAATCAGAAA ACAGGGAAATTTTCATTAAAAATATTGGTTGAAATAAAAAAAAAAAAAA SEQ ID NO: 74 Cell Growth Regulator with EF Hand Domain 1 >giJ33589823|ref]NM_006569.2 Homo sapiens cell growth regulator with EF hand domain 1 (CGREFI), mRNA I qPCR forwardprimer match [378..394] | qPCR reverseprimer match [455..431] | qPCR probe match [396..415] CGCGCAGCCCCTCCGGCCGCGGGCGCAGCGGGGGCGCTGGTGGAG CTGCGAAGGGCCAGGTCCGGCGGGCGGGGCGGCGGCTGGCACTGGCTCC GGACTCTGCCCGGCCAGGGCGGCGGCTCCAGCCGGGAGGGCGACGTGGA GCGGCCACGTGGAGCGGCCCGGGGGAGGCTGGCGGCGGGAGGCGAGGCG CGGGCGGCGCAGCAGCCAGGAGCGCCCACGGAGCTGGACCCCCAGAGCC GCGCGGCGCCGCAGCAGTTCCAGGAAGGATGTTACCTTTGACGATGACAG TGTTAATCCTGCTGCTGCTCCCCACGGGTCAGGCTGCCCCAAAGGATGGA GTCACAAGGCCAGACTCTGAAGTGCAGCATCAGCTCCTGCCCAACCCCTT CCAGCCAGGCCAGGAGCAGCTCGGACTTCTGCAGAGCTACCTAAAGGGAC TAGGAAGGACAGAAGTGCAACTGGAGCATCTGAGCCGGGAGCAGGTTCT CCTCTACCTCTTTGCCCTCCATGACTATGACCAGAGTGGACAGCTGGATGG CCTGGAGCTGCTGTCCATGTTGACAGCTGCTCTGGCCCCTGGAGCTGCCAA CTCTCCTACCACCAACCCGGTGATATTGATAGTGGACAAAGTGCTCGAGA CGCAGGACCTGAATGGGGATGGGCTCATGACCCCTGCTGAGCTCATCAAC TTCCCGGGAGTAGCCCTCAGGCACGTGGAGCCCGGAGAGCCCCTTGCTCC ATCTCCTCAGGAGCCACAAGCTGTTGGAAGGCAGTCCCTATTAGCTAAAA GCCCATTAAGACAAGAAACACAGGAAGCCCCTGGTCCCAGAGAAGAAGC AAAGGGCCAGGTAGAGGCCAGAAGGGAGTCTTTGGATCCTGTCCAGGAG CCTGGGGGCCAGGCAGAGGCTGATGGAGATGTTCCAGGGCCCAGAGGGG AAGCTGAGGGCCAGGCAGAGGCTAAAGGAGATGCCCCTGGGCCCAGAGG GGAAGCTGGGGGCCAGGCAGAGGCTGAAGGAGATGCCCCCGGGCCCAGA GGGGAAGCTGGGGGCCAGGCAGAGGCCAGGGAGAATGGAGAGGAGGCC AAGGAACTTCCAGGGGAAACACTGGAGTCTAAGAACACCCAAAATGACTT TGAGGTGCACATTGTTCAAGTGGAGAATGATGAGATCTAGATCTTGAAGA TACAGGTACCCCACGAAGTCTCAGTGCCAGAACATAAGCCCTGAAGTGGG CAGGGGAAATGTACGCTGGGACAAGGACCATCTCTGTGCCCCCTGTCTGG TCCCAGTAGGTATCAGGTCTTTCTGTGCAGCTCAGGGAGACCCTAAGTTAA GGGGCAGATTACCAATAAAGAACTGAATGAATTCATCCCCCCGGGCCACC TCTCTACCCGTCCAGCCTGCCCAGACCCTCTCAGAGGAACGGGGTTGGGG ACCGAAAGGACAGGGATGCCGCCTGCCCAGTGTTTCTGGGCCTCACGGTG CTCCGGCAGCAGAGCGCATGGTGCTAGCCATGGCCGGCTGCAGAGGACCC AGTGAGGAAAGCTCAGTCTATCCCTGGGCCCCAAACCCTCACCGGTTCCC CCTCACCTGGTGTTCAGACACCCCATGCTCTCCTGCAGCTCAGGGCAGGTG ACCCCATCCCCAGTAATATTAATCATCACTAGAACTTTTTGAGAGCCTTGT ACACATCAGGCATCATGCTGGGCATTTTATATATGATTTTATCCTCACAAT 25 WO 2005/010213 PCT/US2004/022959 AATTCTGTAGCCAAGCAGAATTGGTTCCATTTGACAGATGAAGAAATTGA GGCAGATTGCGTTAAGTGCTGTACCCTAAGGTGATATGCAGCTAATTAAA TGGCAGATTTGAA SEQ ID NO: 75 Kallikrein 10, Transcript Variant 1 >gif22208981|reflNM_002776.3| Homo sapiens kallilrein 10 (KLK10), transcript variant 1, mRNA I qPCR forward-primer match [851..874] | qPCR reverseprimer match [950..931] | qPCR probe match [890..914] CATCCTGCCACCCCTAGCCTTGCTGGGGACGTGAACCCTCTCCCCG CGCCTGGGAAGCCTTCTTGGCACCGGGACCCGGAGAATCCCCACGGAAGC CAGTTCCAAAAGGGATGAAAAGGGGGCGTTTCGGGCACTGGGAGAAGCC TGTATTCCAGGGCCCCTCCCAGAGCAGGAATCTGGGACCCAGGAGTGCCA GCCTCACCCACGCAGATCCTGGCCATGAGAGCTCCGCACCTCCACCTCTCC GCCGCCTCTGGCGCCCGGGCTCTGGCGAAGCTGCTGCCGCTGCTGATGGC GCAACTCTGGGCCGCAGAGGCGGCGCTGCTCCCCCAAAACGACACGCGCT TGGACCCCGAAGCCTATGGCTCCCCGTGCGCGCGCGGCTCGCAGCCCTGG CAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCGGGTGTCCTGGTG GACCAGAGTTGGGTGCTGACGGCCGCGCACTGCGGAAACAAGCCACTGTG GGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGGGAGAGCAGCTCC GCCGGACCACTCGCTCTGTTGTCCATCCCAAGTACCACCAGGGCTCAGGC CCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCATGTTGCTGAAGCT GGCCAGGCCCGTAGTGCTGGGGCCCCGCGTCCGGGCCCTGCAGCTTCCCT ACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTGGCTGGGGCACC ACGGCCGCCCGGAGAGTGAAGTACAACAAGGGCCTGACCTGCTCCAGCAT CACTATCCTGAGCCCTAAAGAGTGTGAGGTCTTCTACCCTGGCGTGGTCAC CAACAACATGATATGTGCTGGACTGGACCGGGGCCAGGACCCTTGCCAGA GTGACTCTGGAGGCCCCCTGGTCTGTGACGAGACCCTCCAAGGCATCCTCT CGTGGGGTGTTTACCCCTGTGGCTCTGCCCAGCATCCAGCTGTCTACACCC AGATCTGCAAATACATGTCCTGGATCAATAAAGTCATACGCTCCAACTGA TCCAGATGCTACGCTCCAGCTGATCCAGATGTTATGCTCCTGCTGATCCAG ATGCCCAGAGGCTCCATCGTCCATCCTCTTCCTCCCCAGTCGGCTGAACTC TCCCCTTGTCTGCACTGTTCAAACCTCTGCCGCCCTCCACACCTCTAAACA TCTCCCCTCTCACCTCATTCCCCCACCTATCCCCATTCTCTGCCTGTACTGA AGCTGAAATGCAGGAAGTGGTGGCAAAGGTTTATTCCAGAGAAGCCAGG AAGCCGGTCATCACCCAGCCTCTGAGAGCAGTTACTGGGGTCACCCAACC TGACTTCCTCTGCCACTCCCTGCTGTGTGACTTTGGGCAAGCCAAGTGCCC TCTCTGAACCTCAGTTTCCTCATCTGCAAAATGGGAACAATGACGTGCCTA CCTCTTAGACATGTTGTGAGGAGACTATGATATAACATGTGTATGTAAATC TTCATGGTGATTGTCATGTAAGGCTTAACACAGTGGGTGGTGAGTTCTGAC TAAAGGTTACCTGTTGTCGTGA SEQ ID NO: 76 Kallikrein 10 Transcript Variant 2 >giJ222089831ref1NM_145888.11 Homo sapiens kallikrein 10 (KLK1O), transcript variant 2, mRNA I qPCR forwardprimer match [714..737] | qPCR reverseprimer match [813..794] 1 qPCR probe match [753..777] 26 WO 2005/010213 PCT/US2004/022959 ACCAGCGGCAGACCACAGGCAGGGCAGAGGCACGTCTGGGTCCCC TCCCTCCTTCCTATCGGCGACTCCCAGGATCCTGGCCATGAGAGCTCCGCA CCTCCACCTCTCCGCCGCCTCTGGCGCCCGGGCTCTGGCGAAGCTGCTGCC GCTGCTGATGGCGCAACTCTGGGCCGCAGAGGCGGCGCTGCTCCCCCAAA ACGACACGCGCTTGGACCCCGAAGCCTATGGCTCCCCGTGCGCGCGCGGC TCGCAGCCCTGGCAGGTCTCGCTCTTCAACGGCCTCTCGTTCCACTGCGCG GGTGTCCTGGTGGACCAGAGTTGGGTGCTGACGGCCGCGCACTGCGGAAA CAAGCCACTGTGGGCTCGAGTAGGGGATGACCACCTGCTGCTTCTTCAGG GAGAGCAGCTCCGCCGGACCACTCGCTCTGTTGTCCATCCCAAGTACCAC CAGGGCTCAGGCCCCATCCTGCCAAGGCGAACGGATGAGCACGATCTCAT GTTGCTGAAGCTGGCCAGGCCCGTAGTGCTGGGGCCCCGCGTCCGGGCCC TGCAGCTTCCCTACCGCTGTGCTCAGCCCGGAGACCAGTGCCAGGTTGCTG GCTGGGGCACCACGGCCGCCCGGAGAGTGAAGTACAACAAGGGCCTGAC CTGCTCCAGCATCACTATCCTGAGCCCTAAAGAGTGTGAGGTCTTCTACCC TGGCGTGGTCACCAACAACATGATATGTGCTGGACTGGACCGGGGCCAGG ACCCTTGCCAGAGTGACTCTGGAGGCCCCCTGGTCTGTGACGAGACCCTC CAAGGCATCCTCTCGTGGGGTGTTTACCCCTGTGGCTCTGCCCAGCATCCA GCTGTCTACACCCAGATCTGCAAATACATGTCCTGGATCAATAAAGTCAT ACGCTCCAACTGATCCAGATGCTACGCTCCAGCTGATCCAGATGTTATGCT CCTGCTGATCCAGATGCCCAGAGGCTCCATCGTCCATCCTCTTCCTCCCCA GTCGGCTGAACTCTCCCCTTGTCTGCACTGTTCAAACCTCTGCCGCCCTCC ACACCTCTAAACATCTCCCCTCTCACCTCATTCCCCCACCTATCCCCATTCT CTGCCTGTACTGAAGCTGAAATGCAGGAAGTGGTGGCAAAGGTTTATTCC AGAGAAGCCAGGAAGCCGGTCATCACCCAGCCTCTGAGAGCAGTTACTGG GGTCACCCAACCTGACTTCCTCTGCCACTCCCTGCTGTGTGACTTTGGGCA AGCCAAGTGCCCTCTCTGAACCTCAGTTTCCTCATCTGCAAAATGGGAACA ATGACGTGCCTACCTCTTAGACATGTTGTGAGGAGACTATGATATAACAT GTGTATGTAAATCTTCATGGTGATTGTCATGTAAGGCTTAACACAGTGGGT GGTGAGTTCTGACTAAAGGTTACCTGTTGTCGTGA SEQ ID NO: 77 Tissue Inhibitor of Metalloproteinase 1 >gil4507508|ref}NM_003254.11 Homo sapiens tissue inhibitor of metalloproteinase 1 (erythroid potentiating activity, collagenase inhibitor) (TIMP1), mRNA I qPCR forward-primer match [221,.241] 1 qPCR reversejprimer match [359..340] 1qPCR probe match [251..283] AGGGGCCTTAGCGTGCCGCATCGCCGAGATCCAGCGCCCAGAGAG ACACCAGAGAACCCACCATGGCCCCCTTTGAGCCCCTGGCTTCTGGCATCC TGTTGTTGCTGTGGCTGATAGCCCCCAGCAGGGCCTGCACCTGTGTCCCAC CCCACCCACAGACGGCCTTCTGCAATTCCGACCTCGTCATCAGGGCCAAG TTCGTGGGGACACCAGAAGTCAACCAGACCACCTTATACCAGCGTTATGA GATCAAGATGACCAAGATGTATAAAGGGTTCCAAGCCTTAGGGGATGCCG CTGACATCCGGTTCGTCTACACCCCCGCCATGGAGAGTGTCTGCGGATACT TCCACAGGTCCCACAACCGCAGCGAGGAGTTTCTCATTGCTGGAAAACTG CAGGATGGACTCTTGCACATCACTACCTGCAGTTTCGTGGCTCCCTGGAAC AGCCTGAGCTTAGCTCAGCGCCGGGGCTTCACCAAGACCTACACTGTTGG CTGTGAGGAATGCACAGTGTTTCCCTGTTTATCCATCCCCTGCAAACTGCA GAGTGGCACTCATTGCTTGTGGACGGACCAGCTCCTCCAAGGCTCTGAAA 27 WO 2005/010213 PCT/US2004/022959 AGGGCTTCCAGTCCCGTCACCTTGCCTGCCTGCCTCGGGAGCCAGGGCTGT GCACCTGGCAGTCCCTGCGGTCCCAGATAGCCTGAATCCTGCCCGGAGTG GAACTGAAGCCTGCACAGTGTCCACCCTGTTCCCACTCCCATCTTTCTTCC GGACAATGAAATAAAGAGTTACCACCCAGC SEQ ID NO: 78 Secreted Protein, Acidic, Cysteine-Rich >gil486758091ref]NM_003118.2 Homo sapiens secreted protein, acidic, cysteine-rich (osteonectin) (SPARC), mRNA qPCR forward primer match [788..810] | qPCR reverseprimer match [915..898] qPCR probe match [818..839] GTTGCCTGTCTCTAAACCCCTCCACATTCCCGCGGTCCTTCAGACTG CCCGGAGAGCGCGCTCTGCCTGCCGCCTGCCTGCCTGCCACTGAGGGTTCC CAGCACCATGAGGGCCTGGATCTTCTTTCTCCTTTGCCTGGCCGGGAGGGC CTTGGCAGCCCCTCAGCAAGAAGCCCTGCCTGATGAGACAGAGGTGGTGG AAGAAACTGTGGCAGAGGTGACTGAGGTATCTGTGGGAGCTAATCCTGTC CAGGTGGAAGTAGGAGAATTTGATGATGGTGCAGAGGAAACCGAAGAGG AGGTGGTGGCGGAAAATCCCTGCCAGAACCACCACTGCAAACACGGCAA GGTGTGCGAGCTGGATGAGAACAACACCCCCATGTGCGTGTGCCAGGACC CCACCAGCTGCCCAGCCCCCATTGGCGAGTTTGAGAAGGTGTGCAGCAAT GACAACAAGACCTTCGACTCTTCCTGCCACTTCTTTGCCACAAAGTGCACC CTGGAGGGCACCAAGAAGGGCCACAAGCTCCACCTGGACTACATCGGGCC TTGCAAATACATCCCCCCTTGCCTGGACTCTGAGCTGACCGAATTCCCCCT GCGCATGCGGGACTGGCTCAAGAACGTCCTGGTCACCCTGTATGAGAGGG ATGAGGACAACAACCTTCTGACTGAGAAGCAGAAGCTGCGGGTGAAGAA GATCCATGAGAATGAGAAGCGCCTGGAGGCAGGAGACCACCCCGTGGAG CTGCTGGCCCGGGACTTCGAGAAGAACTATAACATGTACATCTTCCCTGTA CACTGGCAGTTCGGCCAGCTGGACCAGCACCCCATTGACGGGTACCTCTC CCACACCGAGCTGGCTCCACTGCGTGCTCCCCTCATCCCCATGGAGCATTG CACCACCCGCTTTTTCGAGACCTGTGACCTGGACAATGACAAGTACATCG CCCTGGATGAGTGGGCCGGCTGCTTCGGCATCAAGCAGAAGGATATCGAC AAGGATCTTGTGATCTAAATCCACTCCTTCCACAGTACCGGATTCTCTCTT TAACCCTCCCCTTCGTGTTTCCCCCAATGTTTAAAATGTTTGGATGGTTTGT TGTTCTGCCTGGAGACAAGGTGCTAACATAGATTTAAGTGAATACATTAA CGGTGCTAAAAATGAAAATTCTAACCCAAGACATGACATTCTTAGCTGTA ACTTAACTATTAAGGCCTTTTCCACACGCATTAATAGTCCCATITTTCTCTT GCCATTTGTAGCTTTGCCCATTGTCTTATTGGCACATGGGTGGACACGGAT CTGCTGGGCTCTGCCTTAAACACACATTGCAGCTTCAACTTTTCTCTTTAGT GTTCTGTTTGAAACTAATACTTACCGAGTCAGACTTTGTGTTCATTTCATTT CAGGGTCTTGGCTGCCTGTGGGCTTCCCCAGGTGGCCTGGAGGTGGGCAA AGGGAAGTAACAGACACACGATGTTGTCAAGGATGGTTTTGGGACTAGAG GCTCAGTGGTGGGAGAGATCCCTGCAGAACCCACCAACCAGAACGTGGTT TGCCTGAGGCTGTAACTGAGAGAAAGATTCTGGGGCTGTGTTATGAAAAT ATAGACATTCTCACATAAGCCCAGTTCATCACCATTTCCTCCTTTACCTTTC AGTGCAGTTTCTTTTCACATTAGGCTGTTGGTTCAAACTTGGGAGCACG .GACTGTCAGTTCTCTGGGAAGTGGTCAGCGCATCCTGCAGGGCTTCTCCTC CTCTGTCTTTTGGAGAACCAGGGCTCTTCTCAGGGGCTCTAGGGACTGCCA GGCTGTTTCAGCCAGGAAGGCCAAAATCAAGAGTGAGATGTAGAAAGTTG TAAAATAGAAAAAGTGGAGTTGGTGAATCGGTTGTTCTTTCCTCACATTTG GATGATTGTCATAAGGTTTTTAGCATGTTCCTCCTTTTCTTCACCCTCCCCT 28 WO 2005/010213 PCT/US2004/022959 TTTTTCTTCTATTAATCAAGAGAAACTTCAAAGTTAATGGGATGGTCGGAT CTCACAGGCTGAGAACTCGTTCACCTCCAAGCATTTCATGAAAAAGCTGC TTCTTATTAATCATACAAACTCTCACCATGATGTGAAGAGTTTCACAAATC CTTCAAAATAAAAAGTAATGACTTAGAAACTGCCTTCCTGGGTGATTTGC ATGTGTCTTAGTCTTAGTCACCTTATTATCCTGACACAAAAACACATGAGC ATACATGTCTACACATGACTACACAAATGCAAACCTTTGCAAACACATTA TGCTTTTGCACACACACACCTGTACACACACACCGGCATGTTTATACACAG GGAGTGTATGGTTCCTGTAAGCACTAAGTTAGCTGTTTTCATTTAATGACC TGTGGTTTAACCCTTTTGATCACTACCACCATTATCAGCACCAGACTGAGC AGCTATATCCTTTTATTAATCATGGTCATTCATTCATTCATTCATTCACAAA ATATTTATGATGTATTTACTCTGCACCAGGTCCCATGCCAAGCACTGGGGA CACAGTTATGGCAAAGTAGACAAAGCATTTGTTCATTTGAGCTTAGAGT CCAGGAGGAATACATTAGATAATGACACAATCAAATATAAATTGCAAGAT GTCACAGGTGTGATGAAGGGAGAGTAGGAGAGACCATGAGTATGTGTAA CAGGAGGACACAGCATTATTCTAGTGCTGTACTGTTCCGTACGGCAGCCA CTACCCACATGTAACTTTTTAAGATTTAAATTTAAATTAGTTAACATTCAA AACGCAGCTCCCCAATCACACTAGCAACATTTCAAGTGCTTGAGAGCCAT GCATGATTAGTGGTTACCCTATTGAATAGGTCAGAAGTAGAATCTTTTCAT CATCACAGAAAGTTCTATTGGACAGTGCTCTTCTAGATCATCATAAGACTA CAGAGCACTTTTCAAAGCTCATGCATGTTCATCATGTTAGTGTCGTATTTT GAGCTGGGGTTTTGAGACTCCCCTTAGAGATAGAGAAACAGACCCAAGAA ATGTGCTCAATTGCAATGGGCCACATACCTAGATCTCCAGATGTCATTTCC CCTCTCTTATTTAAGTTATGTTAAGATTACTAAAACAATAAAAGCTCCTA AAAA-ATCA SEQ ID NO: 79 Transforming Growth Factor, Beta-Induced >gil45074661ref]NM_000358.1| Homo sapiens transforming growth factor, beta-induced, 68kDa (TGFBI), mRNA I qPCR assay on_demandcontext match [170..194] GCTTGCCCGTCGGTCGCTAGCTCGCTCGGTGCGCGTCGTCCCGCTCC ATGGCGCTCTTCGTGCGGCTGCTGGCTCTCGCCCTGGCTCTGGCCCTGGGC CCCGCCGCGACCCTGGCGGGTCCCGCCAAGTCGCCCTACCAGCTGGTGCT GCAGCACAGCAGGCTCCGGGGCCGCCAGCACGGCCCCAACGTGTGTGCTG TGCAGAAGGTTATTGGCACTAATAGGAAGTACTTCACCAACTGCAAGCAG TGGTACCAAAGGAAAATCTGTGGCAAATCAACAGTCATCAGCTACGAGTG CTGTCCTGGATATGAAAAGGTCCCTGGGGAGAAGGGCTGTCCAGCAGCCC TACCACTCTCAAACCTTFACGAGACCCTGGGAGTCGTTGGATCCACCACCA CTCAGCTGTACACGGACCGCACGGAGAAGCTGAGGCCTGAGATGGAGGG GCCCGGCAGCTTCACCATCTTCGCCCCTAGCAACGAGGCCTGGGCCTCCTT GCCAGCTGAAGTGCTGGACTCCCTGGTCAGCAATGTCAACATTGAGCTGC TCAATGCCCTCCGCTACCATATGGTGGGCAGGCGAGTCCTGACTGATGAG CTGAAACACGGCATGACCCTCACCTCTATGTACCAGAATTCCAACATCCA GATCCACCACTATCCTAATGGGATTGTAACTGTGAACTGTGCCCGGCTCCT GAAAGCCGACCACCATGCAACCAACGGGGTGGTGCACCTCATCGATAAGG TCATCTCCACCATCACCAACAACATCCAGCAGATCATTGAGATCGAGGAC ACCTTTGAGACCCTTCGGGCTGCTGTGGCTGCATCAGGGCTCAACACGAT GCTTGAAGGTAACGGCCAGTACACGCTTTTGGCCCCGACCAATGAGGCCT 29 WO 2005/010213 PCT/US2004/022959 TCGAGAAGATCCCTAGTGAGACTTTGAACCGTATCCTGGGCGACCCAGAA GCCCTGAGAGACCTGCTGAACAACCACATCTTGAAGTCAGCTATGTGTGC TGAAGCCATCGTTGCGGGGCTGTCTGTAGAGACCCTGGAGGGCACGACAC TGGAGGTGGGCTGCAGCGGGGACATGCTCACTATCAACGGGAAGGCGATC ATCTCCAATAAAGACATCCTAGCCACCAACGGGGTGATCCACTACATTGA TGAGCTACTCATCCCAGACTCAGCCAAGACACTATTTGAATTGGCTGCAG AGTCTGATGTGTCCACAGCCATTGACCTTTTCAGACAAGCCGGCCTCGGCA ATCATCTCTCTGGAAGTGAGCGGTTGACCCTCCTGGCTCCCCTGAATTCTG TATTCAAAGATGGAACCCCTCCAATTGATGCCCATACAAGGAATTTGCTTC GGAACCACATAATTAAAGACCAGCTGGCCTCTAAGTATCTGTACCATGGA CAGACCCTGGAAACTCTGGGCGGCAAAAAACTGAGAGTTTGTTTATCG TAATAGCCTCTGCATTGAGAACAGCTGCATCGCGGCCCACGACAAGAGGG GGAGGTACGGGACCCTGTTCACGATGGACCGGGTGCTGACCCCCCCAATG GGGACTGTCATGGATGTCCTGAAGGGAGACAATCGCTTTAGCATGCTGGT AGCTGCCATCCAGTCTGCAGGACTGACGGAGACCCTCAACCGGGAAGGAG TCTACACAGTCTTTGCTCCCACAAATGAAGCCTTCCGAGCCCTGCCACCAA GAGAACGGAGCAGACTCTTGGGAGATGCCAAGGAACTTGCCAACATCCTG AAATACCACATTGGTGATGAAATCCTGGTTAGCGGAGGCATCGGGGCCCT GGTGCGGCTAAAGTCTCTCCAAGGTGACAAGCTGGAAGTCAGCTTGAAAA ACAATGTGGTGAGTGTCAACAAGGAGCCTGTTGCCGAGCCTGACATCATG GCCACAAATGGCGTGGTCCATGTCATCACCAATGTTCTGCAGCCTCCAGCC AACAGACCTCAGGAAAGAGGGGATGAACTTGCAGACTCTGCGCTTGAGAT CTTCAAACAAGCATCAGCGTTTTCCAGGGCTTCCCAGAGGTCTGTGCGACT AGCCCCTGTCTATCAAAAGTTATTAGAGAGGATGAAGCATTAGCTTGAAG CACTACAGGAGGAATGCACCACGGCAGCTCTCCGCCAATTTCTCTCAGAT TTCCACAGAGACTGTTTGAATGTTTTCAAAACCAAGTATCACACTTTAATG TACATGGGCCGCACCATAATGAGATGTGAGCCTTGTGCATGTGGGGGAGG AGGGAGAGAGATGTACTTYTAAATCATGTTCCCCCTAAACATGGCTGTTA ACCCACTGCATGCAGAAACTTGGATGTCACTGCCTGACATTCACTTCCAGA GAGGACCTATCCCAAATGTGGAATTGACTGCCTATGCCAAGTCCCTGGAA AAGGAGCTTCAGTATTGTGGGGCTCATAAAACATGAATCAAGCAATCCAG CCTCATGGGAAGTCCTGGCACAGTTTTTGTAAAGCCCTTGCACAGCTGGA GAAATGGCATCATTATAAGCTATGAGTTGAAATGTTCTGTCAAATGTGTCT CACATCTACACGTGGCTTGGAGGCTTTTATGGGGCCCTGTCCAGGTAGAA AAGAAATGGTATGTAGAGCT.TAGATTTCCCTATTGTGACAGAGCCATGGT GTGTTTGTAATAATAAAACCAAAGAAACATA SEQ ID NO: 80 EGF-Containing Fibulin-Like Extracellular Matrix Protein 2 >gil8393298fref]NM_016938.11 Homo sapiens EGF-containing fibulin-like extracellular matrix protein 2 (EFEMP2), mRNA | qPCR assay on demandcontext match [1248..1272] CAAGCTTGGCACGAGGGCAGGCATTGCCCGAGCCAGCCGAGCCGC CAGAGCCGCGGGCCGCGCGGGTGTCGCGGGCCCAACCCCAGGATGCTCCC CTGCGCCTCCTGCCTACCCGGGTCTCTACTGCTCTGGGCGCTGCTACTGTT GCTCTTGGGATCAGCTTCTCCTCAGGATTCTGAAGAGCCCGACAGCTACAC GGAATGCACAGATGGCTATGAGTGGGACCCAGACAGCCAGCACTGCCGG GATGTCAACGAGTGTCTGACCATCCCTGAGGCCTGCAAGGGGGAAATGAA GTGCATCAACCACTACGGGGGCTACTTGTGCCTGCCCCGCTCCGCTGCCGT 30 WO 2005/010213 PCT/US2004/022959 CATCAACGACCTACACGGCGAGGGACCCCCGCCACCAGTGCCTCCCGCTC AACACCCCAACCCCTGCCCACCAGGCTATGAGCCCGACGATCAGGACAGC TGTGTGGATGTGGACGAGTGTGCCCAGGCCCTGCACGACTGTCGCCCCAG CCAGGACTGCCATAACYGCCTGGCTCCTATCAGTGCACCTGCCCTGATGG TTACCGCAAGATCGGGCCCGAGTGTGTGGACATAGACGAGTGCCGCTACC GCTACTGCCAGCACCGCTGCGTGAACCTGCCTGGCTCCTTCCGCTGCCAGT GCGAGCCGGGCTTCCAGCTGGGGCCTAACAACCGCTCCTGTGTTGATGTG AACGAGTGTGACATGGGGGCCCCATGCGAGCAGCGCTGCTTCAACTCCTA TGGGACCTTCCTGTGTCGCTGCCACCAGGGCTATGAGCTGCATCGGGATG GCTTCTCCTGCAGTGATATTGATGAGTGTAGCTACTCCAGCTACCTCTGTC AGTACCGCTGCGTCAACGAGCCAGGCCGTTTCTCCTGCCACTGCCCACAG GGTTACCAGCTGCTGGCCACACGCCTCTGCCAAGACATTGATGAGTGTGA GTCTGGTGCGCACCAGTGCTCCGAGGCCCAAACCTGTGTCAACTTCCATG GGGGCTACCGCTGCGTGGACACCAACCGCTGCGTGGAGCCCTACATCCAG GTCTCTGAGAACCGCTGTCTCTGCCCGGCCTCCAACCCTCTATGTCGAGAG CAGCCTTCATCCATTGTGCACCGCTACATGACCATCACCTCGGAGCGGAG AGTACCCGCTGACGTGTTCCAGATCCAGGCGACCTCCGTCTACCCCGGTGC CTACAATGCCTTTCAGATCCGTGCTGGAAACTCGCAGGGGGACTTTTACAT TAGGCAAATCAACAACGTCAGCGCCATGCTGGTCCTCGCCCGGCCGGTGA CGGGCCCCCGGGAGTACGTGCTGGACCTGGAGATGGTCACCATGAATTCC CTCATGAGCTACCGGGCCAGCTCTGTACTGAGGCTCACCGTCTTTGTAGGG GCCTACACCTTCTGAGGAGCAGGAGGGAGCCACCCTCCCTGCAGCTACCC TAGCTGAGGAGCCTGTTGTGAGGGGCAGAATGAGAAAGGCCCAGGGGCC CCCATTGACAGGAGCTGGGAGCTCTGCACCACGAGCTTCAGTCACCCCGA GAGGAGAGGAGGTAACGAGGAGGGCGGACTCCAGGCCCCGGCCCAGAGA TTTGGACTTGGCTGGCTTGCAGGGGTCCTAAGAAACTCCACTCTGGACAG CGCCAGGAGGCCCTGGGTTCCATTCCTAACTCTGCCTCAAACTGTACATTT GGATAAGCCCTAGTAGTTCCCTGGGCCTGTTTTTCTATAAAACGAGGCAAC TGG SEQ ID NO: 81 Lumican >gil213598581reflNM_002345.2| Homo sapiens lumican (LUM), mRNA qPCR forwardprimer match [61..84] | qPCR reverseprimer match [182..162] qPCR probe match [117..152] GTATCACTCAGAATCTGGCAGCCAGTTCCGTCCTGACAGAGTTCAC AGCATATATTGGTGGATTCTTGTCCATAGTGCATCTGCTTTAAGAATTAAC
GAAAGCAGTGTCAAGACAGTAAGGATTCAAACCATTTGCCAAAAATGAGT
CTAAGTGCATTTACTCTCTTCCTGGCATTGATTGGTGGTACCAGTGGCCAG TACTATGATTATGATTTTCCCCTATCAATTTATGGGCAATCATCACCAAAC TGTGCACCAGAATGTAACTGCCCTGAAAGCTACCCAAGTGCCATGTACTG TGATGAGCTGAAATTGAAAAGTGTACCAATGGTGCCTCCTGGAATCAAGT ATCTTTACCTTAGGAATAACCAGATTGACCATATTGATGAAAAGGCCTTTG AGAATGTAACTGATCTGCAGTGGCTCATTCTAGATCACAACCTTCTAGAA AACTCCAAGATAAAAGGGAGAGTTTTCTCTAAATTGAAACAACTGAAGAA GCTGCATATAAACCACAACAACCTGACAGAGTCTGTGGGCCCACTTCCCA AATCTCTGGAGGATCTGCAGCTTACTCATAACAAGATCACAAAGCTGGGC TCTTTTGAAGGATTGGTAAACCTGACCTTCATCCATCTCCAGCACAATCGG CTGAAAGAGGATGCTGTTTCAGCTGCTTTTAAAGGTCTTAAATCACTCGAA 31 WO 2005/010213 PCT/US2004/022959 TACCTTGACTTGAGCTTCAATCAGATAGCCAGACTGCCTTCTGGTCTCCCT GTCTCTCTTCTAACTCTCTACTTAGACAACAATAAGATCAGCAACATCCCT GATGAGTATTTCAAGCGTTTTAATGCATTGCAGTATCTGCGTTTATCTCAC AACGAACTGGCTGATAGTGGAATACCTGGAAATTCTTTCAATGTGTCATCC CTGGTTGAGCTGGATCTGTCCTATAACAAGCTTAAAA-ACATACCAACTGTC AATGAAAACCTTGAAAACTATTACCTGGAGGTCAATCAACTTGAGAAGTT TGACATAAAGAGCTTCTGCAAGATCCTGGGGCCATTATCCTACTCCAAGA TCAAGCATTTGCGTTTGGATGGCAATCGCATCTCAGAAACCAGTCTTCCAC CGGATATGTATGAATGTCTACGTGTTGCTAACGAAGTCACTCTTAATTAAT ATCTGTATCCTGGAACAATATfTATGGTTATGTTTTTCTGTGTGTCAGTTT TCATAGTATCCATATTTTATTACTGTTTATTACTTCCATGAA TAAAATC TGAGGGAAATGTTTTGTAAACATTTATTTTTTTTAAAGAAAAGATGAAAG GCAGGCCTATTTCATCACAAGAACACACACATATACACGAATAGACATCA AACTCAATGCTTTATTTGTAAATTAGTGTTTFTATTTCTACTGTCAAAT GATGTGCAAAACCTTTTACTGGTTGCATGGAAATCAGCCAAGTTTTATAAT CCTTAAATCTTAATGTTCCTCAAAGCTTGGATTAAATACATATGGATGTTA CTCTCTTGCACCAAATTATCTTGATACATTCAAATTTGTCTGGTTAAAAAA TAGGTGGTAGATATTGAGGCCAAGAATATTGCAAA-ATACATGAAGCTTCA TGCACTTAAAGAAGTATTTTTAGAATAAGAATTTGCATACTTACCTAGTGA AACTTTTCTAGAATTATTTTTCACTCTAAGTCATGTATGTTTCTCTTTGATT ATTTGCATGTTATGTTTAATAAGCTACTAGCAAAATAAAACATAGCAAAT GAASEQ ID NO: 82 Stannin >giJ29893560jref)NM_003498.31 Homo sapiens stannin (SNN), mRNA AGCGGGGCCGGACCGGGCGGGCGGAGCCGGGCCCGCGGGGCTGCT GCGGGGCGATCGGGCCGGGCCGCTGCCGCGCCATGGACTCCCGTGTCCAG CCTGAGTTCCAGCCTCACTGAGTGGCCACCCCCAAAGTGCTGCCAGCCGA GGAAGCCCCCAGCACTGACCATGTCTATTATGGACCACAGCCCCACCACG GGCGTGGTCACAGTCATCGTCATCCTCATTGCCATCGCGGCCCTGGGGGCC TTGATCCTGGGCTGCTGGTGCTACCTGCGGCTGCAGCGCATCAGCCAGTCA GAGGACGAGGAGAGCATCGTGGGGGATGGGGAGACCAAGGAACCCTTCC TGCTGGTGCAGTATTCGGCCAAGGGACCGTGCGTGGAGAGAAAGGCCAA GCTGATGACTCCCAACGGCCCGGAAGTCCACGGCTGAGCCAGGATGCAAG GCTCCTGGTCCTGTTTGCAGCCGGCCAAGAGGCGCTGGGAGGGGCAAAAC CATACGGATGCGCTGCTGTCTGAGAGGAAGGGCTGACACTTGCTGGCATG GCCTCTGCGGGCTTCGTCATCGCATGCACTGATGCCCGGGGACCTGGCTGT CCTGGGCTTCCCCTCGGCCTCCAGGTGAGGCTGCCCATTGCAGGCACTGG GCAGGCCTGACCTTGCTGGGGCTCATGGCCCTGTAGCGCTTTTGTTACTTG AATGTCTAGCTGAGCCTGTTTTTGATGGAGCTACTACTGTAATGCGTGAAC TAACAAACCTGTGAACTGTAAATAGGCCCCTGGAAGCACGTGCTTAAGCC CTTTTGCTGATTTTTAAAAATATCATCTAGCGCACACGGGACTGGTATTCT GGCTGTACTAATGACAAGCTGAGTCAAGACCCTGGAGGGTCATAGGCTTG TAAAGGCCCACGCCACACTCGGCAGGGGTCTCTCATGTGTGTCCATCTGC GTGTATGTCAAGGAAGTGAGATGCCAATTTGGGGTCTTGAGGCTGACCAG TTGGGGTGCTTGGGTGATCTCTGCTTCATTAGTCATGGGTGGAAGAAAAA CCACACCCCCCGCACCCCTCCGTTCTTTCTGCATAGACTCACTTGTTAAAT AGCAGTTCTGTTGAGAGTGGAGTTACTGCAGGGAAGCTACCGGACCTGCC TGGGAGCCAGTGAAGGGCGAGTCAGGGCACGCGTCCTGGAGGCTGCCAG 32 WO 2005/010213 PCT/US2004/022959 CGTCCTTGTAGCAGAGCAGTTTCTrGCCGCTTGGGTCTTCAGCACGCCAAG CCCCCCACCAACCCTCCACCCCGAGTGAAGGCTTCGCTGAAATTGCTTTGG TCCTCATAGAGCCTGTGGTGGCTACTTTTGGTCTGAAACCCACTTGGCCCA GGAAAGAGAAAAGGTTGTATGTTTTGTGTTGGTGTTTCCTATTTTCTGCAC TGGAGGGGAGGGGACTGTTGAGGTTCTGTCTTTTTCTTCTTTTCCTCTTCC CTCTTCACATCACTTGGCTTCCTTTCCTCTCTGATGACCGTCCGCCTATGGG GTTCTGACTTCACTTTCCTCAGCGGGTCTCCAGTCCCCTGACCCAGCTCTA AAGGCACTTAGGACCCAGGGAACATTTCTCACGTGCACATTCCCCTAAGA GCCACCAGACTGCTTCCTGCCAGCCTGTGCTTGCGGCAGGGAGCCGGGGC AGGGCAGAGGTGAACTTGAAGTTCAGGACTTGACTCTCCCACAGGTGGTG AGCTGGTGGCTCTCTGGTGAGCTAGTGTCTCCACAGCCTGTCTCCAAGGCC TCCCCTATGTACATTTCAGTGAGCTCACTTTGATTTTTAATCCCACCACAA GCACATACTAATTTTATTTATGATTCAAATGTGACTCGTGCCTGCCCATCC CTGTAATAGATGGAAGGTCAGCCCCGGCTTAACCACAGAGCACTGGCCCT TCATGGCTGAGCTCAGAGCTCTGGCCTCCTGCTCAGACTAA-AGGCACCTCC TCTGGCCTCACCCAAGCCTCTTCTAAAAACCATGTTGAATGAATCCACGTT CTGGAACCCCGAGGCGGGAGAAGTAGGGAGCTGTTCGTTTAAGCAGCATA CACCTAAATTGGGGGTTTAAACATTAAGTAGGAGCTTGGGGTGGAAGAGG GACAGCCGGCTGGGCCACCTGAGCAGAAGGTGGTAATGAAACACCTCAG CTGGGCTCTTGGGAGACCTTAGGAAGCAGGAGAGGCAACACCTCTGGCTA CTGATGGTGTGGCAAGTTCAGAAGAGGTGGTGGTGGGGTAGGCGTGATGT CAGCAGAAGCCCTGCAGGCTGGGTGGGCAGGACACGTGGTGGGGGCCAC TGAAACCAGGCCTAGGAGGGAGAACAAGTTCCAAAGGTGCCGACTGGAA GAAGGGGGTAAAAGTTTGCTTTGGTGAGTGAGAAAAGGCTGGGGCGTGTG ATCCATCCCCTCACGTTTCAGAACTTCCAGGCTTTCTACCTCGACTCTCAC CACAGCCAGCACATACACCTAGGCTGTTTTTCCTTCCTCCACACCTGAGGG ACGCAGCAACAGCTAGGATCTGCATTTTCAGGTTCCGAGCCTGACCCCTG GAACTGACCAGCGCTCGATTGTCAGCCTTGGCCTGGGGTTTTGACCTTGCC AGTGAAGTTTCGGTTTTGAAGTGATTAAATGTCACTTCCTCATCAGTTTCA CTTCTGGAGGTTTTCTTATCCTACTCCCTGGTGCCAGGGACGTACCTGGGA GTTTGAATCAGGCCCATTTGAGCGTGGCAGCCGTGTTGGGTGAAGGTCCG GGGCTCGGTGAGGCACTGGGGGGGTTTTCGGGAGGAAAATGAAAATGCTT CTAGAATGAGTGAACCACATCATAGCTCTCACTGTTTTTTCAATAGCTACT TTTTTAGCAGACACCAGAGCCACACTCAAATGGCTAAGTAGGTTATGAC CTCTCTGGATTATTTTTGAATGCCCAACTGTTGCATTCAAGTTTCTGACTA ATAAGAAATTAAGCATTCATCCTTCGTATCACTGCAGAAGCAACAGTGGG GGCACAGGGAGGGAACTCTTGACACTGAGCCACTAAAATATGGACTAATT TTGGACAAATCTTCAAACGGACTGTGCTACTGTATTTGTCTCAAAGCTA CCAAGTTTGTGCAATAAGTGGAAGGGATGTCATCCTTCTTCAATAAATGCT GAATGACATTCAAGCTGATTTTCTAGACCACTGAGAAAATCTTTATTTACA ATAAATTTCAATAAAATTTGCATAAATATATTCCCAAAAAAAAAAAAAAA AAAAAAGAAAAAAAAAAAAA SEQ ID NO: 83 Secreted Phosphoprotein 1 >gil38146097|ref]NM_000582.21 Homo sapiens secreted phosphoprotein 1 (osteopontin, bone sialoprotein I, early T-lymphocyte activation 1) (SPP1), mRNA qPCR assayon_demandcontext match [253..277] 33 WO 2005/010213 PCT/US2004/022959 CTCCCTGTGTTGGTGGAGGATGTCTGCAGCAGCATTTAAATTCTGG GAGGGCTTGGTTGTCAGCAGCAGCAGGAGGAGGCAGAGCACAGCATCGT CGGGACCAGACTCGTCTCAGGCCAGTTGCAGCCTTCTCAGCCAAACGCCG ACCAAGGAAAACTCACTACCATGAGAATTGCAGTGATTTGCTTTTGCCTCC TAGGCATCACCTGTGCCATACCAGTTAAACAGGCTGATTCTGGAAGTTCTG AGGAAAAGCAGCTYPACAACAAATACCCAGATGCTGTGGCCACATGGCTA AACCCTGACCCATCTCAGAAGCAGAATCTCCTAGCCCCACAGACCCTTCC AAGTAAGTCCAACGAAAGCCATGACCACATGGATGATATGGATGATGAA GATGATGATGACCATGTGGACAGCCAGGACTCCATTGACTCGAACGACTC TGATGATGTAGATGACACTGATGATTCTCACCAGTCTGATGAGTCTCACCA TTCTGATGAATCTGATGAACTGGTCACTGATTTTCCCACGGACCTGCCAGC AACCGAAGTTTTCACTCCAGTTGTCCCCACAGTAGACACATATGATGGCC GAGGTGATAGTGTGGTTTATGGACTGAGGTCAAAATCTAAGAAGTTTCGC AGACCTGACATCCAGTACCCTGATGCTACAGACGAGGACATCACCTCACA CATGGAAAGCGAGGAGTTGAATGGTGCATACAAGGCCATCCCCGTTGCCC AGGACCTGAACGCGCCTTCTGATTGGGACAGCCGTGGGAAGGACAGTTAT GAAACGAGTCAGCTGGATGACCAGAGTGCTGAAACCCACAGCCACAAGC AGTCCAGATTATATAAGCGGAAAGCCAATGATGAGAGCAATGAGCATTCC GATGTGATTGATAGTCAGGAACTTTCCAAAGTCAGCCGTGAATTCCACAG CCATGAATTTCACAGCCATGAAGATATGCTGGTTGTAGACCCCAAAAGTA AGGAAGAAGATAAACACCTGAAATTTCGTATTTCTCATGAATTAGATAGT GCATCTTCTGAGGTCAATTAAAAGGAGAAAAAATACAATTTCTCACTTTG CATTTAGTCAAAAGAAAAAATGCTTTATAGCAAAATGAAAGAGAACATGA AATGCTTCTTTCTCAGTTTATTGGTTGAATGTGTATCTATTTGAGTCTGGAA ATAACTAATGTGTTTGATAATTAGTTTAGTTTGTGGCTTCATGGAAACTCC CTGTAAACTAAAAGCTTCAGGGTTATGTCTATGTTCATTCTATAGAAGAAA TGCAAACTATCACTGTATTTTAATATTTGTTATTCTCTCATGAATAGAAATT TATGTAGAAGCAAACAAAATACTTTTACCCACTTAAAAAGAGAATATAAC ATTTTATGTCACTATAATCTTTTGTTTTTTAAGTTAGTGTATATTTTGTTGT GATTATCTTTTTGTGGTGTGAATAAATCTTTTATCTTGAATGTAATAAGAA TTTGGTGGTGTCAATTGCTTATTTGTTTTCCCACGGTTGTCCAGCAATTAAT AAAACATAACCTTTTTACTGCCTAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAA SEQ ID NO: 84 Chondroitin Sulfate Proteoglycan 2 >git21361115jreflNM_004385.21 Homo sapiens chondroitin sulfate proteoglycan 2 (versican) (CSPG2), mRNA | qPCR forward_primer match [10087..10106] 1 qPCR reverse_primer match [10185..10163] 1 qPCR probe match [10139..10161] GCTGCCCCGAGCCTTTCTGGGGAAGAACTCCAGGCGTGCGGACGCA ACAGCCGAGAACATTAGGTGTTGTGGACAGGAGCTGGGACCAAGATCTTC GGCCAGCCCCGCATCCTCCCGCATCTTCCAGCACCGTCCCGCACCCTCCGC ATCCTTCCCCGGGCCACCACGCTTCCTATGTGACCCGCCTGGGCAACGCCG AACCCAGTCGCGCAGCGCTGCAGTGAATTTTCCCCCCAAACTGCAATAAG CCGCCTTCCAAGGCCAAGATGTTCATAAATATAAAGAGCATCTTATGGAT GTGTTCAACCTTAATAGTAACCCATGCGCTACATAAAGTCAAAGTGGGAA AAAGCCCACCGGTGAGGGGCTCCCTCTCTGGAAAAGTCAGCCTACCTTGT 34 WO 2005/010213 PCTIUS2004/022959 CAYITTCAACGATGCCTACTTTCGCCACCCAGTTACAACACCAGTGAATTT CTCCGCATCAAATGGTCTAAGA'ITGAAGTGGACAAAAATGGAAAAGAITT GA-AAGAGACTACTGTCCTTGTGGCCCAAAATGGAAATATCAAGATTGGTG AGGACTACAAAGGGAGAGTGTCTGTGCCCACAGATCCCGAGGjCTGjTGGGC GATGCCTCCCTCACTGTGGTCAAGCTGCTGG-CAAGTGATGCGGGTCTTTAC CGCTGTGACGTCATC-TACGGGATTGAAGACACACA-AGACACGGTGTCACT GACTGTGGATGGGGTTGTGThJ'CACTACAGGGGGGCAACCAGCAGGTACA CACTGAATTTTGAGGCTGCTCAGAAGGCTTGTTGGACGTTGGGGCAGTC ATAGCAACTCCAGAGCAGCTCTTTGCTGCCTATGAAGATGGATTTGAGCA GTGTGACGCAGGCTGGCTGGCTGATCAGACTGTCAGATATCCCATCCGGG CTCCCAGAGTAGGCTGTTATGGAGATAAGATGGGAAAGGCAGGAGTCAG GACTTATGCGrATTCCGTTCTCCCCAGGAAACTTACGATGTGTATrGTTATGT GG-ATGATGTGGATGGTGATGTGTTCCACCTCACTGTCCCCAGTAAATTCAC CTTCGAGGAGGCTGCAAAAGAGTGTGAAAACCAGGATGCCAGGCTGGCA ACAGTGGGGGAACTCCAGGCGGCATGGAGGAACGGCTTGACCAGTGG ATTACGGGTGGCTGTCGGATGCCAGCGTGCGCCACCCTGTGACTGTGGCC AGGGCCCAGTGTGGAGGTGGTCTACTTGGGGTGAGAACCCTGTATCGTTT TGAGAACCAGACAGGCTTCCCTCCCCCTGATAGCAGATTTGATGCCTACTG CT2FUAAACCTAAAGAGGCTACAACCATCGATTTGAGTATCCTCGCAGAAA CTGCATCACCCAGTTTATCCAAAGAACCACAAATGGTT7CTGATAGAACT ACACCAATCATGCCTTTAGT[GATGAA'ITACCTGTCATTCCAACAGAGTTC CCTCCCGTGGGAAATATTGTCAGTYrTGAACAGAAAGCCACAGTCCAACC TCAGGCTATCACAGATAGTTTAGCCACCAAATTACCCACACCTACTGGCA GTACCAAGAAGCCCTGGGATATGGATGACTACTCAGCTTCTGCTTCAGGA CCTCTTGGAAAGCTAGACATATCAGAANFL'AAGGAAGAAGTGCTCCAGAG TACAACTGGCGTCTCTCATTATGCTACGGATTCATGGGATGGTGTCGTGGA AGATAAACAAACACAAGAATCGGTTACACAGATTGAACAAATAGAAGTG GGTCCTTTGGTAACATCTATGGAAATCTTAAAGCACATTCCTTCCAAGGAA TTCCCTGTAACTGAAACACCATTGGTAACTGCAAGAATGATCCTGGAATC CAAAACTGAAAAGAAAATGGTAAGCACTGTTTCTjAATTGGTAACCACAG GTCACTATGGATTCACCTTGGGAGAAGAGGATGATGAAGACAGAACAITT ACAGTTGGATCTGATGAGAGCACCTTGATCTTTGACCAAATTCCTGAAGTC ATTACGGTGTCAAAGACTTCAGAAGACACCATCCACACTCATTTAGAAGA CTTGGAGTCAGTCTCAGCATCCACAACTGTTTCCCCTTTAATTATGCCTGA TAATAATGGATCATCCATGGATGACTGGGAAGAGAGACAAACTAGTGGTA GGATAACGGAAGAGTTTCTTGGCAAATATCTGTCTACTACACCTTTTCCAT CACAGCATCGTACAGAAATAGAATTGTITCCTTATTCTGGTGATAAAATAT TAGTAGAGGGAATTTCCACAGTTAITTATCCTTCTCTACAAACAGAAATGA CACATAGAAGAGAAAGAACAGAAACACTAATACCAGAGATGAGAACAGA TACT VATACAGATG-AAATACAAGAAGAGATCACTAAAAGTCCATTTATGG GAAAAACAGAAGAAGAAGTCTTCTCTGGGATGAAACTCTCTACATCTCTC TCAGAGCCAATTCATGYI7ACAGAGTCTTCTGTGGAAATGACCAAGTCITTTT GATTTCCCAACAITGATAACAAAGTITAAGTGCAGAGCCAACAGAAGTAAG AGATATGGAGGAAGACTTACAGCAACTCCAGGTACTACAAAATATGATG AAAATATTACAACAGTGCTITGGCCCATGGTACTTTAAGTGTTGAAGCAG CCACTGTATCAAAATGGTCATGGGATGAAGATAATACAACATCCAAGCCT TTAGAGTCTACAGAACCTTCAGCGTCTTCAAAATTGCCCCCTGCCTTACTC ACAACTGTGGGGATGAATGGAAAGGATAAAGACATCCCAAGTTTCACTGA AGATGGAGCAGATGAAT17TACTCTTATTCCAGATAGTACTCAAAAGCAGT TAGAGGAGGTTAGTGATGAAGACATAGCAGCCCATGGAAAATTCAGAAMT 35 WO 2005/010213 PCT/US2004/022959 AGATTTCAGCCAACTACATCAACTGGTATTGCAGAAAAGTCAAC'TFGAG AGATTCTACAACTG.AAGAAAAAGITCCACCTATCACAAGCACTGAAGGCC AAGTTTATGCAACCATGGAAGGAAGTGCTTTGGGTGAAGTAGAAGATGTG GACCTCTCTAAGCCAGTATCTACTGTTCCCCAATTTGCACACACTTCAGAG GTGGAAGGA'TAGCATTTGTTAGTTATAGTAGCACCCAAGAGCCTACTAC TTATGTAGACTCTTCCCATACCATFCCTCTTTCTGTAATTCCCAAGACAGA CTGGGGAGTGTJ'AGTACC'ITCTGTCCATCAGAAGATGAAGTTCTAGGTGA ACCCTCTCAAGACATAGTTGTCATTGATCAGACTCGCCTTGAAGCGACTAT TTCTCCAGAAACTATGAGAACAACAAAAATCACAGAGGGAACAACTCAG GAAGAATTCCCTTGGAAAGAACAGACTGCAGAGAAAGCAGTI'CCTGCTCT CAGTTCTACAGCTTGGACTCCCAAGGAGGCAGTAACACCACTGGATGAAC AAGAGGGCGATGGATCAGCATATACAGTCTCTGAAGATGAATTGTTGACA GGTTCTGAGAGGGTCCCAGTITI'AGAAACAACTCCAGTTGGAAAAATTGA TCACAGTGTGTCTTATCCACCAGGTGCTGTAACTGAGCACAAAGTGAAAA CAGATGAAGTGGTAACACTAACACCACGCAT)7GGGCCAAAAGTATCTTTA AGTCCAGGGGCTGAACAAAAATATGAAACAGAAGGjTAGTAGTACAACAG GATTTACATCATCTTTGAGfTCCTTTTAGTACCCACAYJ'ACCCAGCTTATGG AAGAAACCACTACTGAGAAAACATCCCTAGAGGATATTGATTTAGGCTCA GGATTATTTGAAAAGCCCAAAGCCACAGAACTCATAGAATITTTCAACAAT CAAAGTCACAGTTCCAAGTGATATTACCACTGCCTTCAGTTCAGTAGACA GACTTCACACAACYI2CAGCATTCAAGGCATCTTCCGCGATCACTAAGAAA CCACCTCTCATCGACAGGGAACCTGGTGAAGAAACAACCAGTGACATGGT AATCATIUGGAGAATCAACATCTCATGTTCCTCCCACTACCCTTGAAGATAT TGTAGCCAAGGAAACAGAAACCGATATTGATAGAGAGTATTTCACGACTT CAAGTCCTCCTGCTACACAGCCAACAAGACCACGCACTGTGGAAGACAAA GAGGCCTTTGGACCTCAGGCGCTTTCTACGCCACAGCCCCCAGCAAGCAC AAAATTTCACCCTGACATTAATGTTTATKIITATTGAGGTCAGAGAAAATAA GACAGGTCGAATGAGTGATTTGAGTGTAATTGGTCATCGAATAGATTCAG AATCTAAAGAAGATGAACCTTGTAGTGAAGAAACAGATCCAGTGCATGAT CTAATGGCTGAAATTACCTGAATTCCCTGACATAATTGAAATAGACCTA TACCACAGTGAAGAAAATGAAGAAGAAGAAGAAGAGTGTGCAAATGCTA CTGATGTGACAACCACCCGATGTGTGCAGTACATAAATGGGAAGCATCTC GTTACCACTGTGCCCAAGGAGGCAGAAGCTGCAGAAGCTAGGCGTGGCCA G'ITTGAAAGTGTTGCACCTTCTCAGAATTTCTCGGACAGCTCTGAAAGTGA TACTCATCCATTTGTAATAGCCAAAACGGAATTGTCTACTGCTGTGCAACC TAATGAATCTACAGAAACAACTGAGTCTCTI2GAAGTTACATGGAAGCCTG AGACTTACCCTGAAACATCAGAACATTTTTCAGGTGGTGAGCCTGATGTTT TCCCCACAGTCCCATTCCATGAGGAAMTTGAAAGTGGAACAGCCAAAAAA GGGGCAGAATCAGTCACAGAGAGAGATACTGAAG'ITGGTCATCAGGCAC ATGAACATACTGAACCTGTATCTCTGTTTCCTGAAGTAGTCTTCAGGAGACGA YTGCCATTGACCAAGAATCTCAGAAAATAGCCTTTGCAAGGGCTACAGAA GTAACATTTGGiTGAAGAGGTAGAAAAAAGTACTTCTGTCACATACACTCC CACTATAGTTCCAAGTTCTGCATCAGCATATGTTTCAGAGGAAGAAGCAG TTACCCTAATAGGAAATCCTTGGCCAGATGACCTGTTGTCTACCAAAGAA AGGTGGGTAGAAGCAACTCCTAGACAAGTL'GTAGAGCTGTCAGGGAGTTC TTCGATTCCAATTACAGAAGGCTCTGGAGAAGCAGAAGAAGATGAAGATA CAATGTTCACCATGGTAACTGAITTATCACAGAGAAATACTACTGATACA CTCATTACTTTAGACACTAGCAGGATAATCACAGAA-AGCITTTTGAGGTT CCTGCAACCACCAT'1TATCCAGTTTCTGAACAACGTI'CTGCAAAAGTGGTG CCTACCAAGTTTGTAAGTGAAACAGACACTTCTGAGTGGATTTCGAGTACC 36 WO 2005/010213 PCT/US2004/022959 ACTGTTGAGGAAAAGAAAAGGAAGGAGGjAGG3AGGGAACTACAGTACi CTTCTACATTTGAGGTATA-TTCATCTACACAGAGATCGGATCAATTAATTT TACCCTITGAATTAGAAAGTCCAAATGTAGCTACATCTAGTGATTCAGGTA CCAGGAAAAGTTATGTCCTTGACAACACCAACACAGTCTGAAAGGAA ATGACAGATTCTACTCCTGTCTTTACAGAAACAAATACATTAGAAAAmTG GGGGCACAGACCACTGAGCACAGCAGTATCCATCAACCTGGGGTTCAGGA AGGGCTGACCACTCTCCCACGTAGTCCTGCCTCTGTCTTTATGGxAGCAGGG CTCTGGAGAAGCTGCTGCCGACCCAGAAACCACCACTGTTTCTTCATTC ATTAAAGGTAGAGTATGCAAYUCAAGCCGAAAAGGAAGTAGCTGGCACTT TGTCTCCGCATGTGGAAACTACATTCTCCACTGAGCCAACAGGACTGG'1'T TGAGTACAGTAATGGACAGAGTAGTGCTGAAAATATAACCCAAACATCC AGGGAAATAGTGATI'TCAGAGCGATTAGGAGAACCAAATTATGGGGCAG AAATAAGGGGC=TCCACAGGT7CCTTTGGAGGAAGATTTCAGTGGTG ACTTTAGAGAATACTCAACA-TGTCTCATCCCATAGCAAAAGAAGAAACG GTAATGATGGAAGGCTCTGGAGATGCAGCATTTAGGGACACCCAGACTTC ACCATCTACAGTACCTACTTCAGTTCACATCAGTCACATATCTGACTCAGA AGGACCCAGTAGCACCATGGTCAGCACTTCAGCCTTCCCCTGGGAAGAGT TTACATCCTCAGCTGAGGGCTCAGGTGAGCAACTGGTCACAGTCAGCAGC TCTGTJ'GTTCCAGTGCTTCCCAGTGGTGTGCAAAA&ITICTGGTACAGCT TCCTCCATTATCGACGAAGGATTGGGAGAAGTGGGTACTGTCAATGAAAT TGATAGAAGATCCACCAThTACCAACAGCAGAAGTGGAAGGTACGAAAG CTCCAGTAGAGAAGGAGGAAGTAAAGGTCAGTGGCACAGTTCAACAAA CTTTCGCCAAACTATAGAGCCAGCCAAATTATGGTCTAGGCAAGAAGTCA ACCCTGTAAGACAAGAAATTGAAAGTGAAACAACATCAGAGGAACAAAT TCAAGAAGAAAAGTCATTTGAATCCCCTCAAAACTCTCCTGCAACAGAAC AAACAATCYIITGATTICACAGACATTTAGTGAAACTGAACTCAAAACCACA GATTATTCTGTACTA-ACAACAAAGAAAACTI'ACAGTGATGATAAAGAAAT GAAGGAGGAAGACAC7[TCTTTAGTTAACATGTCTACTCCAGATCCAGATG CAAATGGCTTGGAATCTTACACAACTCTCCCTGAAGCTACTGAAAAGTCA CATrTTTCTTAGCTACTGCATTAGTAACTGAATCTATACCAGCTGAACAT GTAGTCACAGAYJ7CACCAATCAAAAAGGAAGAAAGTACAAAACA'IFHTCC GA-AAGGCATGAGACCAACAATTCAAGAGTCAGATAGTGAGCTCTJ'ATTGT CTGGACTGGGATCAGGAGAAGAAGTTTTACCTAGTCTACCAACAGAGTCA GTGAATTTACTGAAGTGGAACAAATCAATAACACATTATATCCCCACAC TTCTCAAGTGGAAAGTACCTCAAGTGACAAAA[TGAAGACITTTAACAGAA TGGAAAATGTGGCAAAAGAAGTTGGACCACTCGTATCTCAAACAGACATC TJTGAAGGTAGTGGGTCAGTAACCAGCACAACATTAATAGA-AAYJTTAAG TGACACTGGAGCAGjAAGGACCCACGGTGGCACCTCTCCCITJ'CTCCACGG ACATCGGACATCCTCAAAATCAGACTGTCAGGTGGGCAGAAGAAATCCAG ACTAGTAGACCACAAACCATAACTGAACAAGACTCTAACAAGAATTCTTC AACAGCAGAAATTAACGAAACAACAACCTCATCTACTGATECTGGCTA GiAGCTTATGGTTTGAAATGGCCAAAGAATTGTTACATCAGCACCAAAA CCATCTGACTTGTATTATGAACCTTCTGGAGAAGGATCTGGAGAAGTGGA TATTGTTGATTCATTTCACACTTCTGCAACTACTCAGGCAACCAGACAAGA AAGCAGCAGCACATTTGTTTCTGATGGGTCGCTGGAAAAACATCCTGAGG TGCCAAGCGCTAAAGCTGTTAGTGCTGATGGA[TCCCAACAGTTTCAGTGA TGCTGCCTCTTCATTCAGAGCAGAACAAAAGCTCCCCTGATCCAACTAGC ACACTGTCAAATACAGTGTCATATGAGAGGTCCACAGAGGGTAGTTTCCA AGACCGTTTCAGGGAATTCGAGGATTCCACCTTAAAACCTAACAGAAAAA AACCC-ACTGiAAAATATTATCATAGACCTGGACAAAGAGGACAAGGATTTA 37 WO 2005/010213 PCT/US2004/022959 ATATTGACAATTACAGAGAGTACCATCCTTGAAATTCTACCTGAGCTGAC ATCGGATAAAAATACTATCATAGATAXITGATCATACTAAACCTGTGTATG AAGACATTCTTGGAATGCAAACAGATATAGATACAGAGGTACCATCAGAA CCACATGACAGTAATGATGAAAGTAATGATGACAGCACTCAAGITCAAGA GATCTATGAGGCAGCTGTCAACCTJTCTTTAACTGAGGAAACATTTGAGG GCTCTGCTGATGTTCTGGCTAGCTACACTCAGGCAACACATGATGAATCA ATGACTTATGAAGATAGAAGCCAACTAGATCACATGGGCITTTCACTTCAC AACTGGGATCCCTGGTCCTAGCACAGAAACAGAAMTAGACGTYTACTITCC CACGGCAACATCCGTGCCAATTCCTGGTAAGTCTGGCACA&ITATTCCAGA GAITGAAGGAATAAAAGCTGAAGCAAAAGCCCTGGATGACATGTTTGAAT CAAGCACTTTGTGTGATGGTCAAGCTATTGCAGACCAAAGTGAAATAATA CGAACATTGGGCCAATTTGAAAGGACTCAGGAGGAGTATGAAGACAAAA AACATGCTGGTCCTTCTTTTCAGCCAGAA1ITCTCTTCAGGAGCTGAGGAGG CATTAGTAGACCATACTCCCTATCTAAGTXFI7GCTACTACCCACCTTATGG ATCAGAGTGTAALCAGAGGTGCCTGATGTGATGGAAGGATCCAATCCCCCA TATTACACTGATACAACATTAGCAGTTTCAACAYI7TGCGAAGTTGTCTTCT CAGACACCATCATCTCCCCTCACTATCTACTCAGGGAGTGAAGCCTCTGGA CACACAGAG3ATCCCCAGCCCAGTGCTCTGCCAGGAATAGACGTCGGCTC ATCTGTAATGTCCCCACAGGATTCTTTAAGGAAATTCATGTAAATATTGjA AGCAACTTI7GAAACCATCAAGTGAGGAATACCTTCACATAACTGAGCCTC CGTCTTTATCTCCTGACACAAAATTAGAACC'ITCAGAAGATGATGGTAAAC CTGAGTTA1ITAGAAGAAATGGAAGCTI'CTCCCACAGAACTTATTGCTGTG GAAGGAACTGAGATTCTCCAAGATTTCCAAAACAAAACCGATGGTCAAGT TTCTGGAGAAGCAATCAAGATGTTTCCCACCATTAAAACACCTGAGGCTG GAACTGTTATTACAACTGCCGATGAAATTGAAITAGAAGGTGCTACACAG TGGCCACACTCTACFJ'CTGCTI7CTGCCACCTATGGGGTCGAGGCAGGTGTG GTGCCTTGGCTAAGTCCAGAGACTTCTGAGAGGCCCACGCTTTCTTCTTCT CCAGAAATAAACCCTGAAACTCAAGCAGCTTTAATCAGAGGGCAGGATTC CACGATAGCAGCATCAGAACAGCAAGTGGCAGCGAGAATTCTTGATTCCA ATGATCAGGCAACAGTAAACCCTGTGGAATTTAATACTGAGGTTGCAACA CCACGATT~rCCCTTCTGGAGACTTCTAATGAAACAGATITCCTGATTGGC ATTAATGAAGAGTGAGTGGAAGGCACGGCAATCTATTTACCAGGACCTGA TCGG-TGCAAAATGAACCCGTGCCTTAACGGAGGCACCTG1ITATCCTACTG A-AACTTCCTACGTATGCACCTGTGTGCCAGGATACAGCGGAGACCAGTGT GAACTTGAT2FJTGATGAATGTCACTCTAATCCCTGTCGTAATGGAGCCACT TGTGTTGATGGTh]AACACATTCAGGTGCCTCTGGCCTCCAAGYATGTT GGTGCACTTTGTGAGCAAGATACCGAGACATGTGACTATGGCTGGCACAA ATTCCAAGGGCAGTGCTACAAATACTTTGCCCATCGACGCACATGGGATG CAGCTGAACGGGAATGCCGTCTGCAGGGTGCGGATCTCACAAGCATCCTG TCTCACGAAGAACAAATGTTTGTTAATCGTGTGGGCCATGATI'ATCAGTGG ATAGGCCTCAATGACAAGATGTTTGAGCATGAGTTCCGTTGGACTGATGG CAGCACACTGCAATACGAGAATTGGAGACCCAACCAGCCAGACAGCTTCT T'JTCTGCTGGAGAAGACTGTGTTGTAATCATTTGGCATGAGAATGGCCAGT GGAATGATGTCCCTGCAATTACCATCTCACCTATACGTGCAAGAAAGGA ACAGTTGCTTGCGGCCAGCCCCCTGTTGTAGAAAATGCCAAGACCTTTGG AAAGATGAAACCTGGTTATGAAATCAAGTGCCTGATTAGATACCACTGCA AAGATGGTTTCATTCAACGTCACCTTCCAACTATCCGGTGCTTAGGAAATG GAAGATGGGCTATACCTAAAATTACCTGCATGAACCCATCTGCATACCAA AGGACTTATTCTATGAAATATTAAAAATTCCTCATCAGCAAAGGACAA TTCAATAAATACATCCAAA-CATGATCATCGTTGGAGCCGGAGGTGGGAGG 38 WO 2005/010213 PCT/US2004/022959 AGTCGAGGCGCTGATCCCTAAAATGGCGAACATGTGTTTCATCATTCAG CCAAAGTCCTAACTTCCTGTGCCTTTCCTATCACCTCGAGAAGTAATTATC AGTTGGTTTGGATTfTGGACCACCGTTCAGTCATTTTGGGTTGCCGTGCT CCCAAAACATTTAAATGAAAGTATTGGCATTCAAAAAGACAGCAGACAA AATGAAAGAAAATGAGAGCAGAAAGTAAGCATTTCCAGCCTATCTAATTT CTTTAGTTTTCTATTTGCCTCCAGTGCAGTCCATTTCCTAATGTATACCAGC CTACTGTACTATTTAAAATGCTCAATTTCAGCACCGATGGCCATGTAAATA AGATGATTTAATGTTGATTTTAATCCTGTATATAAAATAAAAAGTCACAAT GAGTTTGGGCATATTTAATGATGATTATGGAGCCTTAGAGGTCTTTAATCA TTGGTTCGGCTGCTTTTATGTAGTTTAGGCTGGAAATGGTTTCACTTGCTCT TTGACTGTCAGCAAGACTGAAGATGGCYTTCCTGGACAGCTAGAAAACA CAAAATCTTGTAGGTCATTGCACCTATCTCAGCCATAGGTGCAGTTTGCTT CTACATGATGCTAAAGGCTGCGAATGGGATCCTGATGGAACTAAGGACTC CAATGTCGAACTCTTCTTTGCTGCATTCCTTTTTCTTCACTTACAAGAAAGG CCTGAATGGAGGACTTTTCTGTAACCAGG SEQ ID NO: 85 N-Acylsphingosine Amidohydrosase 1 >gil30089929jref1NM_004315.21 Homo sapiens N-acylsphingosine amidohydrolase (acid ceramidase) 1 (ASAH1), transcript variant 2, mRNA I qPCR forwardprimer match [1212..1228] 1 qPCR reverse_primer match [1290..1266] qPCR probe match [1233..1260] GGACTTTGAAATCCAACCCGGTCACCTACCCGCGCGACTGTGTCCA CGGATGGCACGAAAGCCAAGCGAGTCCCCCTGCCGAGCTACTCGCGTCCG CCTCCTCCCAAGCTGAGCTCTGCTCCGCCCACCTGAGTCCTTCGCCAGTTA GGAGGAAACACAGCCGCTTAATGAACTGCTGCATCGGGCTGGGAGAGAA AGCTCGCGGGTCCCACCGGGCCTCCTACCCAAGTCTCAGCGCGCTTTTCAC CGAGGCCTCAATTCTGGGATTTGGCAGCTTTGCTGTGAAAGCCCAATGGA CAGAGGACTGCAGAAAATCAACCTATCCTCCTTCAGGACCAACGTACAGA GGTGCAGTTCCATGGTACACCATAAATCTTGACTTACCACCCTACAAAAG ATGGCATGAATTGATGCTTGACAAGGCACOAATGCTAAAGGTTATAGTGA ATTCTCTGAAGAATATGATAAATACATTCGTGCCAAGTGGAAAAGTTATG CAGGTGGTGGATGAAAAATTGCCTGGCCTACTTGGCAACTTTCCTGGCCCT TTTGAAGAGGAAATGAAGGGTATTGCCGCTGTTACTGATATACCTTTAGG AGAGATTATTTCATTCAATATTTTTTATGAATTATTTACCATTTGTACTTCA ATAGTAGCAGAAGACAAAAAAGGTCATCTAATACATGGGAGAAACATGG ATlTTGGAGTATTTCTTGGGTGGAACATAAATAATGATACCTGGGTCATAA CTGAGCAACTAAAACCTTTAACAGTGAATTTGGATTTCCAAAGAAACAAC AAAACTGTCTTCAAGGCTTCAAGCTTTGCTGGCTATGTGGGCATGTTAACA GGATTCAAACCAGGACTGTTCAGTCTTACACTGAATGAACGTTTCAGTATA AATGGTGGTTATCTGGGTATTCTAGAATGGATTCTGGGAAAGAAAGATGC CATGTGGATAGGGTTCCTCACTAGAACAGTTCTGGAAAATAGCACAAGTT ATGAAGAAGCCAAGAATTTATTGACCAAGACCAAGATATTGGCCCCAGCC TACTTTATCCTGGGAGGCAACCAGTCTGGGGAAGGTTGTGTGATTACACG AGACAGAAAGGAATCATTGGATGTATATGAACTCGATGCTAAGCAGGGTA GATGGTATGTGGTACAAACAAATTATGACCGTTGGAAACATCCCTTCTTCC TTGATGATCGCAGAACGCCTGCAAAGATGTGTCTGAACCGCACCAGCCAA GAGAATATCTCATTTGAAACCATGTATGATGTCCTGTCAACAAAACCTGTC 39 WO 2005/010213 PCT/US2004/022959 CTCAACAAGCTGACCGTATACACAACCTTGATAGATGTTACCAAAGGTCA ATTCGAAACTTACCTGCGGGACTGCCCTGACCCTTGTATAGGTTGGTGAGC ACACGTCTGGCCTACAGAATGCGGCCTCTGAGACATGAAGACACCATCTC CATGTGACCGAACACTGCAGCTGTCTGACCTTCCAAAGACTAAGACTCGC GGCAGGTTCTCTTTGAGTCAAAAGCTTGTCTTCGTCCATCTGTTGACAAAT GACAGACCTTTTTTTCCCCCATCAGTTGATTTTTCTTATTTACAGATAAC TTCTTTAGGGGAAGTAAAACAGTCATCTAGAATTCACTGAGTTTTGTTTCA CTITGACATTTGGGGATCTGGTGGGCAGTCGAACCATGGTGAACTCCACCT CCGTGGAATAAATGGAGATTCAGCGTGGGTGTTGAATCCAGCACGTCTGT GTGAGTAACGGGACAGTAAACACTCCACATTCTTCAGTTTTTCACTTCTAC CTACATATTTGTATGTTTTTCTGTATAACAGCCTTTCCTTCTGGTTCTAAC TGCTGTTAAAATTAATATATCATTATCTTTGCTGTTATTGACAGCGATATA AYTTATTACATATGATTAGAGGGATGAGACAGACATTCACCTGTATATTT CTTTTAATGGGCACAAAATGGGCCCTTGCCTCTAAATAGCACTTTTTGGGG TTCAAGAAGTAATCAGTATGCAAAGCAATCTTTTATACAATAATTGAAGT GTTCCCTTTTTCATAATTACTGTACTTCCCAGTAACCCTAAGGAAGTTGCT AACTTAAAAAACTGCATCCCACGTTCTGTTAATTTAGTAAATAAACAAGTC AAAGACTTGTGGAAAATAGGAAGTGAACCCATATTTTAAATTCTCATAAG TAGCATTCATGTAATAAACAGGTITTTAGTTTGTTCTTCAGATTGATAGGG AGTTTTAAAGAAATTTTAGTAGTTACTAAAATTATGTTACTGTATTTCA GAAATCAAACTGCTTATGAAAAGTACTAATAGAACTTGTTAACCTTTCTAA CCTTCACGATTAACTGTGAAATGTACGTCATTTGTGCAAGACCGTTTGTCC ACTTCATTTTGTATAATCACAGTTGTGTrCCTGACACTCAATAAACAGTCA TTGGAAAGAGTGCCAGTCAGCAGTCATGCA SEQ ID NO: 86 N-Acylsphingosine Amidohydrolase 1 Transcript Variant 1 >gij30089927|reflNM_177924.11 Homo sapiens N-acylsphingosine amidohydrolase (acid ceramidase) 1 (ASAHI), transcript variant 1, mRNA I qPCR forward_primer match [1050..1066] 1 qPCR reverseprimer match [1128..1104] qPCR probe match [1071..1098] GGCTCTTCTTTGCCTCTGCTGGAGTCCGGGGAGTGGCGTTGGCTGCT AGAGCGATGCCGGGCCGGAGTTGCGTCGCCTTAGTCCTCCTGGCTGCCGC CGTCAGCTGTGCCGTCGCGCAGCACGCGCCGCCGTGGACAGAGGACTGCA GAAAATCAACCTATCCTCCTTCAGGACCAACGTACAGAGGTGCAGTTCCA TGGTACACCATAAATCTTGACTTACCACCCTACAAAAGATGGCATGAATT GATGCTTGACAAGGCACCAATGCTAAAGGTTATAGTGAATTCTCTGAAGA ATATGATAAATACATTCGTGCCAAGTGGAAAAGTTATGCAGGTGGTGGAT GAAAAATTGCCTGGCCTACTTGGCAACTTTCCTGGCCCTTTTGAAGAGGAA ATGAAGGGTATTGCCGCTGTTACTGATATACCTTTAGGAGAGATTATTTCA TTCAATATTTTTTATGAATTATTTACCATTTGTACTTCAATAGTAGCAGAA GACAAAAAAGGTCATCTAATACATGGGAGAAACATGGATTTTGGAGTATT TCTTGGGTGGAACATAAATAATGATACCTGGGTCATAACTGAGCAACTAA AACCTTTAACAGTGAATTTGGATTTCCAAAGAAACAACAAAACTGTCTTC AAGGCTTCAAGCTTTGCTGGCTATGTGGGCATGTTAACAGGATTCAAACC AGGACTGTTCAGTCTTACACTGAATGAACGTTTCAGTATAAATGGTGGTTA TCTGGGTATTCTAGAATGGATTCTGGGAAAGAAAGATGCCATGTGGATAG GGTTCCTCACTAGAACAGTTCTGGAAAATAGCACAAGTTATGAAGAAGCC 40 WO 2005/010213 PCT/US2004/022959 AAGAATTTATTGACCAAGACCAAGATATTGGCCCCAGCCTACTTTATCCTG GGAGGCAACCAGTCTGGGGAAGGTTGTGTGATTACACGAGACAGAAAGG AATCATTGGATGTATATGAACTCGATGCTAAGCAGGGTAGATGGTATGTG GTACAAACAAATTATGACCGTTGGAAACATCCCTTCTTCCTTGATGATCGC AGAACGCCTGCAAAGATGTGTCTGAACCGCACCAGCCAAGAGAATATCTC ATTTGAAACCATGTATGATGTCCTGTCAACAAAACCTGTCCTCAACAAGPT GACCGTATACACAACCTTGATAGATGTTACCAAAGGTCAATTCGAAACTT ACCTGCGGGACTGCCCTGACCCTTGTATAGGTTGGTGAGCACACGTCTGG CCTACAGAATGCGGCCTCTGAGACATGAAGACACCATCTCCATGTGACCG AACACTGCAGCTGTCTGACCTTCCAAAGACTAAGACTCGCGGCAGGTTCT CTTTGAGTCAAAAGCTTGTCTTCGTCCATCTGTTGACAAATGACAGACCTT TTTTTTTCCCCCATCAGTTGATTTCTTATTTACAGATAACTTCTTTAGGG GAAGTAAAACAGTCATCTAGAATTCACTGAGTTTTGTTTCACTTTGACATT TGGGGATCTGGTGGGCAGTCGAACCATGGTGAACTCCACCTCCGTGGAAT AAATGGAGATTCAGCGTGGGTGTTGAATCCAGCACGTCTGTGTGAGTAAC GGGACAGTAAACACTCCACATTCTTCAGTTTTTCACTTCTACCTACATATT TGTATGTTTTTCTGTATAACAGCCITTCCTTCTGGTTCTAACTGCTGTTAA AATTAATATATCATTATCTTTGCTGTTATTGACAGCGATATAATTTTATTAC ATATGATTAGAGGGATGAGACAGACATTCACCTGTATATTTCTTTTAATGG GCACAAAATGGGCCCTTGCCTCTAAATAGCACTTTTTGGGGTTCAAGAAG TAATCAGTATGCAAAGCAATCTTTTATACAATAATTGAAGTGTTCCCTTTT TCATAATTACTGTACTTCCCAGTAACCCTAAGGAAGTTGCTAACTTAAAA ACTGCATCCCACGTTCTGTTAATTTAGTAAATAAACAAGTCAAAGACTTGT GGAAAATAGGAAGTGAACCCATATTTTAAATTCTCATAAGTAGCATTCAT GTAATAAACAGGTTTTTAGTTTGTTCTTCAGATTGATAGGGAGTTTTAAAG AAATTTTAGTAGTTACTAAAATTATGTTACTGTATYTCAGAAATCAAAC TGCTTATGAAAAGTACTAATAGAACTTGTTAACCTTTCTAACCTTCACGAT TAACTGTGAAATGTACGTCATTTGTGCAAGACCGTTTGTCCACTTCATTY GTATAATCACAGTTGTGTTCCTGACACTCAATAAACAGTCATTGGAAAGA GTGCCAGTCAGCAGTCATGCA SEQ ID NO: 87 Protease, Serine 11 >giJ213277121reflNM_002775.2 Homo sapiens protease, serine, 11 (IGF binding) (PRSS11), mRNA I qPCR forward primer match [1030.1048] 1 qPCR reverseprimer match [1106..1083] | qPCR probe match [1080..1050] CCGGCCCTCGCCCTGTCCGCCGCCACCGCCGCCGCCGCCAGAGTCG CCATGCAGATCCCGCGCGCCGCTCTTCTCCCGCTGCTGCTGCTGCTGCTGG CGGCGCCCGCCTCGGCGCAGCTGTCCCGGGCCGGCCGCTCGGCGCCTTTG GCCGCCGGGTGCCCAGACCGCTGCGAGCCGGCGCGCTGCCCGCCGCAGCC GGAGCACTGCGAGGGCGGCCGGGCCCGGGACGCGTGCGGCTGCTGCGAG GTGTGCGGCGCGCCCGAGGGCGCCGCGTGCGGCCTGCAGGAGGGCCCGTG CGGCGAGGGGCTGCAGTGCGTGGTGCCCTTCGGGGTGCCAGCCTCGGCCA CGGTGCGGCGGCGCGCGCAGGCCGGCCTCTGTGTGTGCGCCAGCAGCGAG CCGGTGTGCGGCAGCGACGCCAACACCTACGCCAACCTGTGCCAGCTGCG CGCCGCCAGCCGCCGCTCCGAGAGGCTGCACCGGCCGCCGGTCATCGTCC TGCAGCGCGGAGCCTGCGGCCAAGGGCAGGAAGATCCCAACAGTTTGCGC CATAAATATAACTTTATCGCGGACGTGGTGGAGAAGATCGCCCCTGCCGT GGTTCATATCGAATTGTTTCGCAAGCTTCCGTTTTCTAAACGAGAGGTGCC 41 WO 2005/010213 PCT/US2004/022959 GGTGGCTAGTGGGTCTGGGTTTATTGTGTCGGAAGATGGACTGATCGTGA CAAATGCCCACGTGGTGACCAACAAGCACCGGGTCAAAGTTGAGCTGAAG AACGGTGCCACTTACGAAGCCAAAATCAAGGATGTGGATGAGAAAGCAG ACATCGCACTCATCAAAATTGACCACCAGGGCAAGCTGCCTGTCCTGCTG CTTGGCCGCTCCTCAGAGCTGCGGCCGGGAGAGTTCGTGGTCGCCATCGG AAGCCCGTTTTCCCTTCAAAACACAGTCACCACCGGGATCGTGAGCACCA CCCAGCGAGGCGGCAAAGAGCTGGGGCTCCGCAACTCAGACATGGACTA CATCCAGACCGACGCCATCATCAACTATGGAAACTCGGGAGGCCCGTTAG TAAACCTGGACGGTGAAGTGATTGGAATTAACACTTTGAAAGTGACAGCT GGAATCTCCTTTGCAATCCCATCTGATAAGATTAAAAAGTTCCTCACGGAG TCCCATGACCGACAGGCCAAAGGAAAAGCCATCACCAAGAAGAAGTATA TTGGTATCCGAATGATGTCACTCACGTCCAGCAAAGCCAAAGAGCTGAAG GACCGGCACCGGGACTTCCCAGACGTGATCTCAGGAGCGTATATAATTGA AGTAATTCCTGATACCCCAGCAGAAGCTGGTGGTCTCAAGGAAAACGACG TCATAATCAGCATCAATGGACAGTCCGTGGTCTCCGCCAATGATGTCAGC GACGTCATTAAAAGGGAAAGCACCCTGAACATGGTGGTCCGCAGGGGTA ATGAAGATATCATGATCACAGTGATTCCCGAAGAAATTGACCCATAGGCA GAGGCATGAGCTGGACTTCATGTTTCCCTCAAAGACTCTCCCGTGGATGAC GGATGAGGACTCTGGGCTGCTGGAATAGGACACTCAAGACTTTTGACTGC CATTTTGTTTGTTCAGTGGAGACTCCCTGGCCAACAGAATCCTTCTTGATA GTTTGCAGGCAAAACAAATGTAATGTTGCAGATCCGCAGGCAGAAGCTCT GCCCTTCTGTATCCTATGTATGCAGTGTGCTTTCTTGCCAGCTTGGGCCA iTCTTGCTTAGACAGTCAGCATTTGTCTCCTCCTTTAACTGAGTCATCATCT TAGTCCAACTAATGCAGTCGATACAATGCGTAGATAGAAGAAGCCCCACG GGAGCCAGGATGGGACTGGTCGTGTTTGTGCTTTTCTCCAAGTCAGCACCC AAAGGTCAATGCACAGAGACCCCGGGTGGGTGAGCGCTGGCTTCTCAAAC GGCCGAAGTTGCCTCTTTTAGGAATCTCTTTGGAATTGGGAGCACGATGAC TCTGAGTTTGAGCTATTAAAGTACTTCTTACACATTG SEQ ID NO: 88 Secreted Frizzled-Related Protein 2 >gil426569 8 8|reflXM_050625.4 Homo sapiens secreted frizzled,-related protein 2 (SFRP2), mRNA I qPCR forward-Primer match [686..703] | qPCR reverseprimer match [750..728] |qPCR probe match [705..726] CCGGGTCGGAGCCCCCCGGAGCTGCGCGCGGGCTTGCAGCGCCTCG CCCGCGCTGTCCTCCCGGTGTCCCGCTTCTCCGCGCCCCAGCCGCCGGCTG CCAGCTTTTCGGGGCCCCGAGTCGCACCCAGCGAAGAGAGCGGGCCCGGG ACAAGCTCGAACTCCGGCCGCCTCGCCCTTCCCCGGCTCCGCTCCCTCTGC CCCCTCGGGGTCGCGCGCCCACGATGCTGCAGGGCCCTGGCTCGCTGCTG CTGCTCTTCCTCGCCTCGCACTGCTGCCTGGGCTCGGCGCGCGGGCTCTTC CTCTTTGGCCAGCCCGACTTCTCCTACAAGCGCAGCAATTGCAAGCCCATC CCTGCCAACCTGCAGCTGTGCCACGGCATCGAATACCAGAACATGCGGCT GCCCAACCTGCTGGGCCACGAGACCATGAAGGAGGTGCTGGAGCAGGCC GGCGCTTGGATCCCGCTGGTCATGAAGCAGTGCCACCCGGACACCAAGAA GTTCCTGTGCTCGCTCTTCGCCCCCGTCTGCCTCGATGACCTAGACGAGAC CATCCAGCCATGCCACTCGCTCTGCGTGCAGGTGAAGGACCGCTGCGCCC CGGTCATGTCCGCCTTCGGCTTCCCCTGGCCCGACATGCTTGAGTGCGACC GTTTCCCCCAGGACAACGACCTTTGCATCCCCCTCGCTAGCAGCGACCACC TCCTGCCAGCCACCGAGGAAGCTCCAAAGGTATGTGAAGCCTGCAAAAAT 42 WO 2005/010213 PCT/US2004/022959 AAAAATGATGATGACAACGACATAATGGAAACGCTTTGTAAAAATGATT TGCACTGAAAATAAAAGTGAAGGAGATAACCTACATCAACCGAGATACC AAAATCATCCTGGAGACCAAGAGCAAGACCATTTACAAGCTGAACGGTGT GTCCGAAAGGGACCTGAAGAAATCGGTGCTGTGGCTCAAAGACAGCTTGC AGTGCACCTGTGAGGAGATGAACGACATCAACGCGCCCTATCTGGTCATG GGACAGA-AACAGGGTGGGGAGCTGGTGATCACCTCGGTGAAGCGGTGGC AGAAGGGGCAGAGAGAGTTCAAGCGCATCTCCCGCAGCATCCGCAAGCT GCAGTGCTAGTCCCGGCATCCTGATGGCTCCGACAGGCCTGCTCCAGAGC ACGGCTGACCATTTCTGCTCCGGGATCTCAGCTCCCGTTCCCCAAGCACAC TCCTAGCTGCTCCAGTCTCAGCCTGGGCAGCTTCCCCCTGCCTTTTGCACG TTTGCATCCCCAGCATTTCCTGAGTTATAAGGCCACAGGAGTGGATAGCTG TTTTCACCTAAAGGAAAAGCCCACCCGAATCTTGTAGAAATATTCAAACT AATAAAATCATGAATATTTTTATGAAGTTTAAAAA SEQ ID NO: 89 Phospholipase A2, Group XUB >gil455051341ref]NM_032562.21 Homo sapiens phospholipase A2, group XIIB (PLA2G12B), mRNA TGTCCCTGGAATTCTGGGACACTGGCTGGGGTTTGAGGAGAGAAGC CAGTACCTACCTGGCTGCAGGATGAAGCTGGCCAGTGGCTTCTTGGTTTTG TGGCTCAGCCTTGGGGGTGGCCTGGCTCAGAGCGACACGAGCCCTGACAC GGAGGAGTCCTATTCAGACTGGGGCCTTCGGCACCTCCGGGGAAGCTTTG AATCCGTCAATAGCTACTTCGATTCTTTTCTGGAGCTGCTGGGAGGGAAGA ATGGAGTCTGTCAGTACAGGTGCCGATATGGAAAGGCACCAATGCCCAGA CCTGGCTACAAGCCCCAAGAGCCCAATGGCTGCGGCTCCTATTTCCTGGGT CTCAAGGTACCAGAAAGTATGGACTTGGGCATTCCAGCAATGACAAAGTG CTGCAACCAGCTGGATGTCTGTTATGACACTTGCGGTGCCAACAAATATC GCTGTGATGCAAAATTCCGATGGTGTCTCCACTCGATCTGCTCTGACCTTA AGCGGAGTCTGGGCTTTGTCTCCAAAGTGGAAGCAGCCTGTGATTCCCTG GTTGACACTGTGTTCAACACCGTGTGGACCTTGGGCTGCCGCCCCTTTATG AATAGTCAGCGGGCAGCTTGCATCTGTGCAGAGGAGGAGAAGGAAGAGT TATGAGGAAGAAGTGATTCCTTCCTGGTTTTGAGTGACACCACAGCTGTCA GCCTTCAAGATGTCAAGTCTTCGAGTCAGCGTGACTCATTCATTCTTCCAA CAGTTTGGACACCACAAAGCAGGAGAAAGGGAACATTYTTCTACAGCTGG AAAGTGAGTCCTATCCTTTGAGGAAATTTGAAAAAAGACATGGAGTGGTT TGAAAGCTACTCTTCATTTAAGACTGCTCTCCCCAACCAAGACACATTTGC CTGGAAATTCAGTTCTTAGCTTAAAGACTAAAATGCAAGCAAACCCTGCA ATTCCTGGACCTGATAGTTATATTCATGAGTGAAATTGTGGGGAGTCCAGC CATTTGGGAGGCAATGACTTTCTGCTGGCCCATGTTTCAGTTGCCAGTAAG CTTCTCACATTTAATAAAGTGTACTTTTTAGAACATT SEQ ID NO: 90 Spondin 2, Extracellular Matrix Protein >gil6912681|reflNM_012445.11 Homo sapiens spondin 2, extracellular matrix protein (SPON2), mRNA GCACGAGGGAAGAGGGTGATCCGACCCGGGGAAGGTCGCTGGGCA GGGCGAGTTGGGAAAGCGGCAGCCCCCGCCGCCCCCGCAGCCCCTTCTCC TCCTTTCTCCCACGTCCTATCTGCCTCTCGCTGGAGGCCAGGCCGTGCAGC 43 WO 2005/010213 PCT/US2004/022959 ATCGAAGACAGGAGGAACTGGAGCCTCATTGGCCGGCCCGGGGCGCCGG CCTCGGGCTTAAATAGGAGCTCCGGGCTCTGGCTGGGACCCGACCGCTGC CGGCCGCGCTCCCGCTGCTCCTGCCGGGTGATGGAAAACCCCAGCCCGGC CGCCGCCCTGGGCAAGGCCCTCTGCGCTCTCCTCCTGGCCACTCTCGGCGC CGCCGGCCAGCCTCTTGGGGGAGAGTCCATCTGTTCCGCCAGAGCCCCGG CCAAATACAGCATCACCTTCACGGGCAAGTGGAGCCAGACGGCCTTCCCC AAGCAGTACCCCCTGTTCCGCCCCCCTGCGCAGTGGTCTTCGCTGCTGGGG GCCGCGCATAGCTCCGACTACAGCATGTGGAGGAAGAACCAGTACGTCAG TAACGGGCTGCGCGACTTTGCGGAGCGCGGCGAGGCCTGGGCGCTGATGA AGGAGATCGAGGCGGCGGGGGAGGCGCTGCAGAGCGTGCACGCGGTGTT TTCGGCGCCCGCCGTCCCCAGCGGCACCGGGCAGACGTCGGCGGAGCTGG AGGTGCAGCGCAGGCACTCGCTGGTCTCGTTTGTGGTGCGCATCGTGCCC AGCCCCGACTGGTTCGTGGGCGTGGACAGCCTGGACCTGTGCGACGGGGA CCGTTGGCGGGAACAGGCGGCGCTGGACCTGTACCCCTACGACGCCGGGA CGGACAGCGGCTTCACCTTCTCCTCCCCCAACTTCGCCACCATCCCGCAGG ACACGGTGACCGAGATAACGTCCTCCTCTCCCAGCCACCCGGCCAACTCC TTCTACTACCCGCGGCTGAAGGCCCTGCCTCCCATCGCCAGGGTGACACTG GTGCGGCTGCGACAGAGCCCCAGGGCCTTCATCCCTCCCGCCCCAGTCCT GCCCAGCAGGGACAATGAGATTGTAGACAGCGCCTCAGTTCCAGAAACGC CGCTGGACTGCGAGGTCTCCCTGTGGTCGTCCTGGGGACTGTGCGGAGGC CACTGTGGGAGGCTCGGGACCAAGAGCAGGACTCGCTACGTCCGGGTCCA GCCCGCCAACAACGGGAGCCCCTGCCCCGAGCTCGAAGAAGAGGCTGAG TGCGTCCCTGATAACTGCGTCTAAGACCAGAGCCCCGCAGCCCCTGGGGC CCCCGGAGCCATGGGGTGTCGGGGGCTCCTGTGCAGGCTCATGCTGCAGG CGGCCGAGGCACAGGGGGTTTCGCGCTGCTCCTGACCGCGGTGAGGCCGC GCCGACCATCTCTGCACTGAAGGGCCCTCTGGTGGCCGGCACGGGCATTG GGAAACAGCCTCCTCCTTTCCCAACCTTGCTTCTTAGGGGCCCCCGTGTCC CGTCTGCTCTCAGCCTCCTCCTCCTGCAGGATAAAGTCATCCCCAAGGCTC CAGCTACTCTAAATTATGGTCTCCTTATAAGTTATTGCTGCTCCAGAGAT TGTCCTTCATCGTCCAGGGGCCTGGCTCCCACGTGGTTGCAGATACCTCAG ACCTGGTGCTCTAGGCTGTGCTGAGCCCACTCTCCCGAGGCGCATCCAA GCGGGGGCCACTTGAGAAGTGAATAAATGGGGCGGTTTCGGAAGCGTCA GTGTTTCCATGTTATGGATCTCTCTGCGTTTGAATAAAGACTATCTCTGTTG CTCAC SEQ ID NO: 91 Olfactomedin 1, Transcript Variant 3 >giJ343352821reflNM_058199,21 Homo sapiens olfactomedin 1 (OLFMI), transcript variant 3, mRNA ' CCCGCCCCCGCCCCTTCCGAGCAAACTTTTGGCACCCACCGCAGCC CAGCGCGCGTTCGTGCTCCGCAGGGCGCGCCTCTCTCCGCCAATGCCAGG CGCGCGGGGGAGCCATTAGGAGGCGAGGAGAGAGGAGGGCGCAGCTCCC GCCCAGCCCAGCCCTGCCCAGCCCTGCCCGGAGGCAGACGCGCCGGAACC GGGACGCGATAAATATGCAGAGCGGAGGCTTCGCGCAGCAGAGCCCGCG CGCCGCCCGCTCCGGGTGCTGAATCCAGGCGTGGGGACACGAGCCAGGCG CCGCCGCCGGAGCCAGCGGAGCCGGGGCCAGAGCCGGAGCGCGTCCGCG TCCACGCAGCCGCCGGCCGGCCAGCACCCAGGGCCCTGCATGCCAGGTCG TTGGAGGTGGCAGCGAGACATGCACCCGGCCCGGAAGCTCCTCAGCCTCC TCTTCCTCATCCTGATGGGCACTGAACTCACTCAAAATAAAAGAGAAAAC 44 WO 2005/010213 PCT/US2004/022959 AAAGCAGAGAAGATGGGAGGGCCAGAGAGCGAGAGGAAGACCACAGGA GAGAAGACACTGAACGAGCTTCCCTTGTTTTGCCTGGAAGCCCACGCTGG CTCCCTGGCTCTGCCCAGGATGTGCAGTCCAAATCCCAATCCAGCAGTGG GGTTATGTCGTCCCGCTTACCCTCAGAGCCCTTCTCCTGGTGCTGCCCAGA CGATCAGCCAGTCCCTCCTGGAGAGGTTCTGCATGGCCTCTAGGAGAGAA GTTTTCTTGGCCCCAGGAAGGCCTGGTGGAGGGTGGTGGTTGTGCACTGTT GCTGGACAGATGCATTCATTCATGTGCACACACACACACACACATGCACA CACAGGGGAGCAGATACCTGCAGAGAAGAGCCAACCAGGTCCTGATTAG TGGCAAGCTGCCCCACAAAGGGCTATGCCTGTGTCTTATTGAGACACCTTG GCAAAGAGATGGCTGATTCTGGGTGGTCCTGGACATGGCCGCACCCAAGG GCCCTCCAAGCCTTAATGGCACCCTGAAGCCTCCATGCCCAGGCCAAAAG ATGCTTTTCCTCCCTAAAAAAAAAAAAAAAAAAA SEQ ID NO:92 Thrombospondin Repeat Containing 1 >giJ380169031ref]NM_019032.21 Homo sapiens thrombospondin repeat containing 1 (TSRC1), mRNA GGGGCCCCAGTGGCCGCCGCGGAGCGAGGTTGCCTGGAGAGAGCG CCTGGGCGCAGAAGGGTTAACGGGCCACCGGGGGCTCGCAGAGCAGGAG GGTGCTCTCGGACGGTGTGTCCCCCACTGCACTCCTGAACTTGGAGGACA GGGTCGCCGCGAGGGACGCAGAGAGCACCCTCCACGCCCAGATGCCTGCG TAGTTTTTGTGACCAGTCCGCTCCTGCCTCCCCCTGGGGCAGTAGAGGGGG AGCGATGGAGAACTGGACTGGCAGGCCCTGGCTGTATCTGCTGCTGCTTC TGTCCCTCCCTCAGCTCTGCTTGGATCAGGAGGTGTTGTCCGGACACTCTC TTCAGACACCTACAGAGGAGGGCCAGGGCCCCGAAGGTGTCTGGGGACCT TGGGTCCAGTGGGCCTCTTGCTCCCAGCCCTGCGGGGTGGGGGTGCAGCG CAGGAGCCGGACATGTCAGCTCCCTACAGTGCAGCTCCACCCGAGTCTGC CCCTCCCTCCCCGGCCCCCAAGACATCCAGAAGCCCTCCTCCCCCGGGGCC AGGGTCCCAGACCCCAGACTTCTCCAGAAACCCTCCCCTTGTACAGGACA CAGTCTCGGGGAAGGGGTGGCCCACTTCGAGGTCCCGCTTCCCACCTAGG GAGAGAGGAGACCCAGdAGATTCGAGCGGCCAGGAGGTCCCGGCTTCGA GACCCCATCAAGCCAGGAATGTTCGGTTATGGGAGAGTGCCCTTTGCATT GCCACTGCACCGGAACCGCAGGCACCCTCGGAGCCCACCCAGATCTGAGC TGTCCCTGATCTCTTCTAGAGGGGAAGAGGCTATTCCGTCCCCTACTCCAA GAGCAGAGCCATTCTCCGCAAACGGCAGCCCCCAAACTGAGCTCCCTCCC ACAGAACTGTCTGTCCACACCCCATCCCCCCAAGCAGAACCTCTAAGCCC TGAAACTGCTCAGACAGAGGTGGCCCCCAGAACCAGGCCTGCCCCCCTAC GGCATCACCCCAGAGCCCAGGCCTCTGGCACAGAGCCCCCCTCACCCACG CACTCCTTAGGAGAAGGTGGCTTCTTCCGTGCATCCCCTCAGCCACGAAG GCCAAGTTCCCAGGGTTGGGCCAGTCCCCAGGTAGCAGGGAGACGCCCTG ATCCTTTTCCTTCGGTCCCTCGGGGCCGAGGCCAGCAGGGCCAAGGGCCTT GGGGAACGGGGGGGACTCCTCACGGGCCCCGCCTGGAGCCTGACCCTCAG CACCCGGGCGCCTGGCTGCCCCTGCTGAGCAACGGCCCCCATGCCAGCTC CCTCTGGAGCCTCTTTGCTCCCAGTAGCCCTATTCCAAGATGTTCTGGGGA GAGTGAACAGCTAAGAGCCTGCAGCCAAGCGCCCTGCCCCCCTGAGCAGC CAGACCCCCGGGCCCTGCAGTGCGCAGCCTTTAACTCCCAGGAATTCATG GGCCAGCTGTATCAGTGGGAGCCCTTCACTGAAGTCCAGGGCTCCCAGCG CTGTGAACTGAACTGCCGGCCCCGTGGCTTCCGCTTCTATGTCCGTCACAC TGAAAAGGTCCAGGATGGGACCCTGTGTCAGCCTGGAGCCCCTGACATCT 45 WO 2005/010213 PCT/US2004/022959 GTGTGGCTGGAGGCTGTCTGAGCCCCGGCTGTGATGGGATCCTTGGCTCTG GCAGGCGTCCTGATGGCTGTGG-AGTCTGTGGGGGTGATGATTCTACCTGTC GCCTTGTTTCGGGGAACCTCACTGACCGAGYGGGGCCCCGTGGGCTATCAG AAGATCTTGTGGATTCCAGCGGGAGCCTTGCGGCTCCAGATTGCCCAGCT CCGGCCTAGCTCCAACTACCTGGCACTTCGTGGCCCTGGGGGCCGGTCCAT CATCAATGGOAACTGGGCTGTGGATCCCCCTGGGTCCTACAGGGCGGGCG GGACCGTCTTTCGATATAACCGTCCTCCCAGGGAGGAGGGCAAAGGGGAG AGYTCTGTCGGCTGAAGGCCCCACCACCCAGCCTGTGGATGTCTATATGATC TTTCAGGAGGAA-AACCCAGGCG=hTTTATCAGTATGTCATCTCTTCACCT GCTCCAATCCTTGAGAACCCCACCCCAGAGCCCCCTGTCCCCCAGCTTCAG CCGGAGATTCTGAGGGTGGAGCCCCCACTTGCTCCGGCACGCCGCCCAGC CCGGACCCCAGGCACCCTCCAGCGTCAGGTGCGGATCCCCCAGATGCCCG CCCCGCCCCATCCGAGGACACCGCCTGGGGTCTCCAGCTGGGTACTGGAAA CGAGTGGGACACTGTGCATGCTCAGCGTCCTGGGGGAAAGGTGTCTGGCG CCGCAT'PTCCTCTGCATCTCGGTGAGTCGGGAGAGGAACTGGATGAAC GCAGCTGTGCGGCGGGTGCCAGGCCCCCAGCCTGCCCTGAACCCTGCGAC GGCACCCCATGCCCCCCATACTGGGAGGCTGGCGAGTGGACATCCTGCAG CCGCTCCTGTGGCGCCGGCACCCAGCACCGCCAGCTGCAGTGCCGGCAGG AATTTGGGGGGGGTGGCTCCTCGGTGCCCCCGGAGCGCTGTGGACATCTC CCCCGGCCCAACATCACCCAGTG1TGCCAGCTGCGCCTCTGTGGCCATTGG GAAGTTGGCTCTCCTTGGAGCCAGTGCTCCGTGCGGTGCGGCCGGGGCCA GAGAAGCCGGCAGGTTCGCTGTGTTGGGAACAACGGTGATGAAGTGAGC GAGCAGGAGTGTGCGTGAGGCCCCGCGCAGCCCCCCAGCAGAGAGGICCTG TGACATGGGGCCCTGTACTACTGCCTGGTTCCACAGCGACTGGAGCTCCA AGTGCTCAGCCGAGTGTGGGAGGGGAATCCAGCGGCGCTCTGTGGTCTGC CTTGGGAGTGGGGCAGCCCTCGGGCCAGGCCAGGGGGAAGCAGGAGCAG GAACTGGGCAGAGCTGTCCAACAGGAAGCCGGCCCGCTGACATGGGCGCC TGCAGCCTGGGGCCCTGTGAG3AGAACTTGGCGCTGGTACACAGGGCCCTG GGGTGAGTGCTCCTCCGAATGTGGCTCTGGCACACAGCGTAGAGACATCA TCTGTGTATCCAAACTGGGGACGGAGTTCAACGTGACTTCTCCGAGCAAC TGTTCTCACCTCCCCAGGCGCCCCTGCCCTGGAGCCGTGTCAAGGGCAGGCC TGCCAGGACCGATGGThTGCACGCCCTGG3AGCCCATGTTCTCGCTCCTGC CAAGGjGGGAACGCAGACACGGGAGGTCCAGTGCCTGjAGCACGAACCAGA CCCTCAGCACCGGATGCCGTCCTCAACTGCGGCCCTCCAGGAAGCGCCCCT GTAACAGCCAAGCCTGCAGCGAGCGCCCTGATGTATCAATGCAAGGACAGC TCTCCACATI'GCCCCCTGGTGGTACAGGCCCGGCTCTGCGTCTACCCCTAC TACACAGCCAGCTGTrGCCGCTCTTGCGCAGATGTGCTGGAGGGGTCTCCC CAGGATCCCTCCTGAAAGGGGTCCGGGGCACCTTCACGGTTTTCTGTGCCA CCATCGGTCACCCATTGATCGGCCCACTCTGAACGCCCTGGCTCTCCAGCC TGTCCCAGTCTGAGCAGGGATGTCCTCCAGGTG-ACAGAGGGTGGCAAGGT GACTGACACAAAGTG-ACTIITCAGGGCTGTGGTCAGGCCCATGTGGTGGTG TGATGGGTGTGTGCACATATGGGTCAGGTGTGCTTTTGGGACTGCATGGAT ATGTGTGTGCTCAAACGTGTATCACTTTTCAAAAAGAGGTrACACAGACT GAGAAGGACAAGACCTGTTTCCQTGAGACTTTCCTAGGTGGAAAGGAAAG CAAGTCTGCAGIITCCTTGCTAATCTGAGCTAG'ITAGAGTGTGGTCTCCCCA CCAACTCCAGTTI'TGTGCCCTAAGCCTCATTTCTCATGTTCAGACCTCACA TCTTCTAAGCCGCCCTGTGTCTCTGACCCCTTCTCATTTGCCTAGTATCTCT GCCCTGCCTCCCTAATTAGCTAGGGCTGGGGTCAGCCACTGCCAATCCTG CCTTACTCAGGAAGGCAGGAGGAAAGAGACTGCCTCTCCAGAGCAAGGG CCAGCTGGGCAGAGGGTGAAAAAGAGAAATGTGAGCATCCGCTCCCCCA 46 WO 2005/010213 PCT/US2004/022959 CCACCCCGCCCAGCCCCTAGCCCCACTCCCTGCCTCCTGAAATGGTTCCCA CCCAGAACTAATITATTTTTfATTAAAGATGGTCATGACAAATGAAAAAA AAAAAAAAAAAAA SEQ ID NO: 93 Thrombospondin 2 >gij40 3 17627jreflNM_ 003247.2j Homo sapiens thrombospondin 2 (THBS2), mRNA | qPCR forwardprimer match [3558..3580] 1 qPCR reverseprimer match [3682..3655] 1 qPCR probe match [3597..3623] GAGGAGGAGACGGCATCCAGTACAGAGGGGCTGGACTTGGACCCC TGCAGCAGCCCTGCACAGGAGAAGCGGCATATAAAGCCGCGCTGCCCGG GAGCCGCTCGGCCACGTCCACCGGAGCATCCTGCACTGCAGGGCCGGTCT CTCGCTCCAGCAGAGCCTGCGCCTTTCTGACTCGGTCCGGAACACTGAAA CCAGTCATCACTGCATCTTTTTGGCAAACCAGGAGCTCAGCTGCAGGAGG CAGGATGGTCTGGAGGCTGGTCCTGCTGGCTCTGTGGGTGTGGCCCAGCA CGCAAGCTGGTCACCAGGACAAAGACACGACCTTCGACCTTTTCAGTATC AGCAACATCAACCGCAAGACCATTGGCGCCAAGCAGTTCCGCGGGCCCGA CCCCGGCGTGCCGGCTTACCGCTTCGTGCGCTTTGACTACATCCCACCGGT GAACGCAGATGACCTCAGCAAGATCACCAAGATCATGCGGCAGAAGGAG GGCTTCTTCCTCACGGCCCAGCTCAAGCAGGACGGCAAGTCCAGGGGCAC GCTGTTGGCTCTGGAGGGCCCCGGTCTCTCCCAGAGGCAGTTCGAGATCG TCTCCAACGGCCCCGCGGACACGCTGGATCTCACCTACTGGATTGACGGC ACCCGGCATGTGGTCTCCCTGGAGGACGTCGGCCTGGCTGACTCGCAGTG GAAGAACGTCACCGTGCAGGTGGCTGGCGAGACCTACAGCTTGCACGTGG GCTGCGACCTCATAGACAGCTTCGCTCTGGACGAGCCCTTCTACGAGCAC CTGCAGGCGGAAAAGAGCCGGATGTACGTGGCCAAAGGCTCTGCCAGAG AGAGTCACTTCAGGGGTTTGCTTCAGAACGTCCACCTAGTGTTTGAAAACT CTGTGGAAGATATTCTAAGCAAGAAGGGTTGCCAGCAAGGCCAGGGAGCT GAGATCAACGCCATCAGTGAGAACACAGAGACGCTGCGCCTGGGTCCGCA TGTCACCACCGAGTACGTGGGCCCCAGCTCGGAGAGGAGGCCCGAGGTGT GCGAACGCTCGTGCGAGGAGCTGGGAAACATGGTCCAGGAGCTCTCGGG GCTCCACGTCCTCGTGAACCAGCTCAGCGAGAACCTCAAGAGAGTGTCGA ATGATAACCAGTTTCTCTGGGAGCTCATTGGTGGCCCTCCTAAGACAAGG AACATGTCAGCTTGCTGGCAGGATGGCCGGTTCTTTGCGGAAAATGAAAC GTGGGTGGTGGACAGCTGCACCACGTGTACCTGCAAGAAATTTAAAACCA TTTGCCACCAAATCACCTGCCCGCCTGCAACCTGCGCCAGTCCATCCTTTG TGGAAGGCGAATGCTGCCCTTCCTGCCTCCACTCGGTGGACGGTGAGGAG GGCTGGTCTCCGTGGGCAGAGTGGACCCAGTGCTCCGTGACGTGTGGCTC TGGGACCCAGCAGAGAGGCCGGTCCTGTGACGTCACCAGCAACACCTGCT TGGGGCCCTCCATCCAGACACGGGCTTGCAGTCTGAGCAAGTGTGACACC CGCATCCGGCAGGACGGCGGCTGGAGCCACTGGTCACCTTGGTCTTCATG CTCTGTGACCTGTGGAGTTGGCAATATCACACGCATCCGTCTCTGCAACTC CCCAGTGCCCCAGATGGGGGGCAAGAATTGCAAAGGGAGTGGCCGGGAG ACCAAAGCCTGCCAGGGCGCCCCATGCCCAATCGATGGCCGCTGGAGCCC CTGGTCCCCGTGGTCGGCCTGCACTGTCACCTGTGCCGGTGGGATCCGGG AGCGCACCCGGGTCTGCAACAGCCCTGAGCCTCAGTACGGAGGGAAGGCC TGCGTGGGGGATGTGCAGGAGCGTCAGATGTGCAACAAGAGGAGCTGCC CCGTGGATGGCTGTTTATCCAACCCCTGCTTCCCGGGAGCCCAGTGCAGCA GCTTCCCCGATGGGTCCTGGTCATGCGGCTCCTGCCCTGTGGGCTTCTTGG 47 WO 2005/010213 PCT/US2004/022959 GCAATGGCACCCACTGTGAGGACCTGGACGAGTGTGCCCTGGTCCCCGAC ATCTGCTTCTCCACCAGCAAGGTGCCTCGCTGTGTCAACACTCAGCCTGGC 7TTCCACTGCCTGCCCTGCCCGCCCCGATACAGAGGGAACCAGCCCGTCGG GGTCGGCCTGGAAGCAGCCAAGACGGAAAAGCAAGTGTGTGAGCCCGAA AACCCATGCAAGGACAAGACACACAACTGCCACAAGCACGCGGAGTGCA TCTACCTGGGCCACTTCAGCGACCCCATGTACAAGTGCGAGTGCCAGACA GGCTACGCGGGCGACGGGCTCATCTGCGGGGAGGACTCGGACCTGGACG GCTGGCCCAACCTCAATCTGGTCTGCGCCACCAACGCCACCTACCACTGC ATCAAGGATAACTGCCCCCATCTGCCAAATTCTGGGCAGGAAGACTTTGA CAAGGACGGGATTGGCGATGCCTGTGATGATGACGATGACAATGACGGTG TGACCGATGAGAAGGACAACTGCCAGCTCCTCTTCAATCCCCGCCAGGCT GACTATGACAAGGATGAGGTTGGGGACCGCTGTGACAACTGCCCTTACGT GCACAACCCTGCCCAGATCGACACAGACAACAATGGAGAGGGTGACGCC TGCTCCGTGGACATTGATGGGGACGATGTCTTCAATGAACGAGACAATTG TCCCTACGTCTACAACACTGACCAGAGGGACACGGATGGTGACGGTGTGG GGGATCACTGTGACAACTGCCCCCTGGTGCACAACCCTGACCAGACCGAC GTGGACAATGACCTTGTTGGGGACCAGTGTGACAACAACGAGGACATAGA TGACGACGGCCACCAGAACAACCAGGACAACTGCCCCTACATCTCCAACG CCAACCAGGCTGACCATGACAGAGACGGCCAGGGCGACGCCTGTGACCCT GATGATGACAACGATGGCGTCCCCGATGACAGGGACAACTGCCGGCTTGT GTTCAACCCAGACCAGGAGGACTTGGACGGTGATGGACGGGGTGATATTT GTAAAGATGATTTTGACAATGACAACATCCCAGATATTGATGATGTGTGT CCTGAAAACAATGCCATCAGTGAGACAGACTTCAGGAACTTCCAGATGGT CCCCTTGGATCCCAAAGGGACCACCCAAATTGATCCCAACTGGGTCATTC GCCATCAAGGCAAGGAGCTGGTTCAGACAGCCAACTCGGACCCCGGCATC GCTGTAGGTTTTGACGAGTTTGGGTCTGTGGACTTCAGTGGCACATTCTAC GTAAACACTGACCGGGACGACGACTATGCCGGCTTCGTCTTTGGTTACCA GTCAAGCAGCCGCTTCTATGTGGTGATGTGGAAGCAGGTGACGCAGACCT ACTGGGAGGACCAGCCCACGCGGGCCTATGGCTACTCCGGCGTGTCCCTC AAGGTGGTGAACTCCACCACGGGGACGGGCGAGCACCTGAGGAACGCGC TGTGGCACACGGGGAACACGCCGGGGCAGGTGCGAACCTTATGGCACGA CCCCAGGAACATTGGCTGGAAGGACTACACGGCCTATAGGTGGCACCTGA CTCACAGGCCCAAGACTGGCTACATCAGAGTCTTAGTGCATGAAGGAAAA CAGGTCATGGCAGACTCAGGACCTATCTATGACCAAACCTACGCTGGCGG GCGGCTGGGTCTATTTGTCTTCTCTCAAGAAATGGTCTATTTCTCAGACCT CAAGTACGAATGCAGAGATATTTAAACAAGATTTGCTGCATITCCGGCAA TGCCCTGTGCATGCCATGGTCCCTAGACACCTCAGTTCATTGTGGTCCTTG TGGCTTCTCTCTCTAGCAGCACCTCCTGTCCCTTGACCTTAACTCTGATGGT TCTTCACCTCCTGCCAGCAACCCCAAACCCAAGTGCCTTCAGAGGATAAA TATCAATGGAACTCAGAGATGAACATCTAACCCACTAGAGGAAACCAGTT TGGTGATATATGAGACTTTATGTGGAGTGAAAATTGGGCATGCCATTACA TTGCTTTTTCTTGTTTGTTTAAAAAGAATGACGTTTACATATAAAATGTAA TTACTTATTGTATTTATGTGTATATGGAGTTGAAGGGAATACTGTGCATAA GCCATTATGATAAATTAAGCATGAAAAATATTGCTGAACTACTTTTGGTGC TTAAAGTTGTCACTATTCTTGAATTAGAGTTGCTCTACAATGACACACAAA TCCCATTAAATAAATTATAAACAAGGGTCAATTCAAATTTGAAGTAATGTT TTAGTAAGGAGAGATTAGAAGACAACAGGCATAGCAAATGACATAAGCT ACCGATTAACTAATCGGAACATGTAAAACAGTTACAAAAATAAACGAACT CTCCTCTTGTCCTACAATGAAAGCCCTCATGTGCAGTAGAGATGCAGTTTC ATCAAAGAACAAACATCCTTGCAAATGGGTGTGACGCGGTTCCAGATGTG 48 WO 2005/010213 PCT/US2004/022959 GATTTGGCAAAACCTCATTTAAGTAAAAGGTTAGCAGAGCAAAGTGCGGT GCTTTAGCTGCTGCTTGTGCCGCTGTGGCGTCGGGGAGGCTCCTGCCTGAG CTTCCTTCCCCAGCTTTGCTGCCTGAGAGGAACCAGAGCAGACGCACAGG CCGGAAAAGGCGCATCTAACGCGTATCTAGGCTTTGGTAACTGCGGACAA GTTGCTTTTACCTGATTTGATGATACATTTCATTAAGGTTCCAGTTATAAAT ATTTTGTTAATATTTATTAAGTGACTATAGAATGCAACTCCATTTACCAGT AACTTATTTTAAATATGCCTAGTAACACATATGTAGTATAATTTCTAGAAA CAAACATCTAATAAGTATATAATCCTGTGAAAATATGAGGCTTGATAATA TTAGGTTGTCACGATGAAGCATGCTAGAAGCTGTAACAGAATACATAGAG AATAATGAGGAGTTTATGATGGAACCTTAAATATATAATGTTGCCAGCGA TTTTAGTTCAATATTTGTTACTGTTATCTATCTGCTGTATATGGAATTCTTT TAATTCAAACGCTGAAAAGAATCAGCATTTAGTCTTGCCAGGCACACCCA ATAATCAGTCATGTGTAATATGCACAAGTTTGTTTTGTTTTTGTTTTTT GTTGGTTGGTTTGTTTTTTTGCTTTAAGTTGCATGATCTTTCTGCAGGAAAT AGTCACTCATCCCACTCCACATAAGGGGTTTAGTAAGAGAAGTCTGTCTGT CTGATGATGGATAGGGGGCAAATCTTTTTCCCCTTTCTGTTAATAGTCATC ACATTTCTATGCCAAACAGGAACAATCCATAACTTTAGTCTTAATGTACAC ATTGCATTTTGATAAAATTAATTTTGTTGTTTCCTTTGAGGTTGATCGTTGT GTTGTTGTTTTGCTGCACTTTTTACTTTTTTGCGTGTGGAGCTGTATTCCCG AGACCAACGAAGCGTTGGGATACTTCATTAAATGTAGCGACTGTCAACAG CGTGCAGGTTTTCTGTTTCTGTGTTGTGGGGTCAACCGTACAATGGTGTGG GAGTGACGATGATGTGAATATTTAGAATGTACCATATTTTTTGTAAATTAT TTATGTTTTTCTAAACAAATTTATCGTATAGGTTGATGAAACGTCATGTGT TTTGCCAAAGACTGTAAATATTTATTTATGTGTTCACATGGTCAAAATTTC ACCACTGAAACCCTGCACTTAGCTAGAACCTCATITTAAAGATTAACAAC AGGAAATAAATTGTAAAAAAGGTTTTCTATACATGAAAAAAAAAAAAAA AAAA SEQ ID NO: 94 Adlican >gil18390318lreflNM_015419.11 Homo sapiens adlican (DKFZp564I1922), mRNA I qPCR assay _on demandcontext match [694..718] ATGCCCAAGCGCGCGCACTGGGGGGCCCTCTCCGTGGTGCTGATCC TGCTTTGGGGCCATCCGCGAGTGGCGCTGGCCTGCCCGCATCCTTGTGCCT GCTACGTCCCCAGCGAGGTCCACTGCACGTTCCGATCCCTGGCTTCCGTGC CCGCTGGCATTGCTAGACACGTGGAAAGAATCAATTTGGGGTTTAATAGC ATACAGGCCCTGTCAGAAACCTCATTTGCAGGACTGACCAAGTTGGAGCT ACTTATGATTCACGGCAATGAGATCCCAAGCATCCCCGATGGAGCTTTAA GAGACCTCAGCTCTCTTCAGGTTTTCAAGTTCAGCTACAACAAGCTGAGA GTGATCACAGGACAGACCCTCCAGGGTCTCTCTAACTTAATGAGGCTGCA CATTGACCACAACAAGATCGAGTTTATCCACCCTCAAGCTTTCAACGGCTT AACGTCTCTGAGGCTACTCCATTTGGAAGGAAATCTCCTCCACCAGCTGCA CCCCAGCACCTTCTCCACGTTCACATTTTTGGATTATTTCAGACTCTCCACC ATAAGGCACCTCTACTTAGCAGAGAACATGGTTAGAACTCTTCCTGCCAG CATGCTTCGGAACATGCCGCTTCTGGAGAATCTTTACTTGCAGGGAAATCC GTGGACCTGCGATTGTGAGATGAGATGGTTTTTGGAATGGGATGCAAAAT CCAGAGGAATTCTGAAGTGTAAAAAGGACAAAGCTTATGAAGGCGGTCA GTTGTGTGCAATGTGCTTCAGTCCAAAGAAGTTGTACAAACATGAGATAC ACAAGCTGAAGGACATGACTTGTCTGAAGCCTTCAATAGAGTCCCCTCTG 49 WO 2005/010213 PCT/US2004/022959 AGACAG-AACAPGGAGCAGGAGTATTGAGGAGGAGCAAGKACA-GGAA-GAG GATGGTGGCAGCCAGCTCATCCTGC-TAGAAATTCCAACTGCCCCAGTGGAG CATCTCTTTGAATATGACGGACGAGCACGGGAACATGGTGAACTTGGTCT GTGACATCAAGAAACCAATGGATGTGTACAAGATTCACTTIGAACCAAACG GATCCTCCAGATATTGACATAAATGCAACAGTTGCCTTGGACWFTGAGTGT CCAATGACGCGAGAAAACTATGAAAAGCTATGGAAAYJ'GATAGCATACTA CAGTGAAGTTCCCGTGAAGCTACACAGAGAGCTCATGCTCAGCAAAGACC CCAGAGTCAGCTACCAGTACAGGCAGGATGGTGATGAGGAAGCTCTITAC TACACAGGTGTGAGAGcccAGATTcTTGCAGAACGAGAATGGGTCATGCA GCCATCCATAGATATCCAGCTGAACCGACGTCAGAGTACGGCCAAGAAGG TGCTACTTTCCTACTACACCCAGTATTCTCAAACAATATCCACCAAAGATA CAAGGCAGGCTCGGGGCAGAAGCTGGGTAATGATTGAGCCTAGTGGAGCT GTGCAAAGAGATCAGACTGTCCTGGAAGGGGGTCCATGCCAGTTQAGCTG CAACGTGAAAGCTTCTGAGAGTCCATCTATCTTCTGGGTGCTTCCAGATGG CTCCATCCTGAAAaCGCCCATGTGATGACCCAGACAGCAAGTTCTCCATTCT CAGCAGTGGCTGGCTGAGGATCAAGTCCATGGAGCCATCTGACTCAGGCT TGTACCAGTGCATTGCTCAAGTGAGGGATGAAATGjGACCGCATGGTATAT AGGGTACTTGTGCAGTCTCGCTCCACTCAGCCAGCCGAGAAAGACACAGT GACAGGCAAGAACCCAGGGGAGTCGGTGACATTGCCTTGCAATGCTT TAGCAATACCGAAGCCGACCTTAGCTGGATTCTTCCAAACAGAAGGjATA ATTAATGATTIGGCTAACACATCACATGTATACATGTTGCCAAATGGAACT CTTTCCATCCCAAAGGTCCAAGTCAGTGATAGTGGTTACTACAGATGTGTG GCTGTCAACGAGCAAGiGGGCAGACCA=hrACGGTGGGAATCACAGTGAC CAAGAAAGGGTCTGGCT.TGCCATCCAAAAGAGGCAGAGGCCCAGGTGCA AAGGCTCTITCCACGiAGTCAGAGAAGACATCGTGGAGGATGAAGGGGGCTC GGGCATGGGAGATGAAGAGAAGACTTCAAGGAGACTTCTGCATGCA AAG GACCAAGAGGTGTTCCTCAAAACAAAGGATGATGCCATCAATGGAGACA AGAAAGGCAAGAAAGGGAGAAGAAAGCTGAAACTCTGGA-AGCATTCGGA AAAAGAACCAGAGACCAATGTTGCAGAAGGTCGCAGAGTGT'ITGA-ATCTA GACGAAGGATAAACATGGCAAACAAACAGATTAATCCGGAGCGGTGGGC TGATAITTTAGCCAAAGTCCGTGGGAAAAATCTCCCTAAGGGCACAGAAG TACCCGTTGATTAAAACCACAAGTCCTCCATCCTTGAGCCTAGAAGTCA CACCACCITICCTGCTGTTTCTCCCCCCTCAGCATCTCCTGTGCAGACAGT AACCAGTGCTGAAGAATCCTCAGCAGATGTACCTCTACFPGGTGAAGAAG AGCACGTTTTGGGTACCATTTCCTCAGCCAGCATGGGGCTAGAACACAAC CACAATGGAGTTATTCHTGUGAACCTGAAGTAACAAGCACACCTCTGGA GGAAGTTGTGATGACCTTTCTGAGAAGACTGAGGAGATAACTTCCACTG AAGGAGACCTGAAGGGGjACAGCAGCCCGTACACTTATATCTGAGCC'ITAT GAACCATCTCCTACTCTGCACACATTAGACACAGTCTATGAAAAGCCCAC CCATGAAGAGACGGCAACAGAGGGTTGGTCTGCAGCAGATGITGGATCGT CACCAGAGCCCACATCCAGTGAGTATGAGCGTCCATTGGATGCTGTCTCCT TGGCTGAGTCTGAGCCCATGCAATACTTTGACCCAGATTTGGAGACTAAG TCACAACCAGATGAGGATAAGATGAAAGAAGACACCTTTGCACACCTTAC TCCAACCCCCACCATCTGGGTrAATGACTCCAGTACATCACAGTTATh VGA GGATTCTACTATAGGGGAACCAGGTGTCCCAGGCCAATCACATCTACAAG GACTGACAGACAACATCCACCTTGTGAAAAGTAGTCTAAGGACTCAAGAC ACCTTACTGATTAAAAAGGGTATGAAAGAGATGTCTCAGACACTACAGGG AGGAAATATGCTAGAGGGAGACCCCACACACTCCAGAAGTI'CTGAGAGTG AGGGCCAAGAGAGCAAATCCATCACTTTGCGTGACTCCACACTGGGTATA ATGAGCAGTATGTCTCCAGTTAAGAAGCCTGCGGAAACCACAGTTGGTAC 50 WO 2005/010213 PCT/US2004/022959 CCTCCTAGACAAAGACACCACAACAGTAACAAAACACCAAGGAAA-AA GTTGCTCCGTCATCCACCATGAGCACTCACCCTTCTCGAAGaAGiACCCAAC GGGAGAAGGAGATTACGCCCCAACAAATTCCGCCACCGGGCACAAGCAA CCCCACCCACAACTTTTGCCCCATCAGAGACTTTYJ'CTACTCAACCAACTC AAGCACCTGACATTAAGATTTCAAGTCAAGTGGAGAGTTCTCTGGTITCCTA CAGCTTGGGTGGATAACACAGTTAATAGCCCCAAACAGTTGGAAATGGAG AAGAATGCAGAACCCACATCCAAGGfGAACACCACGGAGAAAACACGGGA AGAGGCCAAACAAACATCGATATACCCCTTCTACAGTGAGCTCAAGAGCG TCCGGATCCAAGCCCAGCCCTTCTCCAGAAAATAAACATAGAAACATTGT TACTCCCAGTI'CAGAAACTATACTTITTGCCTAGAACTGTTUCTCTGAAAAC TGAGGGCCCTTATGATTCCTTAGATTACATGACAACCACCAGAAAAATAT AYFCATJFJ'ACCCTAAAGTCCAAGAGACACTTCCAGTCACATATAAACCCA CATCAGATGGAAAAGAAATTAAGGATGATGTUGCCACAAATGTTGACAAA CATAAAAGTGACATTTTAGTCACTGGTGAATCAATTACTAATGCCATACCA ACTTCTCGCTCCTTGGTCTCCACTATGGGAGAATITAAGGAAGAATCCTCT CCTGTAGGCTTTCCAGGAACTCCAACCTGGAATCCCTCAAGGACGGCCCA GCCTGGGAGGCTACAGACAGACATACCTGTTACCACTTCTGGGGAAAATC TTACAGACCCTCCCCTTCTTAAAGAGCTTGAGGATGTGGATTCACTTCCG AG'ITTTGTCCTCTTTGACAGTCTCCACACCATTTCACCAGGAAGAAGCTG GTTCYL'CCACAACTCTCTCAAGCATAAAAGTGGAGGTGGCTTCAAGTCAG GCAGAAACCACCACCCTTGATCAAGATCATCTTGAAACCACTGTGGCTAT TCTGCTTTCTGAAACTAGACCACAGAATCACACCCCTACTGCTGCCCGGAT GAAGGAGCCAGCATCCTCGTCCCCATCCACAATTCTCATGTGTTTGGGACA AACCACCACCACTAAGCCAGCACTTCCCAGTCCAAGAATATCTCAAGCAT CTAGAGATTCCAAGGAAAATGTUTTCTTGAAIITATGTGGGGAATCCAGAA ACAGAAGCAACCCCAGTGAACAATGAAGGAACACAGCATATGTCAGGGC CAAATGAATTATCAACACCCTCTTCCGACCGGGATGCA'ITTAACTTGTCTA CAAAGCTGGAA1ITGGAAAAGCAAGTATTTGGTAGTAGGAGTCTACCACGT GGCCCAGATAGCCAACGCAGGATGGAAGAG'1TCATGG'TGCTCATCAACT AACCAGAGTCCCTGCCAAACCCATCCTACCAACAGCAACAGTGAGGCTAC CTGAA-ATGTCCACACAAA-GCGCTTCCAGTATACT2FFGTAACTTCCCAGTCAC CTCGTCACTGGACCAACAAACCGGAAATAACTACATATCCTTCTGGGGCT TTGCCAGAGiAACAAACAGTTTACAACTCCAAGA'ITATCAAGTACAACAAT TCCTCTCCCATTGCACATGTGCAAACCCAGCATTCCTAGTAAGTITACTGA CCG-AACGAACTGACCAATFCAATGGTTACTCCAAAGTGTTTGGAAATAACA
ACATCCCTGAGGCAAGAAACCCAGTTGGAAAGCCTCCCAGTCCAAGAAT
CCTCATTATTCCAATGGAAGACTCCTTCTYJACCAACAAGACTCTnC TTCCACAGTTGGGAGTCACCCGGAGACCCCAGATACCCACTTGTGCTGCCC CAGTAATGAGAGAGAGAAAAGTTATTCCAGGTTCCTACAACAGGATACAT TCCCATAGCACCTTGCATCTGGACTTTGGCGCTCCGGCACCTCCGTTGTTG CACACTCCGCAGACCACGGGATCACCCTCAACTAACTTACAGAATATCCC TATGGTCTCTTCCACCCAGAGTTCTATCTCCTTTATAACATCTTCTGTCCAG TCCTCAGGAAGCTTCCACCAGAGCAGCTCAAAG1TTTTTGCAGGAGGACC TCCTGCATCCAAATTCTGGTCTCTTGGGGAAAAGCCCCAAATCCTCACCAA GTCCCCACAGACTGTGTCCGTCACCGCTGAGACAGACACTGTGYJ'CCCCTG TGAGGCAACAGGAAAACCAAAGCCTTTCGUTACTTGGACAAAGGTTTCGA CAGGAGCTCTTATGACTCCGAATACCAGGATACAACGGTTTGAGGTTCTC AAGAACGGTACCTTAGTGATACGGAAGGTTCAAGTACAAGATGGAGGCCA GTATATGTGCACCGGCAGCAACCTGCACGGCCTGGACAGGATGGTGGTGT
TGCTI'TCGGTCACCGTGCAGCAACCTCAAATCCTAGCCTCGCACTACCAGG
WO 2005/010213 PCT11JS2004/022959 ACGTCACTGTCTACCTGGGAGACACCATTGCAATGGAGTGTCTGGCCA-AA GGGACCCCAGCCCCCCAAATTTCCTGGATCTTCCGTGACAGGAGGGTGTG GCAAACTGTGTCCCCCGTGGAGAGCCGCATCACCCTGCACGAAAACCGGA CCCTTTCCATCAAGGAGGCGTCCTTCTCAGACAGAGGCGTCTATAAGTGC GTGGCCAGCAATGCAGGCGGGGCGGACAGCCTGGCCATCCGCCTGCACGT GGCGGCACTGCCCCCGTTATCCACCAGGAGAAGCTGGAGAACATCTCGC TGCCCCCGGGGCTCAGCATTCACATTCACTGCAGTGCCAAGGCTGCGCCCC TGGCCAGCGTGCGCTGGGTGCTCGGGGACGGTACCCAGATCCGCCCCTCG CAGTTCCTCCACGGGAACTTGTTTGTTTCCCCAACGGGACGCTCTACATC CGGAACCTCGCGCCCAAGGACAGGGGGCGCTATGAGTGCGTGGCCGCCAA CCTGGTAGGCTGCGCGCGCAGGACGGTGCAGCTGAACGTGCAGCGTGCAG CAGCCAAGGGCATCACGGGCACGTCGCCGCGGAGGACGGACGTCAG GTACGGAGG3AACCCTCAAGCTGOACTGCAGCGCCTCGGGGGACCCCTGGC GGCGCATCGTCTGGAGGCTGCCGTCCAAGAGGATGATGGACGCGCTCTTC AGTTTGATAGCAGAATCAAGGTGTTTGGCAATGGGACCCTGGTGGTGAA ATCAGTGACGGACAAAGATGCGGGAGATTACCTGTGCGTAGCTGGAAATA AGGTTGGTGATGACTACGTGGTGCTCAAAGTGGATGTGGTGATGAAACCG GCCAAGATTGAACACAAGGAGGAGAACGACCACAAAGTCTTCTACGGGG GTGACCTGAAAGTGGACTGTGTGGCCACCGGGCTTCCCAATCCCGAGATC TCCTGGAGCCTCCCAGACGGGAGTCTGGTGAACTCCTJ'CATGCAGTCGGA TGACAGCGGTGGACGCACCAAGCGCTATGTCGTCTTCAACAATGGGACAC TCTACTITAACGAAGTGGGGATGAGGGAGGAAGGAG-ACTACACCTGCTTT GCTGAAAATCAGGTCGGGAAGGACGAGATGAGAGTCAGAGTCAAGGTGG TGACAGCGCCCGCCACCATCCGGAACAAGACTTACTTGGCGGYJ'CAGGTG CGCTATGGAGACGTGGTCAGTGTAGCCTGTGAGGCCAAAGGAGAACCCAT GCCCAAGGTGACTTGGTTGTCCCCAACCAACAAGGTGATCCCCACCTCCTC TGAGAAGTATCAGATATACCAAGATGGCAGTCTCCTTATTCAGjAAAGCCC AGCGITCTGACAGCGGCAACTACACCTGCGTGGTCAGGAACAGCGCGGGA GAGGATAGGAAGACGGTGTGGA'ITCACGTCAACGTCCAGCCACCCAAGAT CAAGGTAACCCCAACCCCATCACCACCGTGCGGGAGATAGCAGCCGGGG GCAGTCGGAAACTGAMTGACTGGAAAGCTGAAGGCATCCCCACCCCGAGG CGTGITATGGGCTTTTCCCGAGGGTGTGGTTCTGCCAGCTCCATACTATGGA AACCGGATCACTGTCCATGGCAACGGTTCCCTGG-ACATCAGGAGTITGAG GAAGAGCGACTCCGTCCAGCTGGTATGCATGGCACGCAAGGAGGGAGGG GAGGCGAGGTTGATCGTGCAGCTCACTGTCCTGGAGCCGATGGAGAAAGC CATCI7TCCACGACCCGATCAGCGAGAAGATCACGGCCATGGCGGGCCAGA CCATCAGCGTCAACTGCTCTGCCGCGGGGACCCCGACACCCAGCCTGGTG TGGGTCCTTCCCAATGGCACCGATCTGCAGAGTGGACAGCAGCTGCAGCG CTTCTAGCACAAGGCTGACGGCATGCTACACATTAGCGGTCTCTCCTCGGT GGACGGTGGGGCCTACCGCTGCGTGGCCCGGAATGCCGCTGGCCACACGG AGAGGCTGGTCTCCCTGAAGGTGGGACTGAAGGCAGAAGCAAACAAGCA GTATCATAACGTGGTCAGCATCATCAATGGTGAGACCCTGAAGCTCCCCT GCACCCCTCCCGGGGCTGGGCAGGGACGTTTCTCCTGGACGCTCCCCAAT GGCATGCATCTGGAGGGCCCCCAAACCCTGGGACGCGTTTCTGTTCTGGA CAATGGCACCCTGACGGTTCGTGAGGCCTCGGTGTTTGACAGGGGTACCT ATGTATGCAGGATGGAGACGGAGTACGGCGCTTCGGTCACCAGCATCGCCC GTCTATTGTGATGGCCTATCCTCCGCGGATCACCAGCGAGCCCACGCCCGGTC ATCTACACCCGGCCCGGGAACACCGTGAAACTGAAGTGCATGGCTATGGG GA'ITCCCAAAGCTGACATCAGGTGGGAGTTACCGGATAAGTCGCATCTGA AGGCAGGGGYICAGGCTCGTGTGTATGGAAACAGATTJCTTCACCGCCAG 52 WO 2005/010213 PCT/US2004/022959 GGATCACTGACCATCCAGCATGCCACACAGAGAGATGCCGGCTTCTACAA GTGCATGGCAAAAAACATTCTCGGCAGTGACTCCAAAACAACTTACATCC ACGTCTTCTGAAATGTGGATTCCAGAATGATTGCTTAGGAACTGACAACA AAGCGGGGTTTGTAAGGGAAGCCAGGTTGGGGAATAGGAGCTCTTAAATA ATGTGTCACAGTGCATGGTGGCCTCTGGTGGGTTTCAAGTTGAGGTTGATC TTGATCTACAATTGTTGGGAAAAGGAAGCAATGCAGACACGAGAAGGAG GGCTCAGCCTTGCTGAGACACTTTCTTTTGTGTTTACATCATGCCAGGGGC TTCATTCAGGGTGTCTGTGCTCTGACTGCAATTTTTCTTCTTTTGCAAATGC CACTCGACTGCCTTCATAAGCGTCCATAGGATATCTGAGGAACATTCATCA AAAATAAGCCATAGACATGAACAACACCTCACTACCCCATTGAAGACGCA TCACCTAGTTAACCTGCTGCAGTTTTTACATGATAGACTTTGTTCCAGAT' GACAAGTCATCTTTCAGTTATTTCCTCTGTCACTTCAAAACTCCAGCTTGC CCAATAAGGATTTFAGAACCAGAGTGACTGATATATATATATATATYTAAT TCAGAGTTACATACATACAGCTACCATTTTATATGAAAAAAGAAAAACAT TTCTTCCTGGAACTCACTTTATATAATGTTTTATATATATATTTTTTCCTT TCAAATCAGACGATGAGACTAGAAGGAGAAATACTTTCTGTCTTATTAAA ATTAATAAATTATTGGTCTTTACAAGACTTGGATACATTACAGCAGACATG GAAATATAATTTAAAAAATTTCTCTCCAACCTCCTTCAAATTCAGTCACC ACTGTTATATTACCTTCTCCAGGAACCCTCCAGTGGGGAAGGCTGCGATAT TAGATTTCCTTGTATGCAAAGTTTTTGTTGAAAGCTGTGCTCAGAGGAGGT GAGAGGAGAGGAAGGAGAAAACTGCATCATAACTTTACAGAATTGAATC TAGAGTCTTCCCCGAAAAGCCCAGAAACTTCTCTGCAGTATCTGGCTTGTC CATCTGGTCTAAGGTGGCTGCTTCTTCCCCAGCCATGAGTCAGTTTGTGCC CATGAATAATACACGACCTGTTATTTCCATGACTGCTTTACTGTATTTTTA AGGTCAATATACTGTACATTTGATAATAAAATAATATTCTCCCAAAAAAA AAA SEQ ID NO: 95 Cystatin SA >giJl19882252jrefINM001322.21 Homo sapiens cystatin SA (CST2), mRNA | qPCR forward_primer match [302..320] 1 qPCR reverseprimer match [393..370] qPCR probe match [341..369] GCCTCCGAGGAGACCATGGCCTGGCCCCTGTGCACCCTGCTGCTCC TGCTGGCCACCCAGGCTGTGGCCCTGGCCTGGAGCCCCCAGGAGGAGGAC AGGATAATCGAGGGTGGCATCTATGATGCAGACCTCAATGATGAGCGGGT ACAGCGTGCCCTTCACTTTGTCATCAGCGAGTATAACAAGGCCACTGAAG ATGAGTACTACAGACGCCTGCTGCGGGTGCTACGAGCCAGGGAGCAGATC GTGGGCGGGGTGAATTACTTCTTCGACATAGAGGTGGGCCGAACCATATG TACCAAGTCCCAGCCCAACTTGGACACCTGTGCCTTCCATGAACAGCCAG AACTGCAGAAGAAACAGTTGTGCTCTTTCCAGATCTACGAAGTTCCCTGG GAGGACAGAATGTCCCTGGTGAATTCCAGGTGTCAAGAAGCCTAGGGATC TGTGCCAGGGAGTCACACTGACCACCTCCTACTCCCACCCCTTGTAGTGCT CCCACCCCTGGACTGGTGGCCCCCACCCTGTGGGAGGTCTCCCCATGCACC TGCAGCAGGAGAAGACAGAGAAGGCTGCAGGAGGCCTTTGTTGCTCAGC AGGGGACTCTGCCCTCCCTCCTTCCTTTTGCTTCTCATAGCCCTGGTACATG GTACACACACCCCCACCTCCTGCAATTAAACAGTAGCATCACCTC SEQ ID NO: 96 53 WO 2005/010213 PCT/US2004/022959 Cystatin SN >gil198822501ref]NM_001898.21 Homo sapiens cystatin SN (CST1), mRNA | qPCR forwardprimer match [358..376] | qPCR reverseprimer match [449..426] | qPCR probe match [397..425] GGGCTCCCTGCCTCGGGCTCTCACCCTCCTCTCCTGCAGCTCCAGCT TTGTGCTCTGCCTCTGAGGAGACCATGGCCCAGTATCTGAGTACCCTGCTG CTCCTGCTGGCCACCCTAGCTGTGGCCCTGGCCTGGAGCCCCAAGGAGGA GGATAGGATAATCCCGGGTGGCATCTATAACGCAGACCTCAATGATGAGT GGGTACAGCGTGCCCTTCACTTCGCCATCAGCGAGTATAACAAGGCCACC AAAGATGACTACTACAGACGTCCGCTGCGGGTACTAAGAGCCAGGCAACA GACCGTTGGGGGGGTGAATTACTTCTTCGACGTAGAGGTGGGCCGCACCA TATGTACCAAGTCCCAGCCCAACTTGGACACCTGTGCCTTCCATGAACAGC CAGAACTGCAGAAGAAACAGTTGTGCTCTTTCGAGATCTACGAAGTTCCC TGGGAGAACAGAAGGTCCCTGGTGAAATCCAGGTGTCAAGAATCCTAGGG ATCTGTGCCAGGCCATTCGCACCAGCCACCACCCACTCCCACCCCCTGTAG TGCTCCCACCCCTGGACTGGTGGCCCCCACCCTGCGGGAGGCCTCCCCATG TGCCTGCGCCAAGAGACAGACAGAGAAGGCTGCAGGAGTCCTTTGTTGCT CAGCAGGGCGCTCTGCCCTCCCTCCTTCCTTCTTGCTTCTAATAGCCCTGGT ACATGGTACACACCCCCCCACCTCCTGCAATTAAACAGTAGCATCGCCTCC CTCTGAAAAAAAAAAAAAAAAAAAAAAA SEQ ID NO: 97 Lysyl Oxidase-Like Enzyme 2 >gil45050101reflNM_002318.11 Homo sapiens lysyl oxidase-like 2 (LOXL2), mRNA I qPCR forwardprimer match [2205..2223] 1 qPCR reverseprimer match [2286..2269] | qPCR probe match [2261..2229] ACTCCAGCGCGCGGCTACCTACGCTTGGTGCTTGCTTTCTCCAGCCA TCGGAGACCAGAGCCGCCCCCTCTGCT GAGAAAGGGGCTCAGCGGCGGC GGAAGCGGAGGGGGACCACCGTGGAGAGCGCGGTCCCAGCCCGGCCACT GCGGATCCCTGAAACCAAAAAGCTCCTGCTGCTTCTGTACCCCGCCTGTCC CTCCCAGCTGCGCAGGGCCCCTTCGTGGGATCATCAGCCCGAAGACAGGG ATGGAGAGGCCTCTGTGCTCCCACCTCTGCAGCTGCCTGGCTATGCTGGCC CTCCTGTCCCCCCTGAGCCTGGCACAGTATGACAGCTGGCCCCATTACCCC GAGTACTTCCAGCAACCGGCTCCTGAGTATCACCAGCCCCAGGCCCCCGC CAACGTGGCCAAGATTCAGCTGCGCCTGGCTGGGCAGAAGAGGAAGCAC AGCGAGGGCCGGGTGGAGGTGTACTATGATGGCCAGTGGGGCACCGTGTG CGATGACGACTTCTCCATCCACGCTGCCCACGTCGTCTGCCGGGAGCTGG GCTATGTGGAGGCCAAGTCCTGGACTGCCAGCTCCTCCTACGGCAAGGGA GAAGGGCCCATCTGGTTAGACAATCTCCACTGTACTGGCAACGAGGCGAC CCTTGCAGCATGCACCTCCAATGGCTGGGGCGTCACTGACTGCAAGCACA CGGAGGATGTCGGTGTGGTGTGCAGCGACAAAAGGATTCCTGGGTTCAAA TTTGACAATTCGTTGATCAACCAGATAGAGAACCTGAATATCCAGGTGGA GGACATTCGGATTCGAGCCATCCTCTCAACCTACCGCAAGCGCACCCCAG TGATGGAGGGCTACGTGGAGGTGAAGGAGGGCAAGACCTGGAAGCAGAT CTGTGACAAGCACTGGACGGCCAAGAATTCCCGCGTGGTCTGCGGCATGT TTGGCTTCCCTGGGGAGAGGACATACAATACCAAAGTGTACAAAATGTTT GCCTCACGGAGGAAGCAGCGCTACTGGCCATTCTCCATGGACTGCACCGG 54 WO7 2005/010213 PCT/US2004/022959 CAGAGAGGCCCACATGTCCAGCTGCAAGCTGGGCCCCCAGGTGTCACTCG ACCCCATGAAGAATGTCACCTGGGAGAATGGGCTGCCGGCCGTGGTGAGT TGTGTGCCTGGGCAGGTCTCAGCCCTGACGGACCCTCGAGATTCCGGA AGCATACAAGCCAGAGCAACCCCTGGTGCGACTGAGAGGCGGTGCCTACA TCGO~jGGAGGGCCGCGTGGAGGTGCTCAJLTGAGAATGGGGGACCGT CTGCGACGAGAAGTGGGACCTGGTGTCGGCCAGTGTGGTCTGCAGAGAGC TGGGCTTGGGAGTGCCAAAGiAGGCAGTCACTGGCTCCCGACTGGCGCA GGGATCGGACCCATCCACCTCAACGAGATCCAGTGCACAGGCAATGAGA GTCCATTATAGACTGCAAGTTCAATGCCGAGTCTCAGGGCTGCAACCACG AGGAGGATGCTGGTGTGAGATGCAACACCCCTGCCATGGGCTGCAGAAG~ AAGCTGCGCCTGAACGGCGGCCGCAATCCCTACGAGGGCCGAGTGGAGGT GCTGGTGGAGAGAAACGGGTCCCTTGTGTGGGGGATGGTGTGTGGCCAA ACTGGGGCATCGTGGAGGCCATGGTGGTCTGCCGCCAGCTGGGCCTGGGA 'JTCGCCAGCAACGCCTTCCAGGAGACCTGGTATTGGCACGGAGATGTCAA CAGCAACAAAGTGGTCATGAGTGGAGTGAAGTGCTCGG~wGAACGGAGCTG TCCCTGGCGCACTGCCGCCACGACGGGGAGGACGTGGCCTGCCCCCAGGG CGGAGTGCAGTACGGGGCCGGAGTTGCCTGCTCAGKAACGGCCCCTGACC TGGTCCTCAATGCGGAGATGGTGCAGCAGACCACCTAGCTGGAGGACCG(J CCCATGTTCATGCTGCAGTGTGCCATGGAGGAGACTGCCTCTCGGCCTCA GCCGCGCAGACCGACCCCACCACGGGCTACCGCCGGCTCCTGCGCflCTC CTCAACAACAGCATCGCTCGCAGAGC GCCACGCGTGGATCTGGCACGACTGTCACAGGCACTAGCACAGCATGGAG GTGTTCACCCACTATGACCTGCTGAACCTCAATGGCACCAAGGTGGCAGA GGGCCACAAGGCCAGCTTCTGCTTGGAGGACACAGATGTGAGGAGAC ATCCAGAAGAATTACGAGTGTGCCAACITGGGCGATCAGGGCATCACCAT GGGCTGCTGGGACATGTACCGCCATGACATCGACTGCCAGTGGG'piTGACA TCACTGACGTGCCCCCTGGAGACTACCTGTTCCAGGrGATTAACCCCA ACTTCGAGGTTGCAGAATCCGATTACTCCAACAACATCATGA-TGCAGG AGGCGCTATGAGGGCCACCGCATGTGGATGTACAACTGCCACATAGGTGG TTCCTTCAGCGAAGAGACGGAAAAAAAGTTGAGCACTTCAGCeGyGCTCT TAAACACGCCGATAAAGCGGGTACCT TCTTCAGGCCACACCACATCTTCCATGGGACTCCCCCCAACAACTGAGTC TGAACGAATGCCACGTGCCCTCACGCAGCCCGGCCCCCACCCTGTCCAGA CCCCTACAGCTGTGTCTAAGCTCAGGAGGAAAGGGACCCTGCGATCATTC ATGGGGGGCTGCTACGTGACCCTTGGGGCCTGAGAAGGCCTTGGGGGGGT GGGGTTTGTCCACAGAGCTGCTGGAGCAGCACCAAGAGCCAGTCpT'GACC GGGATGAGGCCCACAGACAGGTTGTCATCAGCTTGTCCCATTCAAGCCAC CGAGCTCAGCACAGACACAGTGGAGCCGCGCTCTTCTCCAGTGAGAGGTG GACAAATGCGGGCTCATCAGCCCCCCCAGAGAGGGTAGGCCGACCCCA TTTGTGCTCCTCTTAGGTCATTTTCAGCAAACYJ'GAATATCTAGACCTCTCT TCCATGAAACCCTCCAGTCTATTATAGTCACATAGATAJATGGTGCCACGT GT=rCTGATTTGGTGAGCTCAGACTTGGTGCTTCCCTCTCCACACCCGC ACCCCTTGTTnTCAAGATACTATATATATPCACAGACTTTGAAGCA CAAATTTATTGGCATITAATATTGGACATCTGGGCCTTGGAAGTACAAAT CTA-AGGAAAAACCAACCCACTGTGTAAGTGACTCATCTTCCTGTTGTTCCA ATTCTGTGGGTTITTGATTCAAGGGTGCTATAACCAGGGTCCTGGGTGACA GGGCGCTCACTGAGCACCATGTGTCATCACAGACACTTACACATACpT'GA AACTTGGAATAAAAGAAAGATTTATG SEQ ID NO: 98 55 WO 2005/010213 PCT/US2004/022959 Thyroglobulin >gil33589851lreflNM 003235.31 Homo sapiens thyroglobulin (TG), mRNA qPCR forwardjprimer match [886..905] 1 qPCR reverseprimer match [962..941] qPCR probe match [915..939] GCAGTGGTTTCTCCTCCTTCCTCCCAGGAAGGGCCAGGAAAATGGC CCTGGTCCTGGAGATCTTCACCCTGCTGGCCTCCATCTGCTGGGTGTCGGC CAATATCTTCGAGTACCAGGTTGATGCCCAGCCCCTTCGTCCCTGTGAGCT GCAGAGGGAAACGGCCTTITCTGAAGCAAGCAGACTACGTGCCCCAGTGTG CAGAGGATGGCAGCTTCCAGACTGTCCAGTGCCAGAACGACGGCCGCTCC TGCTGGTGTGTGGGTGCCAACGGCAGTGAAGTGCTGGGCAGCAGGCAGCC AGGACGGCCTGTGGCTTGTCTGTCATTTTGTCAGCTACAGAAACAGCAGA TCTTACTGAGTGGCTACATTAACAGCACAGACACCTCCTACCTCCCTCAGT GTCAGGATTCAGGGGACTACGCGCCTGTTCAGTGTGATGTGCAGCATGTC CAGTGCTGGTGTGTGGACGCAGAGGGGATGGAGGTGTATGGGACCCGCCA GCTGGGGAGGCCAAAGCGATGTCCAAGGAGCTGTGAAATAAGAAATCGT CGTCTTCTCCACGGGGTGGGAGATAAGTCACCACCCCAGTGTTCTGCGGA GGGAGAGTTTATGCCTGTCCAGTGCAAATTTGTCAACACCACAGACATGA TGATTTTTGATCTGGTCCACAGCTACAACAGGTTTCCAGATGCATTTGTGA CCTTCAGTTCCTTCCAGAGGAGGTTCCCTGAGGTATCTGGGTATTGCCACT GTGCTGACAGCCAAGGGCGGGAACTGGCTGAGACAGGTTTGGAGTTGYA CTGGATGAAATTTATGACACCATTTTTGCTGGCCTGGACCTTCCTTCCACC TTCACTGAAACCACCCTGTACCGGATACTGCAGAGACGGTTCCTCGCAGTT CAATCAGTCATCTCTGGCAGATTCCGATGCCCCACAAAATGTGAAGTGGA GCGGTTTACAGCAACCAGCTTTGGTCACCCCTATGTTCCAAGCTGCCGCCG AAATGGCGACTATCAGGCGGTGCAGTGCCAGACGGAAGGGCCCTGCTGGT GTGTGGACGCCCAGGGGAAGGAAATGCATGGAACCCGGCAGCAAGGGGA GCCGCCATCTTGTGCTGAAGGCCAATCTTGTGCCTCCGAAAGGCAGCAGG CCTTGTCCAGACTCTACTTTGGGACCTCAGGCTACTTCAGCCAGCACGACC TGTTCTCTTCCCCAGAGAAAAGATGGGCCTCTCCAAGAGTAGCCAGATTT GCCACATCCTGCCCACCCACGATCAAGGAGCTCTTTGTGGACTCTGGGCTT CTCCGCCCAATGGTGGAGGGACAGAGCCAACAGTTTTCTGTCTCAGAAAA TCTTCTCAAAGAAGCCATCCGAGCAATThTCCCTCCCGAGGGCTGGCTCG TCTTGCCCTTCAGTTTACCACCAACCCAAAGAGACTCCAGCAAAACCTTTT TGGAGGGAAATTTTTGGTGAATGTTGGCCAGTTTAACTTGTCTGGAGCCCT TGGCACAAGAGGCACATTTAACTTCAGTCAATTTTTCCAGCAACTTGGTCT TGCAAGCTTCTTGAATGGAGGGAGACAAGAAGATTTGGCCAAGCCACTCT CTGTGGGATTAGATTCAAATTCTTCCACAGGAACCCCTGAAGCTGCTAAG AAGGATGGTACTATGAATAAGCCAACTGTGGGCAGCTTTGGCTTFGAAAT TAACCTACAAGAGAACCAAAATGCCCTCAAATTCCTTGCTTCTCTCCTGGA GCTTCCAGAATTCCTTCTCTTCTTGCAACATGCTATCTCTGTGCCAGAAGA TGTGGCAAGAGATTTAGGTGATGTGATGGAAACGGTACTCGACTCCCAGA CCTGTGAGCAGACACCTGAAAGGCTATTTGTCCCATCATGCACGACAGAA GGAAGCTATGAGGATGTCCAATGCTTTTCCGGAGAGTGCTGGTGTGTGAA TTCCTGGGGCAAAGAGCTTCCAGGCTCAAGAGTCAGAGATGGACAGCCAA GGTGCCCCACAGACTGTGAAAAGCAAAGGGCTCGCATGCAAAGCCTCATG GGCAGCCAGCCTGCTGGCTCCACCTTGTTTGTCCCTGCTTGTACTAGTGAG GGACATTTCCTGCCTGTCCAGTGCTTCAACTCAGAGTGCTACTGTGTTGAT GCTGAGGGTCAGGCCATTCCTGGAACTCGAAGTGCAATAGGGAAGCCCAA 56 WO 2005/010213 PCT/US2004/022959 GAAATGCCCCACGCCCTGTCAATTACAGTCTGAGCAAGCTTTCCTCAGGA CGGTGCAGGCCCTGCTCTCTAACTCCAGCATGCTACCCACCCTITCCGACA CCTACATCCCACAGTGCAGCACCGATGGGCAGTGGAGACAAGTGCAATGC AATGGGCCTCCTGAGCAGGTCTTCGAGTTGTACCAACGATGGGAGGCTCA GAACAAGGGCCAGGATCTGACGCCTGCCAAGCTGCTAGTGAAGATCATGA GCTACAGAGAAGCAGCTTCCGGAAACTTCAGTCTCTTTATTCAAAGTCTGT ATGAGGCTGGCCAGCAAGATGTCTTCCCGGTGCTGTCACAATACCCTTCTC TGCAAGATGTCCCACTAGCAGCACTGGAAGGGAAACGGCCCCAGCCCAG GGAGAATATCCTCCTGGAGCCCTACCTCTTCTGGCAGATCTTAAATGGCCA ACTCAGCCAATACCCGGGGTCCTACTCAGACTTCAGCACTCCTTTGGCACA TTTTGATCTTCGGAACTGCTGGTGTGTGGATGAGGCTGGCCAAGAACTGG AAGGAATGCGGTCTGAGCCAAGCAAGCTCCCAACGTGTCCTGGCTCCTGT GAGGAAGCAAAGCTCCGTGTACTGCAGTTCATTAGGGAAACGGAAGAGA TTGTTTCAGCTTCCAACAGTTCTCGGTTCCCTCTGGGGGAGAGTTTCCTGG TGGCCAAGGGAATCCGGCTGAGGAATGAGGACCTCGGCCTTCCTCCGCTC TTCCCGCCCCGGGAGGCTTTCGCGGAGTTTCTGCGTGGGAGTGATTACGCC ATTCGCCTGGCGGCTCAGTCTACCTTAAGCTTCTATCAGAGACGCCGCTTT TCCCCGGACGACTCGGCTGGAGCATCCGCCCTTCTGCGGTCGGGCCCCTAC ATGCCACAGTGTGATGCGTTTGGAAGTTGGGAGCCTGTGCAGTGCCACGC TGGGACTGGGCACTGCTGGTGTGTAGATGAGAAAGGAGGGTTCATCCCTG GCTCACTGACTGCCCGCTCTCTGCAGATTCCACAGTGCCCGACAACCTGCG AGAAATCTCGAACCAGTGGGCTGCTTTCCAGTTGGAAACAGGCTAGATCC CAAGAAAACCCATCTCCAAAAGACCTGTTCGTCCCAGCCTGCCTAGAAAC AGGAGAATATGCCAGGCTGCAGGCATCGGGGGCTGGCACCTGGTGTGTGG ACCCTGCATCAGGAGAAGAGTTGCGGCCTGGCTCGAGCAGCAGTGCCCAG TGCCCAAGCCTCTGCAATGTGCTCAAGAGTGGAGTCCTCTCTAGGAGAGT CAGCCCAGGCTATGTCCCAGCCTGCAGGGCAGAGGATGGGGGCTTTTCCC CAGTGCAATGTGACCAGGCCCAGGGCAGCTGCTGGTGTGTCATGGACAGC GGAGAAGAGGTGCCTGGGACGCGCGTGACCGGGGGCCAGCCCGCCTGTG AGAGCCCGCGGTGTCCGCTGCCATTCAACGCGTCGGAGGTGGTTGGTGGA ACAATCCTGTGTGAGACAATCTCGGGCCCCACAGGCTCTGCCATGCAGCA GTGCCAATTGCTGTGCCGCCAAGGCTCCTGGAGCGTGTTCCACCAGGGC CATTGATATGTAGCCTGGAGAGCGGACGCTGGGAGTCACAGCTGCCTCAG CCCCGGGCCTGCCAACGGCCCCAGCTGTGGCAGACCATCCAGACCCAAGG GCACTTTCAGCTCCAGCTCCCGCCGGGCAAGATGTGCAGTGCTGACTACG CGGGTTTGCTGCAGACTTTCCAGGTTTTCATATTGGATGAGCTGACAGCCC GCGGCTTCTGCCAGATCCAGGTGAAGACTGGCACCCTGGTTTCCATTC CTGTCTGCAACAACTCCTCTGTGCAGGTGGGTTGTCTGACCAGGGAGCGTT TAGGAGTGAATGTTACATGGAAATCACGGCTTGAGGACATCCCAGTGGCT TCTCTTCCTGACTTACATGACATTGAGAGAGCCTTGGTGGGCAAGATCTC CTTGGGCGCTTCACAGATCTGATCCAGAGTGGCTCATTCCAGCTTCATCTG GACTCCAAGACGTTCCCAGCGGAAACCATCCGCTTCCTCCAAGGGGACCA CTTTGGCACCTCTCCTAGGACACGGTTTGGGTGCTCGGAAGGATTCTACCA AGTCTTGACAAGTGAGGCCAGTCAGGACGGACTGGGATGCGTTAAGTGCC ATGAAGGAAGCTATTCCCAAGATGAGGAATGCATTCCTTGTCCTGTTGGA TTCTACCAAGAACAGGCAGGGAGCTTGGCCTGTGTCCCATGTCCTGTGGG CAGAACGACCATTTCTGCCGGAGCTTTCAGCCAGACTCACTGTGTCACTGA CTGTCAGAGGAACGAAGCAGGCCTGCAATGTGACCAGAATGGCCAGTATC GAGCCAGCCAGAAGGACAGGGGCAGTGGGAAGGCCTTCTGTGTGGACGG CGAGGGGCGGAGGCTGCCATGGTGGGAAACAGAGGCCCCTCTTGAGGAC 57 WO 2005/010213 PCT/US2004/022959 TCACAGTGTTI'GATGATGCAGAAG-TITGAGAAGGTTCCAGAATCAAAGGT GATCTTGGACGCCA-ATGCTCCTGTGGCTGTCAGATGCAAAGTTCCTGATTC TG3AGTTGCCCGTGATGjCAGTGCTTGACAGATTGCACAGAGIGACGAGGCCT GCAGCTTCITTACCGTGTCCACGACGGAGCCAGAG-ATTTCCTGTGATTTCT ATGCTTGGACAAGTGACAATGTTGCCTGCATGACTTCTGACCAGAAACGA GATGCACTGGGGAACTCAAAGGCCACCAGC2ITTGGAAGTCTTGGCTGCCA GGTGAAAGTGAGGAGCCATGGTCAAGATTCTCCAGCTGTGTATTTGAAAA AGGGCCAAGGATCCACCACAACACTI'CAGAAACGGTTTGAACCCACTGGT TTCCAAAACATGCTTTCTGGATTGTACAACCCCATTGTGTTCTCAGCCTCA GGAGCCAATCTAA.CCGATGCTCACCTCTTCTGTCTTCUTGCATGCGACCGT GATCTGTGTTGCGATGGCTTCGTCCTCACACAGGTTCAAGGAGGTGCCATC ATCTGTGGGTTGCTGAGCTCACCCAGTGTCCTGCTTTGTAATGTCAAAGAC TGGATGGATCCCTCTGAAGCCTGGGCTAATGCTACATGTCCTGGTGTGACA TATGACCAGGAGAGCCACCAGGTGATATTGCGTCTTGGAGACCAGGAGTT CATCAAGAGTCTGACACCCTTAGAAGGAACTCAAGACACCTTTACGAATT TTCAGCAGGTTTATCTCTGGAAAGATTCTGACATGGGGTCTCGGCCTGAGT CTATGGGATGTAGAAAAAACACAGTGCCAAGGCCAGCATCTCCAACAGA AGCAGGTITGACAACAGAACTTFJTCTCCCCTGTGGACCTCAACCAGGTCAT TGTCAATGGAAATCAATCACTATCCAGCCAGAAGCACTGGCTTTTCAAGC ACCTGTTTTCAGCCCAGCAGGCAAACCTATGGTGCCTTTCTCGTTGTGTGC AGGAGCACTCTTTCTGTCAGCTCGCAGAGATAACAGAGAGTGCATCCTTG TACTTCACCTGCACCCTGTACCCAGAGGCACAGGTGTGTGATGACATCATG CCTGTTCCGGAAGAAAGIITATACTGGAAGATAAAGTGAAGAACTIIACA CTCGCCTGCCGTTCGAALAAACTGATGGGGATATCCATTAGAAATAAAGTG CCCATGTCTGAAAAATCTATTTCTAATGGGi-TCTTTGAATGTGAACGACGG TGCGATGCGGACCCATGCTGCACTGGCThJ'GGATTTCTAAATGTTTCCCAG. TTAAAAGGAGGAGAGGTGACATGTCTCACTGTGAACAGCTTGGGAATTCA GATGTGCAGTGAGGAGAATGGAGGAGCCTGGCGCATTTGGACTGTGGCT CTCCTGACATTGAAGTCCACACCTATCCCTTCGGATGGTACGAGAAGCCCA TTGCTCAAAATAATGCTCCCAGTTTTTGCCCTTTGC-TTGTTCTGCCTTCCCT CACACGAGAAAGTGTCTCTGGAATCGTGGCAG3TCCCTGGCCGTGTCTTCAGT GGIITGTTGATCCATCCATTAGGCACTTTGATGTTGCCCATCGTCAGCACTGC TGCCACCAGCA-ATTTCTCTGCTGTCCGAGACCTCTGTTTGTCGGAATGTTC CCAACATGAGGCCTGTCTCATCACCACTCTGCAAACGCAACTCGGGGCTG TGAGATGTATGITCTATGCTGATACTCAAAGCTGCACACATAGTCTGCAGG GTCGGAACTGCCGACTTCTGCTTCGTGAAGAGGCCACCCACATCTACCGG AAGCCAGGAATCTCTCTGCTCAGCTATGAGGCATCTGTACCTTCTGTGCCC A1ITTCCACCCATGGCCGGCTGCTGGGCAGGTCCCAGGCCATCCAGGTGGG TACCTCATGGAAGCAAGTGGACCAGTTCCTTGGAGTTGCATATGCTGCCCC GCCCCTGGCAGAGAGGCACTTCCAGGCACCAGAGCCCITGAACTGGACAG GCTCCTGGGATGCCAGCAAGCCAAGGGCCAGCTGCTGGCAGCCAGGCACC AGAAGATCCACGTCTCGTGGAGTCAGTGAAGATTGTTTGTATCTCAATGTG 'JTCATCCCTCAGAATGTGGCCGCTAACGCGTCTGTGCTGGTGTTCTTCCAC AACACCATGG-ACAGGGAGGAGAGTGAAGGATGGCCGGCTATCGACGGCT CCTTCTTGGCTGCTGTTGGCAACCTCATCGTGGTCACTGCCAGCTACCGAG TGGGTGTCTIFCGGCTTCCTGACGTTCTGGATCCGGAGAGGTGAGTGGCAACT GGGGGCTGCTGGACCAGGTGGCGGCTCTGAGCTGGGTGCAGACCGACATC CGAGGATTTGGCGGGGACCCTCGGCGCGTGTCCCTGGCAGCAGACCGTGG CGGGGCTGATGTGGCCAGCATCCACCTTGTCACGGCCAGGGCCAGCAACT 58 WO 2005/010213 PCT/US2004/022959 CCCAACTTTCCGGAGAGCTGTGCTGATGGGAGGCTCCGCACTCTCCCCGG CCGCCGTCATCAGCCATGAGAGGGCTCAGCAGCAGGCAATTGCTTTGGCA AAGGAGGTCAGTTGCCCCATGTCATCCAGCCAAGAAGTGGTGTCCTGCCT CCGCCAGAAGCCTGCCAATGTCCTCAATGATGCCCAGACCAAGCTCCTGG CCGTGAGTGGCCCTTTCCACTACTGGGGTCCTGTGATCGATGGCCACTTCC TCCGTGAGCCTCCAGCCAGAGCACTGA-AGAGGTCTTTATGGGTAGAGGTC GATCTGCTCATTGGGAGTTCTCAGGACGACGGGCTCATCAACAGAGCAAA GGCTGTGAAGCAATTTGAGGAAAGTCGAGGCCGGACCAGTAGCAAAACA GCCTTTTACCAGGCACTGCAGAATTCTCTGGGTGGCGAGGACTCAGATGC CCGCGTCGAGGCTGCTGCTACATGGTATTACTCTCTGGAGCACTCCACGGA TGACTATGCCTCCTTCTCCCGGGCTCTGGAGAATGCCACCCGGGACTACTT TATCATCTGCCCTATAATCGACATGGCCAGTGCCTGGGCAA-AGAGGGCCC GAGGAAACGTCTTCATGTACCATGCTCCTGAAAACTACGGCCATGGCAGC CTGGAGCTGCTGGCGGATGTTCAGTTTGCCTTGGGGCTTCCCTTCTACCCA GCCTACGAGGGGCAGTTTTCTCTGGAGGAGAAGAGCCTGTCGCTGAAAAT CATGCAGTACTTTTCCCACTTCATCAGATCAGGAAATCCCAACTACCCTTA TGAGTTCTCACGGAAAGTACCCACATTTGCAACCCCCTGGCCTGACTTTGT ACCCCGTGCTGGTGGAGAGAACTACAAGGAGTTCAGTGAGCTGCTCCCCA ATCGACAGGGCCTGAAGAAAGCCGACTGCTCCTTCTGGTCCAAGTACATC TCGTCTCTGAAGACATCTGCAGATGGAGCCAAGGGCGGGCAGTCAGCAGA GAGTGAAGAGGAGGAGTTGACGGCTGGATCTGGGCTAAGAGAAGATCTC CTAAGCCTCCAGGAACCAGGCTCTAAGACCTACAGCAAGTGACCAGCCCT TGAGCTCCCCAAAAACCTCACCCGAGGCTGCCCACTATGGTCATCTTTTTC TCTAAAATAGTTACTTACCTTCAATAAAGTATCTACATGCGGTG SEQ ID NO: 99 Transforming Growth Factor, Beta 1 >gil108638721ref]NM_000660.11 Homo sapiens transforming growth factor, beta 1 (Camurati-Engelmann disease) (TGFB1), mRNA I qPCR forward_primer match [1651..1668] | qPCR reverseprimer match [1539.1557] | qPCR probe match [1687..1713] ACCTCCCTCCGCGGAGCAGCCAGACAGCGAGGGCCCCGGCCGGGG GCAGGGGGGACGCCCCGTCCGGGGCACCCCCCCCGGCTCTGAGCCGCCCG CGGGGCCGGCCTCGGCCCGGAGCGGAGGAAGGAGTCGCCGAGGAGCAGC CTGAGGCCCCAGAGTCTGAGACGAGCCGCCGCCGCCCCCGCCACTGCGGG GAGGAGGGGGAGGAGGAGCGGGAGGAGGGACGAGCTGGTCGGGAGAAG AGGAAAAAAACTTTTGAGACTTTTCCGTTGCCGCTGGGAGCCGGAGGCGC GGGGACCTCTTGGCGCGACGCTGCCCCGCGAGGAGGCAGGACTTGGGGAC CCCAGACCGCCTCCCTTTGCCGCCGGGGACGCTTGCTCCCTCCCTGCCCCC TACACGGCGTCCCTCAGGCGCCCCCATTCCGGACCAGCCCTCGGGAGTCG CCGACCCGGCCTCCCGCAAAGACTTTTCCCCAGACCTCGGGCGCACCCCCT GCACGCCGCCTTCATCCCCGGCCTGTCTCCTGAGCCCCCGCGCATCCTAGA CCCTTTCTCCTCCAGGAGACGGATCTCTCTCCGACCTGCCACAGATCCCCT ATTCAAGACCACCCACCTTCTGGTACCAGATCGCGCCCATCTAGGTTATTT CCGTGGGATACTGAGACACCCCCGGTCCAAGCCTCCCCTCCACCACTGCG CCCTTCTCCCTGAGGAGCCTCAGCTTTCCCTCGAGGCCCTCCTACCTTTTGC CGGGAGACCCCCAGCCCCTGCAGGGGCGGGGCCTCCCCACCACACCAGCC 59 WO 2005/010213 PCT/US2004/022959 CTGTTCGCGCTCTCGGCAGTGCCGGGGGGCGCCGCCTCCCCCATGCCGCCC TCCGGGCTGCGGCTGCTGCCGCTGCTGCTACCGCTGCTGTGGCTACTGGTG CTGACGCCTGGCCCGCCGGCCGCGGGACTATCCACCTGCAAGACTATCGA CATGGAGCTGGTGAAGCGGAAGCGCATCGAGGCCATCCGCGGCCAGATCC TGTCCAAGCTGCGGCTCGCCAGCCCCCCGAGCCAGGGGGAGGTGCCGCCC GGCCCGCTGCCCGAGGCCGTGCTCGCCCTGTACAACAGCACCCGCGACCG GGTGGCCGGGGAGAGTGCAGAACCGGAGCCCGAGCCTGAGGCCGACTAC TACGCCAAGGAGGTCACCCGCGTGCTAATGGTGGAAACCCACAACGAAAT CTATGACAAGTTCAAGCAGAGTACACACAGCATATATATGTTCTTCAACA CATCAGAGCTCCGAGAAGCGGTACCTGAACCCGTGTTGCTCTCCCGGGCA GAGCTGCGTCTGCTGAGGAGGCTCAAGTTAAAAGTGGAGCAGCACGTGGA GCTGTACCAGAAATACAGCAACAATTCCTGGCGATACCTCAGCAACCGGC TGCTGGCACCCAGCGACTCGCCAGAGTGGTTATCTTTTGATGTCACCGGAG TTGTGCGGCAGTGGTTGAGCCGTGGAGGGGAAATTGAGGGCTTTCGCCTT AGCGCCCACTGCTCCTGTGACAGCAGGGATAACACACTGCAAGTGGACAT CAACGGGTTCACTACCGGCCGCCGAGGTGACCTGGCCACCATTCATGGCA TGAACCGGCCTTTCCTGCTTCTCATGGCCACCCCGCTGGAGAGGGCCCAGC ATCTGCAAAGCTCCCGGCACCGCCGAGCCCTGGACACCAACTATTGCTTC AGCTCCACGGAGAAGAACTGCTGCGTGCGGCAGCTGTACATTGACTTCCG CAAGGACCTCGGCTGGAAGTGGATCCACGAGCCCAAGGGCTACCATGCCA ACTTCTGCCTCGGGCCCTGCCCCTACATTTGGAGCCTGGACACGCAGTACA GCAAGGTCCTGGCCCTGTACAACCAGCATAACCCGGGCGCCTCGGCGGCG CCGTGCTGCGTGCCGCAGGCGCTGGAGCCGCTGCCCATCGTGTACTACGT GGGCCGCAAGCCCAAGGTGGAGCAGCTGTCCAACATGATCGTGCGCTCCT GCAAGTGCAGCTGAGGTCCCGCCCCGCCCCGCCCCGCCCCGGCAGGCCCG GCCCCACCCCGCCCCGCCCCCGCTGCCTTGCCCATGGGGGCTGTATTTAAG GACACCGTGCCCCAAGCCCACCTGGGGCCCCATTAAAGATGGAGAGAGG ACTGCGGATCTCTGTGTCATTGGGCGCCTGCCTGGGGTCTCCATCCCTGAC GTTCCCCCACTCCCACTCCCTCTCTCTCCCTCTCTGCCTCCTCCTGCCTGTC TGCACTATTCCTTTGCCCGGCATCAAGGCACAGGGGACCAGTGGGGAACA CTACTGTAGTTAGATCTATTTATTGAGCACCTTGGGCACTGTTGAAGTGCC TTACATTAATGAACTCATTCAGTCACCATAGCAACACTCTGAGATGGCAG GGACTCTGATAACACCCATTTTAAAGGTTGAGGAAACAAGCCCAGAGAGG TTAAGGGAGGAGTTCCTGCCCACCAGGAACCTGCTTTAGTGGGGGATAGT GAAGAAGACAATAAAAGATAGTAGTTCAGGCCAGGCGGGGTGCTCACGC CTGTAATCCTAGCACITTGGGAGGCAGAGATGGGAGGATACTTGAATCC AGGCATTTGAGACCAGCCTGGGTAACATAGTGAGACCCTATCTCTACAAA ACACTYTAAAAAATGTACACCTGTGGTCCCAGCTACTCTGGAGGCTAAG GTGGGAGGATCACTTGATCCTGGGAGGTCAAGGCTGCAG , SEQ ID NO: 100 Serine Proteinase Inhibitor, Clade H, Member 1 >gil32454740|refNM_001235.2 Homo sapiens serine (or cysteine) proteinase inhibitor, clade H (heat shock protein 47), member 1, (collagen binding protein 1) (SERPINH1), mRNA |qPCR assay on_demandcontext match [184..208] TCTTTGGCTTTTTTTGGCGGAGCTGGGGCGCCCTCCGOAAGCGTTTC CAACTTTCCAGAAGTTTCTCGGGACGGGCAGGAGGGGGTGGGGACTGCCA 60 WO 2005/010213 PCT/US2004/022959 TATATAGATCCCGGGAGCAGGGGAGCGGGCTAAGAGTAGAATCGTGTCGC GGCTCGAGAGCGAGAGTCACGTCCCGGCGCTAGCCCAGCCCGACCCAGGC CCACCGTGGTGCACGCAAACCACTTCCTGGCCATGCGCTCCCTCCTGCTTC TCAGCGCCTTCTGCCTCCTGGAGGCGGCCCTGGCCGCCGAGGTGAAGAAA CCTGCAGCCGCAGCAGCTCCTGGCACTGCGGAGAAGTTGAGCCCCAAGGC GGCCACGCTTGCCGAGCGCAGCGCCGGCCTGGCCTTCAGCTTGTACCAGG CCATGGCCAAGGACCAGGCAGTGGAGAACATCCTGGTGTCACCCGTGGTG GTGGCCTCGTCGCTAGGGCTCGTGTCGCTGGGCGGCAAGGCGACCACGGC GTCGCAGGCCAAGGCAGTGCTGAGCGCCGAGCAGCTGCGCGACGAGGAG GTGCACGCCGGCCTGGGCGAGCTGCTGCGCTCACTCAGCAACTCCACGGC GCGCAACGTGACCTGGAAGCTGGGCAGCCGACTGTACGGACCCAGCTCAG TGAGCTTCGCTGATGACTTCGTGCGCAGCAGCAAGCAGCACTACAACTGC GAGCACTCCAAGATCAACTTCCGCGACAAGCGCAGCGCGCTGCAGTCCAT CAACGAGTGGGCCGCGCAGACCACCGACGGCAAGCTGCCCGAGGTCACC AAGGACGTGGAGCGCACGGACGGCGCCCTGCTAGTCAACGCCATGTTCTT CAAGCCACACTGGGATGAGAAATTCCACCACAAGATGGTGGACAACCGTG GCTTCATGGTGACTCGGTCCTATACCGTGGGTGTCATGATGATGCACCGGA CAGGCCTCTACAACTACTACGACGACGAGAAGGAAAAGCTGCAAATCGTG GAGATGCCCCTGGCCCACAAGCTCTCCAGCCTCATCATCCTCATGCCCCAT CACGTGGAGCCTCTCGAGCGCCTTGAAAAGCTGCTAACCAAAGAGCAGCT GAAGATCTGGATGGGGAAGATGCAGAAGAAGGCTGTTGCCATCTCCTTGC CCAAGGGTGTGGTGGAGGTGACCCATGACCTGCAGAAACACCTGGCTGGG CTGGGCCTGACTGAGGCCATTGACAAGAACAAGGCCGACTTGTCACGCAT GTCAGGCAAGAAGGACCTGTACCTGGCCAGCGTGTTCCACGCCACCGCCT TTGAGTTGGACACAGATGGCAACCCCTTTGACCAGGACATCTACGGGCGC GAGGAGCTGCGCAGCCCCAAGCTGTTCTACGCCGACCACCCCTTCATCTTC CTAGTGCGGGACACCCAAAGCGGCTCCCTGCTATTCATTGGGCGCCTGGT CCGGCCTAAGGGTGACAAGATGCGAGACGAGTTATAGGGCCTCAGGGTGC ACACAGGATGGCAGGAGGCATCCAAAGGCTCCTGAGACACATGGGTGCT ATTGGGGTTGGGGGGGAGGTGAGGTACCAGCCTTGGATACTCCATGGGGT GGGGGTGGAAAAACAGACCGGGGTTCCCGTGTGCCTGAGCGGACCTTCCC AGCTAGAATTCACTCCACTTGGACATGGGCCCCAGATACCATGATGCTGA GCCCGGAAACTCCACATCCTGTGGGACCTGGGCCATAGTCATTCTGCCTGC CCTGAAAGTCCCAGATCAAGCCTGCCTCAATCAGTATTCATATTTATAGCC AGGTACCTTCTCACCTGTGAGACCAAATTGAGCTAGGGGGGTCAGCCAGC CCTCTTCTGACACTAAAACACCTCAGCTGCCTCCCCAGCTCTATCCCAACC TCTCCCAACTATAAAACTAGGTGCTGCAGCCCCTGGGACCAGGCACCCCC AGAATGACCTGGCCGCAGTGAGGCGGATTGAGAAGGAGCTCCCAGGAGG GGCTTCTGGGCAGACTCTGGTCAAGAAGCATCGTGTCTGGCGTTGTGGGG ATGAACTTTTTGTTTTGTTTCTTCCTTTTAGTTCTTCAAAGATAGGGAGG GAAGGGGGAACATGAGCCTTTGTTGCTATCAATCCAAGAACTTATTTGTA CATTTTTTTTTTCAATAAAACTTTTCCAATGACATTTTGTTGGAGCGTGGAA AAAA SEQID NO: 101 Serine Proteinase Inhibitor, Clade B, Member 5 >giJ45057881ref]NM_002639.1 Homo sapiens shrine (or cysteine) proteinase inhibitor, clade B (ovalbumin), member 5 (SERPINB5), mRNA I qPCR 61 WO 2005/010213 PCT/US2004/022959 forwardprimer match [36..56] 1 qPCR reverseprimer match [106..86] | qPCR probe match [60..80] GGCACGAGITGTGCTCCTCGCTTGCCTGTTCCTTTTCCACGCATTTT CCAGGATAACTGTGACTCCAGGCCCGCAATGGATGCCCTGCAACTAGCAA ATTCGGCTTTTGCCGTTGATCTGTTCAAACAACTATGTGAAAAGGAGCCAC TGGGCAATGTCCTCTTCTCTCCAATCTGTCTCTCCACCTCTCTGTCACTTGC TCAAGTGGGTGCTAAAGGTGACACTGCAAATGAAATTGGACAGGTTCTTC ATTTTGAAAATGTCAAAGATATACCCTTTGGATTTCAAACAGTAACATCGG ATGTAAACAAACTTAGTTCCFTTACTCACTGAAACTAATCAAGCGGCTCT ACGTAGACAAATCTCTGAATCTTTCTACAGAGTTCATCAGCTCTACGAAGA GACCCTATGCAAAGGAATTGGAAACTGTTGACTTCAAAGATAAATTGGAA GAAACGAAAGGTCAGATCAACAACTCAATTAAGGATCTCACAGATGGCCA CTTTGAGAACATTTTAGCTGACAACAGTGTGAACGACCAGACCAAAATCC TTGTGGTTAATGCTGCCTACTTTGTTGGCAAGTGGATGAAGAAATTTCCTG AATCAGAAACAAAAGAATGTCCTTTCAGACTCAACAAGACAGACACCAA ACCAGTGCAGATGATGAACATGGAGGCCACGTTCTGTATGGGAAACATTG ACAGTATCAATTGTAAGATCATAGAGCTTCCTTTTCAAAATAAGCATCTCA GCATGTTCATCCTACTACCCAAGGATGTGGAGGATGAGTCCACAGGCTTG GAGAAGATTGAAAAACAACTCAACTCAGAGTCACTGTCACAGTGGACTAA TCCCAGCACCATGGCCAATGCCAAGGTCAAACTCTCCATTCCAAAATTTA AGGTGGAAAAGATGATTGATCCCAAGGCTTGTCTGGAAAATCTAGGGCTG AAACATATCTTCAGTGAAGACACATCTGATTTCTCTGGAATGTCAGAGAC CAAGGGAGTGGCCCTATCAAATGTTATCCACAAAGTGTGCTTAGAAATAA CTGAAGATGGTGGGGATTCCATAGAGGTGCCAGGAGCACGGATCCTGCAG CACAAGGATGAATTGAATGCTGACCATCCCTTTATTTACATCATCAGGCAC AACAAAACTCGAAACATCATTTTCTTTGGCAAATTCTGTTCTCCTTAAGTG GCATAGCCCATGTTAAGTCCTCCCTGACTTTTCTGTGGATGCCGATTTCTG TAAACTCTGCATCCAGAGATTCATTTTCTAGATACAATAAATTGCTAATGT TGCTGGATCAGGAAGCCGCCAGTACTTGTCATATGTAGCCTTCACACAGA TAGACCTTTTTTTTTTTCCAATTCTATCTGTTTCCTTTTTTCCCATAAGA CAATGACATACGCTTTTAATGAAAAGGAATCACGTTAGAGGAAAAATATT TATTCATTATTTGTCAAATTGTCCGGGGTAGTTGGCAGAAATACAGTCTTC CACAAAGAAAATTCCTATAAGGAAGATTTGGAAGCTCTTCTTCCCAGCAC TATGCTTTCCTTCTTTGGGATAGAGAATGTTCCAGACATTCTCGCTTCCCTG AAAGACTGAAGAAAGTGTAGTGCATGGGACCCACGAAACTGCCCTGGCTC CAGTGAAACTTGGGCACATGCTCAGGCTACTATAGGTCCAGAAGTCCTTA TGTTAAGCCCTGGCAGGCAGGTGTTTATTAAAATTCTGAATTTTGGGGATT TTCAAAAGATAATATTTTACATACACTGTATGTTATAGAACTTCATGGATC AGATCTGGGGCAGCAACCTATAAATCAACACCTTAATATGCTGCAACAAA ATGTAGAATATTCAGACAAAATGGATACATAAAGACTAAGTAGCCCATAA GGGGTCAAAATTTGCTGCCAAATGCGTATGCCACCAACTTACAAAAACAC TTCGTTCGCAGAGCTTTTCAGATTGTGGAATGTTGGATAAGGAATTATAGA CCTCTAGTAGCTGAAATGCAAGACCCCAAGAGGAAGTTCAGATCTTAATA TAAATTCACTTTCATTTTTGATAGCTGTCCCATCTGGTCATGTGGTTGGCAC TAGACTGGTGGCAGGGGCTTCTAGCTGACTCGCACAGGGATTCTCACAAT AGCCGATATCAGAATTTGTGTTGAAGGAACTTGTCTCTTCATCTAATATGA TAGCGGGAAAAGGAGAGGAAACTACTGCCTTTAGAAAATATAAGTAAAG TGATTAAAGTGCTCACGTTACCTTGACACATAGTTTTTCAGTCTATGGGTT TAGTTACTTTAGATGGCAAGCATGTAACTTATATTAATAGTAATTTGTAAA 62 WO 2005/010213 PCT/US2004/022959 GTTGGGTGGATAAGCTATCCCTGTTGCCGGTTCATGGATTACTTCTCTATA AAAAATATATATTTACCAAAAAATTTTGTGACATTCCTTCTCCCATCTCTT CCTTGACATGCATTGTAAATAGGTTCTTCTTGTTCTGAGATTCAATATTGA ATTTCTCCTATGCTATTGACAATAAAATATTATTGAACTACC SEQ ID NO: 102 Carcinoembryonic Antigen-Related Cell Adhesion Molecule 5 >gill 1386170|reflNM_004363.1| Homo sapiens carcinoembryonic antigen related cell adhesion molecule 5 (CEACAM5), mRNA qPCR assay on_demandcontext match [2128..2152] CTCAGGGCAGAGGGAGGAAGGACAGCAGACCAGACAGTCACAGC AGCCTTGACAAAACGTTCCTGGAACTCAAGCTCTTCTCCACAGAGGAGGA CAGAGCAGACAGCAGAGACCATGGAGTCTCCCTCGGCCCCTCCCCACAGA TGGTGCATCCCCTGGCAGAGGCTCCTGCTCACAGCCTCACTTCTAACCTTC TGGAACCCGCCCACCACTGCCAAGCTCACTATTGAATCCACGCCGTTCAAT GTCGCAGAGGGGAAGGAGGTGCTTCTACTTGTCCACAATCTGCCCCAGCA TCTTTTGGCTACAGCTGGTACAAAGGTGAAAGAGTGGATGGCAACCGTC AAATTATAGGATATGTAATAGGAACTCAACAAGCTACCCCAGGGCCCGCA TACAGTGGTCGAGAGATAATATACCCCAATGCATCCCTGCTGATCCAGAA CATCATCCAGAATGACACAGGATTCTACACCCTACACGTCATAAAGTCAG ATCTTGTGAATGAAGAAGCAACTGGCCAGTTCCGGGTATACCCGGAGCTG CCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCGTGGAGGACAAGGA TGCTGTGGCCTTCACCTGTGAACCTGAGACTCAGGACGCAACCTACCTGTG GTGGGTAAACAATCAGAGCCTCCCGGTCAGTCCCAGGCTGCAGCTGTCCA ATGGCAACAGGACCCTCACTCTATTCAATGTCACAAGAAATGACACAGCA AGCTACAAATGTGAAACCCAGAACCCAGTGAGTGCCAGGCGCAGTGATTC AGTCATCCTGAATGTCCTCTATGGCCCGGATGCCCCCACCATTTCCCCTCT AAACACATCTTACAGATCAGGGGAAAATCTGAACCTCTCCTGCCACGCAG CCTCTAACCCACCTGCACAGTACTCTTGGTTTGTCAATGGGACTTTCCAGC AATCCACCCAAGAGCTCTTTATCCCCAACATCACTGTGAATAATAGTGGAT CCTATACGTGCCAAGCCCATAACTCAGACACTGGCCTCAATAGGACCACA GTCACGACGATCACAGTCTATGCAGAGCCACCCAAACCCTTCATCACCAG CAACAACTCCAACCCCGTGGAGGATGAGGATGCTGTAGCCTTAACCTGTG AACCTGAGATTCAGAACACAACCTACCTGTGGTGGGTAAATAATCAGAGC CTCCCGGTCAGTCCCAGGCTGCAGCTGTCCAATGACAACAGGACCCTCAC TCTACTCAGTGTCACAAGGAATGATGTAGGACCCTATGAGTGTGGAATCC AGAACGAATTAAGTGTTGACCACAGCGACCCAGTCATCCTGAATGTCCTC TATGGCCCAGACGACCCCACCATTTCCCCCTCATACACCTATTACCGTCCA GGGGTGAACCTCAGCCTCTCCTGCCATGCAGCCTCTAACCCACCTGCACA GTATTCTTGGCTGATTGATGGGAACATCCAGCAACACACACAAGAGCTCT TTATCTCCAACATCACTGAGAAGAACAGCGGACTCTATACCTGCCAGGCC AATAACTCAGCCAGTGGCCACAGCAGGACTACAGTCAAGACAATCACAGT CTCTGCGGAGCTGCCCAAGCCCTCCATCTCCAGCAACAACTCCAAACCCG TGGAGGACAAGGATGCTGTGGCCTTCACCTGTGAACCTGAGGCTCAGAAC ACAACCTACCTGTGGTGGGTAAATGGTCAGAGCCTCCCAGTCAGTCCCAG GCTGCAGCTGTCCAATGGCAACAGGACCCTCACTCTATTCAATGTCACAA GAAATGACGCAAGAGCCTATGTATGTGGAATCCAGAACTCAGTGAGTGCA 63 WO 2005/010213 PCT/US2004/022959 AACCGCAGTGACCCAGTCACCCTGGATGTCCTCTATGGGCCGGACACCCC CATCATTTCCCCCCCAGACTCGTCTTACCTTTCGGGAGCGAACCTCA-ACCT CTCCTGCCACTCGGCCTCTAACCCATCCCCGCAGTATTCTTGGCGTATCAA TGGGATACCGCAGCAACACACACAAGTTCTCTTTATCGCCAAAATCACGC CAAATAATAACGGGACCTATGCCTGTTTGTCTCTAACTTGGCTACTGGCC GCAATAATTCCATAGTCAAGAGCATCACAGTCTCTGCATCTGGAACTTCTC CTGGTCTCTCAGCTGGGGCCACTGTCGGCATCATGATTGGAGTGCTGGTTG GGGTTGCTCTGATATAGCAGCCCTGGTGTAGTTTCTTCATTTCAGGAAGAC TGACAGTTGITTGCTTCTTCCTTAAAGCATTTGCAACAGCTACAGTCTAA AATTGCTTCTTTACCAAGGATATTTACAGAAAAGACTCTGACCAGAGATC GAGACCATCCTAGCCAACATCGTGAAACCCCATCTCTACTAAAAATACAA AAATGAGCTGGGCTTGGTGGCGCGCACCTGTAGTCCCAGTTACTCGGGAG GCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGTGGAGATTGCAGTGAG CCCAGATCGCACCACTGCACTCCAGTCTGGCAACAGAGCAAGACTCCATC TCAAAAAGAAAAGAAAAGAAGACTCTGACCTGTACTCTTGAATACAAGTT TCTGATACCACTGCACTGTCTGAGAATTTCCAAAACTTTAATGAACTAACT GACAGCTTCATGAAACTGTCCACCAAGATCAAGCAGAGAAAATAATTAAT TTCATGGGACTAAATGAACTAATGAGGATTGCTGATTCTTTAAATGTCTTG TTTCCCAGATTTCAGGAAACTTTTTTCTTTTAAGCTATCCACTCTTACAGC AATTTGATAAAATATACTTTGTGAACAAAAATTGAGACATTTACATTTTC TCCCTATGTGGTCGCTCCAGACTTGGGAAACTATTCATGAATATTTATATT GTATGGTAATATAGTTATTGCACAAGTTCAATAAAAATCTGCTCTTTGTAT AACAGAAAAA SEQ ID NO: 103 Matrix Metalloproteinase 2 >gil 11342665|reflNM_004530.1| Homo sapiens matrix metalloproteinase 2 (gelatinase A, 72kDa gelatinase, 72kDa type IV collagenase) (MMP2), mRNA | qPCR forwardprimer match [1713..1732] 1 qPCR reverseprimer match [1793..1775] qPCR probe match [1751..1773] TGTTTCCGCTGCATCCAGACTTCCTCAGGCGGTGGCTGGAGGCTGC GCATCTGGGGCTTTAAACATACAAAGGGATTGCCAGGACCTGCGGCGGCG GCGGCGGCGGCGGGGGCTGGGGCGCGGGGGCCGGACCATGAGCCGCTGA GCCGGGCAAACCCCAGGCCACCGAGCCAGCGGACCCTCGGAGCGCAGCC CTGCGCCGCGGACCAGGCTCCAACCAGGCGGCGAGGCGGCCACACGCAC CGAGCCAGCGACCCCCGGGCGACGCGCGGGGCCAGGGAGCGCTACGATG GAGGCGCTAATGGCCCGGGGCGCGCTCACGGGTCCCCTGAGGGCGCTCTG TCTCCTGGGCTGCCTGCTGAGCCACGCCGCCGCCGCGCCGTCGCCCATCAT CAAGTTCCCCGGCGATGTCGCCCCCAAAACGGACAAAGAGTTGGCAGTGC AATACCTGAACACCTTCTATGGCTGCCCCAAGGAGAGCTGCAACCTGTTT GTGCTGAAGGACACACTAAAGAAGATGCAGAAGTTCTTTGGACTGCCCCA GACAGGTGATCTTGACCAGAATACCATCGAGACCATGCGGAAGCCACGCT GCGGCAACCCAGATGTGGCCAACTACAACTTCTTCCCTCGCAAGCCCAAG TGGGACAAGAACCAGATCACATACAGGATCATTGGCTACACACCTGATCT GGACCCAGAGACAGTGGATGATGCCTTTGCTCGTGCCTTCCAAGTCTGGA GCGATGTGACCCCACTGCGGTTTTCTCGAATCCATGATGGAGAGGCAGAC ATCATGATCAACTTTGGCCGCTGGGAGCATGGCGATGGATACCCCTTTGA CGGTAAGGACGGACTCCTGGCTCATGCCTTCGCCCCAGGCACTGGTGTTG 64 WO 2005/010213 PCT/US20041022959 GGGGTAGACTCCCATTTTGATGACGiATGAGCTATGGACCTI'GGGAGAAGGC CAA.GTGGTCCGTGTGAAOTATGGCAAGGCCGATGGGGAGTACTGCAAGTT CCCCTTCTTGTTCAATGGCAAGGAGTACAACAGCTGCACTGATACTGGCC GCAGCGATGGCTTCCTCTGGTGCTCCACCAGCTACAACTTTGAGAAGGAT GGCAAGTACGGCTTCTGTCCCCATGAAGCCCTGTTCACCATGGGCGGCAA GGCTGAAGGACAGCCCTGCAAGTTTCCATTCCGCTTCCAGGGCACATCCTA TGACAGCTGCACCACTGAGGGCCGCACGGATGGCTACCGCTGGTGCGGCA CCACTGAGGACTAGGACCGCGACAIAGAAGTATGGCTTCTGCCCTGAGACC GCCATGTCCACTGTTGGTGGGAACTCAGAAGGTGCCCCCTGTGTCTTCCCC TTCACTTTCCTGGGCAACAA-ATATGAGAGCTGCACCAGCGCCGGCCGGAG TGACGGAAAGATGTGGTGTGCGACCAGAGCCAACTACGATGACGACCGCA AGTGGGGCTTCTGCCCTGACCAAGGGTACAGCCTGTTCCTCGTGGCAGCC CACGAGTTTGGCCACGCCATGGGGCTGGAGCACTCCCAAGACCCTGGGGC CCTGATGGCACCCATTTACACCTACAGCAAGAACTTCCGTCTGTCCCAGGA TGACATCAAGGGCATTCAGGAGCTCTATGGGGCCTCTCCTGACATTGACCT TGGCACCGGCCCCACCCCCACACTGGGCCCTGTCACTCCTGAGATCTGCA AACAGGACATTGTATTTGATGGCATCGCTCAGATCGGTGGTGAGATCTTCT TCTTCAAGGACCGGTTCATTGGCGGACTGTGACGCCACGTGACAAGCCC ATGGGGCCCCTGGTGGTGGCCACATTCTGGCCTGAGCTCCCGGAAAAGAT TGATGCGGTATACGAGGCCCCACAGGAGGAGAAGGCTGTGTTCTTTGCAG GGAATGAATACTGGATCTACTCAGCCAGCACCGTGGAGCGAGGGTACCCC AAGCCACTG-ACCAGCCTGjGGACTGCGCCCTGATGTCCAGCGAGTGG-ATGC. CGCCTTTAACTGGAGCAAAAACAAGAAGACATACATCTTTGCTGGAGACA AA1TCTGGAGATACAATGAGGTGAAGAAGAAAATGGATCCTGGC1TJCCC AAGCTCATCGCAGATGCCTGG3AATGCCATCCCCGATAAGCTGGATGCCGT CGTGGACCTGCAGGGCGGCGGTCACAGCTACTTC2FJCAAGGGTGCCTATr ACCTGAAGCTGGAGAACCAAAGTCTGAAGAGCGTGAAGYFlTGGAAGCATC AAATCCGACTGGCTAGGCTGCTGAGCTGGCCCTGGCTCCCACA.GGCCCTr CCTCTCCACTGCCTTCGATACACCGGGCCTGGAGAACTAGAGAAGGACCG GGAGGGGCCTGGCAGCCGTGCCTTICAGCTCTACAGCTAATCAGCATTCTC ACTCCTACCTGGTAATTJ'AAGAYJ'CCAGAG-AGTGGCTCCTCCCGGTGCCCA AGAATAGATGCTGACTGTACTCCTCCCAGGGGCCCCTTCCCCCTCCAATCC CACCAACCCTCAGAGCCACCCCTAAALGAGATCCTTTGATA=rTCAACGCA GCCCTGCTTTGGGCTGCCCTGGTGCTGCCACACTTCAGGCTCTTCTCC7FJTC ACAACC7FrCTGTGGCTCACAGAACCCTTGGAGCCAATGGAGACTGTCTCA AG3AGGGCACTGGTGGCCCGACAGCCTGGCACAGGGCAGTGGGACAGGGC ATGGCCAGGTGGCCAGTCCAGACCCCTGGCTITTTCACTGCTGGCTGCCTTA GAACCTTTCTTACATTAGCAGTTTGCTTTGTATGCACTTTOTTITTTCTTT GGGTCTTGTTYTTT=TCCACTTAGAAATTGCATYFCCTGACAGAAGGACT CAGGTTGTCTGAAGTCACTGCACAGTGCATCTCAGCCCACATAGTGATGG TTCCCCTGTTCACTCTACTTAGCATGTCCCTACCGAGTCTCTTICTCCACTGG ATGGAGGAAAACCAAGCCGTGGCTTCCCGCTGAGCCCTGCCTGCCCCTCGT TGAAGCATTCCCCATGGGAAATGTCAACAAGTATGAATAAAGACAGCTAC TGAGTGGC SEQ ID NO: 104 65 WO 2005/010213 PCT/US2004/022959 Proprotein Convertase Subtiiin/Kexin Type 5 >giJ203362451reflNM_006200.21 Homo sapiens proprotein convertase subtilisin/kexin type 5 (PCSK5), mRNA I qPCR forwardprimer match [2677..2697] | qPCR reverseprimer match [2821..2801] 1 qPCR probe match [2737..2765] CGGAGGGAGCGCTGGGAGCGAGCAAGCGAGCGTTTGGAGCCCGGG CCAGCAGAGGGGGCGCCCGGTCGCTGCCTGTACCGCTCCCGCTGGTCATC TCCGCCGCGCTCGGGGGCCCCGGGAGGAGCGAGACCGAGTCGGAGAGTC. CGGGAGCCAAGaCGGGCGAAACCCAACTGCGGAGGACGCCCGCCCCACT CAGCCTCCTCCTGCGTCCGAGCCGGGGAGCATCGCCGAGCGCCCCACGGG CCGGAGAGCTGGGAGCACAGGTCCCGGCAGCCCCAGGGATGGTCTAGGA GCCGGCGTAAGGCTCGCTGCTCTGCTCCCTGCCGGGGCTAGCCGCCTCCTG CCGATCGCCCGGGGCTGCGAGCTGCGGCGGCCCGGGGCTGCTCGCCGGGC GGCGCAGGCCGGAGAAGTTAGTTGTGCGCGCCCTTAGTGCGCGGAACCAG CCAGCGAGCGAGGGAGCAGCGAGGCGCCGGGACCATGGGCTGGGGGAGC CGCTGCTGCTGCCCGGGACGYTGGACCTGCTGTGCGTGCTGGCGCTGCTC GGGGGCTGCCTGCTCCCCGTGTGTCGGACGCGCGTCTACACCAACCACTG GGCAGTCAAAATCGCCGGGGGCTTCCCGGAGGCCAACCGTATCGCCAGCA AGTACGGATTCATCAACATAGGACAGATAGGGGCCCTGAAGGACTACTAC CACTTCTACCATAGCAGGACGATTAAAAGGTCAGTTATCTCGAGCAGAGG GACCCACAGTTTCATTTCAATGGAACCAAAGGTGGAATGGATCCAACAGC AAGTGGTAAAAAAGCGGACAAAGAGGGATTATGACTTCAGTCGTGCCCA GTCTACCTATTTCAATGATCCCAAGTGGCCCAGCATGTGGTATATGCACTG CAGTGACAATACACATCCCTGCCAGTCTGACATGAATATCGAAGGAGCCT GGAAGAGAGGCTACACGGGAAAGAACATTGTGGTCACTATCCTGGATGAC GGAATTGAGAGAACCCATCCAGATCTGATGCAAAACTACGATGCTCTGGC AAGTTGCGACGTGAATGGGAATGACTTGGACCCAATGCCTCGTTATGATG CAAGCAACGAGAACAAGCATGGGACTCGCTGTGCTGGAGAAGTGGCAGC CGCTGCAAACAATTCGCACTGCACAGTCGGAATTGCTTTCAACGCCAAGA TCGGAGGAGTGCGAATGCTGGACGGAGATGTCACGGACATGGTTGAAGC AAAATCAGTTAGCTTCAACCCCCAGCACGTGCACATTTACAGCGCCAGCT GGGGCCCGGATGATGATGGCAAGACTGTGGACGGACCAGCCCCCCTCACC CGGCAAGCCTTTGAAAACGGCGTTAGAATGGGGCGGAGAGGCCTCGGCTC TGTGTTTGTTTGGGCATCTGGAAATGGTGGAAGGAGCAAAGACCACTGCT CCTGTGATGGCTACACCAACAGCATCTACACCATCTCCATCAGCAGCACT GCAGAAAGCGGAAAGAAACCTTGGTACCTGGAAGAGTGTTCATCCACGCT GGCCACAACCTACAGCAGCGGGGAGTCCTACGATAAGAAAATCATCACTA CAGATCTGAGGCAGCGTTGCACGGACAACCACACTGGGACGTCAGCCTCA GCCCCCATGGCTGCAGGCATCATTGCGCTGGCCCTGGAAGCCAATCCGTTT CTGACCTGGAGAGACGTACAGCATGTTATTGTCAGGACTTCCCGTGCGGG ACATTTGAACGCTAATGACTGGAAAACCAATGCTGCTGGTTTTAAGGTGA GCCATCTTTATGGATTTGGACTGATGGACGCAGAAGCCATGGTGATGGAG GCAGAGAAGTGGACCACCGTTCCCCGGCAGCACGTGTGTGTGGAGAGCAC AGACCGACAAATCAAGACAATCCGCCCTAACAGTGCAGTGCGCTCCATCT ACAAAGCTTCAGGCTGCTCGGATAACCCCAACCGCCATGTCAACTACCTG GAGCACGTCGTTGTGCGCATCACCATCACCCACCCCAGGAGAGGAGACCT GGCCATCTACCTGACCTCGCCCTCTGGAACTAGGTCTCAGCTTTTGGCCAA CAGGCTATTiTGATCACTCCATGGAAGGATTCAAAAACTGGGAGTTCATGA CCATTCATTGCTGGGGAGAAAGAGCTGCTGGTGACTGGGTCCTFGAAGTT 66 WO 2005/010213 PCT/US2004/022959 TATGATACTCCCTCTCAGCTAAGGAACTTTAAGACTCCAGGTAAATTGAA AGAATGGTCTTTGGTCCTCTACGGCACCTCCGTGCAGCCATATTCACCAAC CAATGAATTTCCGAAAGTGGAACGGTTCCGCTATAGCCGAGTTGAAGACC CCACAGACGACTATGGCACAGAGGATTATGCAGGTCCCTGCGACCCTGAG TGCAGTGAGGTTGGCTGTGACGGGCCAGGACCAGACCACTGCAATGACTG TTTGCACTACTACTACAAGCTGAAAAACAATACCAGGATCTGTGTCTCCA GCTGCCCCCCTGGCCACTACCACGCCGACAAGAAGCGCTGCAGGAAGTGT GCCCCCAACTGTGAGTCCTGCTTTGGGAGCCATGGTGACCAATGCATGTCC TGCAAATATGGATACTTTCTGAATGAAGAAACCAACAGCTGTGTTACTCA CTGCCCTGATGGGTCATATCAGGATACCAAGAAAAATCTTTGCCGGAAAT GCAGTGAAAACTGCAAGACATGTACTGAATTCCATAACTGTACAGAATGT AGGGATGGGTTAAGCCTGCAGGGATCCCGGTGCTCTGTCTCCTGTGAAGA TGGACGGTATTTCAACGGCCAGGACTGCCAGCCCTGCCACCGCTTCTGCG CCACTTGTGCTGGGGCAGGAGCTGATGGGTGCATTAACTGCACAGAGGGC TACTTCATGGAGGATGGGAGATGCGTGCAGAGCTGTAGTATCAGCTATTA CTTTGACCACTCTTCAGAGAATGGATACAAATCCTGCAAAAAATGTGATA TCAGTTGTTTGACGTGCAATGGCCCAGGATTCAAGAACTGTACAAGCTGC CCTAGTGGGTATCTCTTAGACTTAGGAATGTGTCAAATGGGAGCCATTTGC AAGGATGCAACGGAAGAGTCCTGGGCGGAAGGAGGCTTCTGTATGCTTGT GAAAAAGAACAATCTGTGCCAACGGAAGGTTCTTCAACAACTTTGCTGCA AAACATGTACATTTCAAGGCTGAGCAGCCATCTTAGATTTCTTTGTTCCTG TAGACTTATAGATTATTCCATATTATTAAAAAGAAAAAAAAAAGCCAAAA AG SEQ ID NO: 105 Carboxypeptidase N, polypeptide 2, 83kD >giJ18554966|reflXM4 087358.11 Homo sapiens carboxypeptidase N, polypeptide 2, 83kD (CPN2), mRNA ATGGGTTGTGACTGCTTCGTCCAGGAGGTGTTCTGCTCAGATGAGG AGCTTGCCACCGTCCCGCTGGACATCCCGCCATATACGAAAAACATCATC TTTGTGGAGACCTCGTTCACCACATTGGAAACCAGAGCTTTTGGCAGTAAC CCCAACTTGACCAAGGTGGTCTTCCTCAACACTCAGCTCTGCCAGTTTAGG CCGGATGCCTTTGGGGGGCTGCCCAGGCTGGAGGACCTGGAGGTCACAGG CAGTAGCTTCTTGAACCTCAGCACCAACATCTTCTCCAACCTGACCTCGCT GGGCAAGCTCACCCTCAACTTCAACATGCTGGAGGCTCTGCCCGAGGGTC TTTTCCAGCACCTGGCTGCCCTGGAGTCCCTCCACCTGCAGGGGAACCAGC TCCAGGCCCTGCCCAGGAGGCTCTTCCAGCCTCTGACCCATCTGAAGACA CTCAACCTGGCCCAGAACCTCCTGGCCCAGCTCCCGGAGGAGCTGTTCCA CCCACTCACCAGCCTGCAGACCCTGAAGCTGAGCAACAACGCGCTCTCTG GTCTCCCCCAGGGTGTGTTTGGCAAACTGGGCAGCCTGCAGGAGCTCTTCC TGGACAGCAACAACATCTCGGAGCTGCCCCCTCAGGTGTTCTCCCAGCTCT TCTGCCTAGAGAGGCTGTGGCTGCAACGCAACGCCATCACGCACCTGCCG CTCTCCATCTTTGCCTCCCTGGGTAATCTGACCTTTCTGAGCTTGCAGTGG AACATGCTTCGGGTCCTGCCTGCCGGCCTCTTTGCCCACACCCCATGCCTG GTTGGCCTGTCTCTGACCCATAACCAGCTGGAGACTGTCGCTGAGGGCAC CTTTGCCCACCTGTCCAACCTGCGTTCCCTCATGCTCTCATACAATGCCATT ACCCACCTCCCAGCTGGCATCTTCAGAGACCTGGAGGAGTTGGTCAA-ACT CTACCTGGGCAGCAACAACCTTACGGCGCTGCACCCAGCCCTCTTCCAGA ACCTGTCCAAGCTGGAGCTGCTCAGCCTCTCCAAGAACCAGCTGACCACA CTTCCGGAGGGCATCTTCGACACCAACTACAACCTGTTCAACCTGGCCCTG 67 WO 2005/010213 PCT/US2004/022959 CACGGTAACCCCTGGCAGTGCGACTGCCACCTGGCCTACCTCTTCAACTGG CTGCAGCAGTACACCGATCGGCTCCTGAACATCCAGACCTACTGCGCTGG CCCTGCCTACCTCAAAGGCCAGGTGGTGCCCGCCTTGAATGAGAAGCAGC TGGTGTGTCCCGTCACCCGGGACCACTTGGGCTTCCAGGTCACGTGGCCG GACGAAAGCAAGGCAGGGGGCAGCTGGGATCTGGCTGTGCAGGAAAGGG CAGCCCGGAGCCAGTGCACCTACAGCAACCCCGAGGGCACCGTGGTGCTC GCCTGTGACCAGGCCCAGTGTCGCTGGCTGAACGTCCAGCTCTCTCCTTGG CAGGGCTCCCTGGGACTGCAGTACAATGCTAGTCAGGAGTGGGACCTGAG GTCGAGCTGCGGTTCTCTGCGGCTCACCGTGTCTATCGAGGCTCGGGCAGC AGGGCCCTAGTAGCAGCGCATACAGGAGCTGGGGAAGGGGGCTTTGGGG CCTGCCCACGCGACAGGTAGGGGCGGAGGGGAGCTGAGTCTCCGAAGCTT GGCTTT SEQ ID NO: 106 Hyaluronan and proteoglycan link protein 4 >gil30794471freflNM 023002.11 Homo sapiens hyaluronan and proteoglycan link protein 4 (HAPLN4), mRNA CGGGGGCCGCGCGGGCAAGATGGTGTGCGCTCGGGCGGCCCTCGG TCCCGGCGCGCTCTGGGCCGCGGCCTGGGGCGTCCTGCTGCTCACAGCCC CTGCGGGGGCGCAGCGTGGCCGGAAGAAGGTCGTGCACGTGCTGGAGGG TGAGTCGGGCTCGGTAGTGGTACAGACAGCGCCTGGGCAGGTGGTAAGCC ACCGTGGTGGCACCATCGTCTTGCCCTGCCGCTACCACTATGAGGCAGCC GCCCACGGTCACGACGGCGTCCGGCTCAAGTGGACAAAGGTGGTGGACCC GCTGGCCTTCACCGACGTCTTCGTGGCACTAGGCCCCCAGCACCGGGCATT CGGCAGCTACCGTGGGCGGGCTGAGCTGCAGGGCGACGGGCCTGGGGAT GCCTCCCTGGTCCTCCGCAACGTCACGCTGCAAGACTACGGGCGCTATGA GTGCGAAGTCACCAATGAGCTGGAAGATGACGCTGGCATGGTCAAGCTGG ACCTGGAAGGCGTGGTCTTTCCCTACCACCCCCGTGGAGGCCGATACAAG CTGACCTTCGCGGAGGCGCAGCGCGCGTGCGCCGAGCAGGACGGCATCCT GGCATCTGCAGAACAGCTGCACGCGGCCTGGCGCGACGGCCTGGACTGGT GCAACGCGGGCTGGTTGCGCGACGGCTCAGTGCAATACCCCGTGAACCGG CCCCGGGAGCCCTGCGGCGGCCTGGGGGGGACCGGGAGTGCAGGGGGCG GCGGTGATGCCAACGGGGGCCTGCGCAACTACGGGTATCGCCATAACGCC GAGGAACGCTACGACGCCTTCTGCTTCACGTCCAACCTGCCGGGGCGCGT GTTCTTCCTGAAGCCGCTGCGACCTGTACCCTTCTCCGGAGCTGCGCGCGC GTGTGCTGCGCGTGGCGCGGCCGTGGCCAAGGTGGGGCAGCTGTTCGCCG CGTGGAAGCTGCAGCTGCTAGACCGCTGCACCGCGGGTTGGCTGGCCGAT GGCAGTGCGCGCTACCCCATCGTGAACCCGCGAGCGCGCTGCGGAGGCCG CAGGCCTGGTGTGCGCAGCCTCGGCTTCCCGGACGCCACCCGACGGCTCT TCGGCGTCTACTGCTACCGCGCTCCAGGAGCACCGGACCCGGCACCTGGC GGCTGGGGCTGGGGCTGGGCGGGCGGCGGCGGCTGGGCAGGGGGCGCGC GCGATCCTGCTGCCTGGACCCCTCTGCACGTCTAGGCTGGGAGTAGGCGG ACAGCCAGGGCGCTTGACCACTGGTCTAGAGCCCTGTGGTCCCCTGGAGC CTGGCCACGCCCTTGAAGCCCTGGACACTGGCCACATTCCCTGTGGTCCCT TACAAACTAACTGTGCCCCTGGGGTCCCTGAAGACTGGCTAGTCCTGGCA GAACAGTACTTTGGAGTTCCCTGGAGCCTGGCCAGCCCTCACCTCTTCTGG ATAGAGGATTCCCCCAACTCCCCAACTTTCTCCATGAGGGTCACGCCCCCT GAGGACCTCAGGAGGCCAGCAGAACCCGCAGGCTCCTGAAGACTGGCCA CGCCTCCTGAGACCACTTGGAAACAGACCAACTGCCCCCGTGGTCGCCTG GTGGCTGGACCCCCGGGATTGACTAGAGACCGGCCGTACACCTTCTGCAT 68 WO 2005/010213 PCT/US2004/022959 CTCACTGGAGACTGAACACTAGTCCCTTGCGGTCACGTGGGACACTGGGC GCCTCCTCCTCCCCCTCCTCCTCACCTGGAGAGACTACAGGAACTTCAGGG TCACTCCCCGTGGTCACATGGAGGTTGTGGGCCGAGGCGCTTATTTTCCCT TATGGTGACCTGAGTCCTGGAGACTCCCATTCTCCCCCTCTCCCTGAGAGT CCCCTGCAGTTTCTGGGTAACAGGGCACACCCCTCTAGTTTCATGGGCGAG CACCCCCATCTGCCACCTCAGACTGACACACAGCCAGCTGGCTCACTTACT GGGGGCCACGTCCCACCCCTCAGATATTTCTTTGAAGGGAGAGCAAACCC ACCCTGTCCTCTGACGTCCCTTTCCCAACTGTCACCAAACAGACCATCTTC CCAGGCCTGGGGACCGGTAAGATCCATGTCACTAGTTATGCAGAGCAGTT GCCTTGGGTCCCACTGTCACCAAGGCAACCAGTCCTGCTGCTACCTGTCAC CTAGAGTCACACACCCCTTCCCTCATCAGGCACACCCATGAAGACAGTGC CTCCCTCCTCCAGCTGTAACCATGGATACCACACATTTCTCATCTCATTGG CCCCCACCCCAGAGACCTCCACCTCAACTTCTGGCTGTCCCTACCCTGACT CACCGCCATGGAGATCACCCTCCCCGAAGCTGTCGCCAGGGTGACCCAAC ATCCAGTTCTCCGGCTCTCACCATGGAAACAAACTGTCCCTGTCCCCAGGC CCACTCCAGTTCCAGACCACCCTCCATGCTCCACCCCCAGGCGGTTTGGAC CCCACCACTGTTGCCATGGTGACCAAACTCTGGAGTCCGAGGTAACAGAA CACCTGTCCCCCTAGGCTTTTCCTTGTGGACAACGGGGCCCTGTTCACCAA GCTGTTGCCATAGAGACTGTCAACGTTGTCCTCATGACAACCAGACTTCCA GTTCTCAGGAACTTCTCATTGTGGGCCAGAAGTCCTGGGTGCCTCCTACTA GGGCTACCCTACTGCACCCCATCAGGGGCCTGATGGCTGCCCCTTCCCCAG ACAGGGCTGGACTTCTGGAGCTGCTAAGCCACCCTCCGTTTGCACGTTAAC TCTATGCCGGATAGCAGCTGTGCACGAGACAATCTTGCAACACCCGGGCA TGTTTGTCGTCGTCCTACAAATGAGGAAACCGAGCCTATGGCGTGCCCTG GTCTGTTGAGATATGCAAGCACTGAGCTCCTCTTTTGTCCTCTGAGACCCC ATCTCCATTCTCACCCAGTTCCTCTCTCCTTCCCTGACCCCCACCCACATTT CCCTCCTTAGAGATCCAGGAGGGATGGAATGTTCTTTAAAATTCAACACC CACCAGGCTCTAAGCGGCGATCTGTGCTAAGAGGTCAGGACCCAGCCGAA GTCCTCGGCGTTGACAGGCAGCTGGGGGGACATGATCCATGGACAAGGCC ATCCCGGCCGTGGGAGACCCCAGTCCCGAAGTCTTGCCTGCAGGAGTACT GGGGTCCCCCTGGGGCCCTCTTTACTGTCACGTCATCTCTAGGAAACCTAT CTCTGAGTTTTGGGACCAGGTCGGTTTGGGTTTGAATTCTGCCTCTTCTTGC TCACTGTGTGACCAAGTGACAAACTCCTTCTGAACCTGTGTTCTCCCACTG TACCAGGGCTGTTCTGTGGTCCCCGTGAGTGCCAAGCATACAGTAGGGGC TCAATAAATCCTTGT SEQ ID NO: 107 Immunohisto chemistry 8uM frozen sections were cut from tissue blocks and mounted onto APES slides. The tissue was then fixed in acetone for 10 minutes before being air-dried. The slides were then soaked in 0.3% hydrogen peroxide in methanol for 10 minutes and washed in phosphate-buffered saline (PBS). Non-specific binding sites were blocked by incubating the slides in 20% serum from the appropriate animal and washing again in PBS. Primary antibody diluted in PBS containing 1% serum was then added to the slides. After incubation for 1 hour, the slides were again washed in PBS before incubating with the secondary antibody for a further 1 hour. After final washing in 69 WO 2005/010213 PCT/US2004/022959 PBS, the secondary antibody was detected with diaminobenzidine tetrahydrochloride dissolved in Tris buffered saline (TBS), before being washed in TBS and water. The slides were then counter stained in haemotoxylin and viewed under a light microscope. In certain embodiments, gastric tumors can be localized in situ using stains based on cancer markers of this invention. At least one marker may be forming amyloid structures that can be visualized using Congo red or equivalent, non-specific amyloid stains. Tests for Gastric Cancer Markers in Body Fluids In several embodiments, assays for GTM can be desirably carried out on samples obtained from blood, plasma, serum, peritoneal fluid obtained for example using peritoneal washes, or other body fluids, such as urine, lymph, cerebrospinal fluid, gastric fluid or stool samples. In general, methods for assaying for oligonucleotides, proteins and peptides in these fluids are known in the art. Detection of oligonucleotides can be carried out using hybridization methods such as Northern blots, Southern blots or microarray methods, or qPCR. Methods for detecting proteins include such as enzyme linked immunosorbent assays (ELISA), protein chips having antibodies, suspension beads radioimmunoassay (RIA), Western blotting and lectin binding. However, for purposes of illustration, fluid levels of a GTM can be quantified using a sandwich-type enzyme-linked immunosorbent assay (ELISA). For plasma assays, a 5 uL aliquot of a properly diluted sample or serially diluted standard GTM and 75 uL of peroxidase conjugated anti-human GTM antibody are added to wells of a microtiter plate. After a 30 minute incubation period at 30*C, the wells are washed with 0.05% Tween 20 in phosphate-buffered saline (PBS) to remove unbound antibody. Bound complexes of GTM and anti-GTM antibody are then incubated with o-phenylendiamine containing H202 for 15 minutes at 30"C. The reaction is stopped by adding 1 M H2SO4, and the absorbance at 492 nm is measured with a microtiter plate reader. It can be appreciated that anti-GTM antibodies can be monoclonal antibodies or polyclonal antisera. It can also be appreciated that any other body fluid can be suitably studied. Certain markers are known to be present in plasma or serum. These include osteopontin (Hotte et al., Cancer 95(3): 507-510 (2002)), prostate-specific antigen 70 WO 2005/010213 PCT/US2004/022959 (Martin et al., Prostate Cancer Prostatic Dis. (March 9, 2004) (Pub Med No: PID: 15007379), thyroglobulin (Hall et al, Laryngoscope 113(1):77-81 (2003); Mazzaferri et al., J. Clin. Endocrinol. Metab. 88(4):1433-14421 (2003), matrix metalloproteinase 2 and -9 (Kuo et al., Clin. Chem. Acta. 294(1-2):157-168 (2000), CEA and TIMP1 (Pellegrini et al., Cancer Immunol. Immunother. 49(7):388-394 (2000). Thus, because some of the above markers are also useful markers for GTM, plasma, serum or other fluid assays are already available for their detection and quantification. Because many proteins are either (1) secreted by cells, (2) sloughed from cell membranes, or (3) are lost from cells upon cell death, other GTM are also present in body fluids, such as plasma, serum and the like. Therefore, in embodiments of this invention, detection of GTM in conveniently obtained samples will be useful and desirable and can be a basis for diagnosis of gastric cancer. Western Analysis Proteins were extracted from gastric tissue using a TriReagent and guanidine HC1 extraction method. The non-aqueous phase from the TriReagent extraction of RNA was mixed with 1.5vols of ethanol and centrifuged to remove DNA and OCT medium. 0.5mls of supernatant was mixed with 0.75ml isopropanol, incubated at room temperature for 10 minutes, and then centrifuged. The pellet was washed three times in lml 0.3M guanidine HC1 in 95% ethanol and once in ethanol alone, then resuspended in 50ul 1% SDS. Proteins were quantified and electrophoresed on SDS polyacrylamide gels using standard methods. Briefly, the separated proteins were transferred to PVDF membrane using the BioRad trans-blot electrophoretic transfer cell using standard methodology. The membranes were then blocked with a solution containing non-fat milk powder for 30 minutes before being incubated with primary antibody for 2 hours at room temperature. After washing, the membrane was incubated with secondary antibody for 1 hour at room temperature. After final washes, bound antibody was visualized using the ECL detection system (Amersham Biosciences). Detection of markers in the serum can be accomplished by providing a sample of serum using known methods and then subjecting the serum sample to analysis, either using oligonucleotide probes or antibodies directed against the protein of interest. Immunoblotting, including Western blotting analysis can be especially useful to determine whether alternatively expressed proteins are present in the serum. 71 WO 2005/010213 PCT/US2004/022959 Additionally, other body fluids may contain markers, and include peritoneal fluid, cerebrospinal fluid and the like. It is not necessary for a marker to be secreted, in a physiological sense, to be useful. Rather, any mechanism by which a marker protein or gene enters the serum can be effective in producing a detectable, quantifiable level of the marker. Thus, normal secretion of soluble proteins from cells, sloughing of membrane proteins from plasma membranes, secretion of alternatively spliced forms of mRNA or proteins expressed therefrom, cell death (either apoptotic) can produce sufficient levels of the marker to be useful. There is increasing support for the use of serum markers as tools to diagnose and/or evaluate efficacy of therapy for a variety of cancer types. Yoshikawa et al., (Cancer Letters, 151: 81-86 (2000) describes tissue inhibitor of matrix metalloproteinase-l in plasma of patients with gastric cancer. Rudland et al., (Cancer Research 62: 3417-3427 (2002) describes osteopontin as a metastasis associated protein in human breast cancer. Buckhaults et al., (Cancer Research 61:6996-7001 (2002) describes certain secreted and cell surface genes expressed in colorectal tumors. Kim et al., (JAMA 287(13):1671-1679 (2002) describes osteopontin as a potential diagnostic biomarker for ovarian cancer. Hotte et al., (Al. American Cancer Society 95(3):507-512 (2002) describes plasma osteopontin as a protein detectable in human body fluids and is associated with certain malignancies. Martin et al., (Prostate Cancer Prostatic Dis. March 9, 2004 (PMID: 15007379) (Abstract) described use of human kallikrein 2, prostate-specific antigen (PSA) and free PSA as markers for detection of prostate cancer. Hall et al (Laryngoscope 113(1):77-81 (2003) (PMID: 12679418) (Abstract) described predictive value of serum thyroglobulin in thyroid cancer. Mazzaferri et al., (J. Clin. Endocrinol. Metab. 88(4):1433-1441 (2003) (Abstract) describes thyroglobulin as a potential monitoring method for patients with thyroid carcinoma. Whitley et al, (Clin. Lab. Med. 24(l):29-47 (2004) (Abstract) describes thyroglobulin as a serum marker for thyroid carcinoma. Kuo et al (Clin. Chim. Acta. 294(1-2):157-168 (2000) (Abstract) describes serum matrix metalloproteinase-2 and -9 in HCF- and HBV-infected patients. 72 WO 2005/010213 PCT/US2004/022959 Koopman et al., (Cancer Epidemiol. Biomarkers Prev 13(3):487-491 (2004) (Abstract) describes osteopontin as a biomarker for pancreatic adenocarcinoma. Pellegrini et al., (Cancer Immunol. Immunother. 49(7):388-394 (2000) (Abstract) describes measurement of soluble carcinoembryonic antigen and TIMvP1 as markers for pre-invasive colorectal cancer. Thus, we have identified numerous genes and/or proteins that are useful for developing reagents, devices and kits for detecting and evaluating gastric cancer. One or more markers of gastric can be used, either singly or in combination to provide a reliable molecular test for gastric cancer. EXAMPLES The examples described herein are for purposes of illustrating embodiments of the invention. Other embodiments, methods and types of analyses are within the scope of persons of ordinary skill in the molecular diagnostic arts and need not be described in detail hereon. Other embodiments within the scope of the art are considered to be part of this invention. Example 1: Identification of Markers for Gastric Malignancy Figure 2 depicts a table that shows results of studies using 38 markers for gastric malignancy selected using the above criteria. The Figure 2 includes the symbol for the gene ("symbol"), the MWG oligo number, the NCBI mRNA reference sequence number, the protein reference sequence number, the fold change between tumor and non-tumor gene expression, the fold change rank relative to other genes in the microarray analysis, the results of an original, unadjusted Student's t-test, the results of the Bonferroni-adjusted p value and the results of the 2-sample Wilcoxon test. The median fold change (tumor: non malignant tissue) for these 34 genes ranged from 1.6 to 7 and the median change in fold change rank ranged from -16,995 to -25,783. The maximum possible change in fold change rank was -29,718. For each of the markers shown, the statistical significance of their specificity as cancer markers was found to be extremely high. The Bonferroni-adjusted p values were, in general, all below 106 or less, indicating that diagnosis using these markers is very highly associated with gastric cancer. 73 WO 2005/010213 PCT/US2004/022959 The three cystatins (CSTl, CST2, and CST4) are highly homologous and represented by the same oligonucleotide on the microarray and unless otherwise stated, are referred to collectively as "CST1,2,4." All proteins depicted in Figure 2 were predicted to have signal peptides using the SMART package (European Molecular Biology Laboratory). The signal peptides are known to target synthesized proteins to the extracellular compartment and can therefore be secreted into the interstitial fluid, from which they can have access to the blood. In fact, some proteins of this invention have been detected in serum. Each of the genes depicted in Figure 2 exhibited a change in intensity rank greater than the two oligonucleotides on the array corresponding to CEA, the marker most frequently used in clinical practice to monitor gastric cancer progression. Example 2: qPCR Analysis More sensitive and accurate quantitation of gene expression was obtained for a subset of the genes shown in Figure 3 using qPCR. RNA from 46 tumor and 49 non malignant samples was analyzed for 23 genes identified by the microarray analysis (Figure 2) and results are shown in Figure 3. Figure 3 includes the gene symbol, median fold change between cancer and normal tissue, and the % of tumor samples with expression levels greater than the 9 5 th percentile of expression levels in non malignant samples. 12 tumor samples and 9 normal samples were excluded from the analysis because of high (>75%) normal cell contamination, a high degree of necrosis (>40%), or poor hybridization signal on the microarrays. The median fold change (tumor tissues compared to the median non-malignant tissue expression) for these 23 genes ranged from 3 to 525 fold (Figure 3). The level of expression of genes ASPN, CSTI,2,4, LOXL2, TIMP1, SPP1, SFRP4, IiNHBA, THBS2 and SPARC was greater in tumors than the 9 5 th percentile of the non-malignant range for 90% of cases (Figure 3). For the remainder of genes, the expression in tumors was greater than the 9 5 th percentile in >50% of samples. Each tumor over-expressed at least seven genes greater than the 9 5 th percentile indicating that combinations of markers will lead to comprehensive coverage of all gastric tumors. 74 WO 2005/010213 PCT/US2004/022959 Example 3: Validation of Array Data Using qPCR Array data was validated using quantitative, real-time PCR (qPCR) on the tumor and non-malignant samples with probes for 24 genes. Of all 24 genes studied, 20 showed a strong correlation between -the two techniques. Four of these analyses are show in Figures 4a - 4d, which depict graphs of the relative expression for the 4 selected cancer markers detected using array and qPCR methods. For each graph in Figure 4, the horizontal axis represents the array log2 fold change in gene expression, and the vertical axis represents the qPCR log2 fold change in gene expression. We found that there was a strong correlation between the two methods, as indicated by the co-variant relationship between the methods. The strong correlation indicates that both microarray fold change analysis and qPCR are suitable methods for detecting changes in the expression of gastric cancer marker genes and therefore can be used as an accurate, sensitive screening method. It can also be appreciated from Figures 4a 4d that qPCR can be more sensitive at detecting changes in expression than are array methods. Thus, in situations in which early detection is especially desirable, qPCR may be especially useful. Figures 5a - 5w depict histograms comparing frequency of observation of expression of each of a series of 23 genes (vertical axis) and the log2 fold change in expression for that gene (horizontal axis), for both normal tissue (open bars) and tumor tissues (black bars). We found surprisingly that for each of these 23 genes, there was substantial separation in the frequency distributions between normal and tumor tissue, as reflected by the low degree of overlap between the frequency distribution curves. For example, Figure 5b depicts the results for CST 1, 2, 4, for which there was only one normal sample observed to have an expression level in the tumor range. In other cases (e.g., Figure Sn; for PRS1 1) each frequency distribution curve was relatively narrow and there was a degree of overlap. However, even for this marker, the median log2 fold change showed a substantial separation of the amount of gene expression. In other cases, (e.g., Figure 5a; ASPN), although there was some overlap, there was a clear separation of the median log2 fold expression between normal and tumor samples. Figure 6 depicts a histogram of the number of genes exhibiting a significantly increased expression ("over-expression") in tumor samples compared to normal samples (vertical axis) and the individual samples tested. In each case, the tumor sample exhibited multiple genes with elevated expression levels. The lowest number 75 WO 2005/010213 PCT/US2004/022959 of genes having increased expression was 7, found in sample E123. This finding indicates that, in situations in which multiple genes are over-expressed relative to normal tissue, the reliability of cancer detection can be very high, making diagnosis of cancer more certain. However, in some cases, elevation of expression of a single marker gene is sufficient to lead to the diagnosis of cancer. Our previous comparison with the serum marker most frequently used currently for detection of gastric cancer, CEA, was based on difference in intensity rank of array data between tumors and normal samples. This comparison was verified using qPCR data for the markers and CEA. Figures 7a-7c depict graphs of the relative log2 expression (compared to a reference RNA preparation) of markers in individual tumor samples and non malignant samples compared to the expression of the gene for the tumor marker, CEA. CEA is the serum marker currently most used to monitor progression of gastric cancer. The zero point is defined to be the median normal expression for each marker. It can be seen that there is extensive overlap between the expression of the CEA gene (CEACAM5) in tumor samples and normal samples. This overlap is markedly less in the gastric cancer markers ASPN, CSPG2, CST1,2,4, IGFBP7, INHBA, LOXL2, LUM, SFRP4, SPARC, SPP1, THBS2, TIMP1, adlican, LEPRE1, and EFEMP2. For the other markers in Figures 7b-7c, ASAH1, SFRP2, GGH, MMP12, KLK10, TG, PRSS 11 and TGFBI, the overlap between the tumor expression range and the non malignant tissue expression range is greater than the overlap for the above markers, but still less than that of CEA, indicating that all of the herein described new markers are quantitatively better than CEA, and therefore can provide more reliable diagnosis. To minimize effects of variable tissue handling, tumor:normal (non malignant) fold changes were calculated using qPCR data from tumor and non malignant tissue samples derived from the same patient. Such paired analysis corrects for differences in background levels of gene expression in different individuals and minimizes the effects of tissue handling on RNA quality. For example, if the resected stomach was at room temperature for an hour, the transcripts from the normal and tumor samples will be degraded to the same extent. Figure 8 summarizes the T:N expression levels determined by qPCR for the markers, but used paired data (i.e., tumor and non-malignant samples) from the same individual. Figure 8 also includes expression data for six genes that were not included in Figure 3. The additionally studied genes are MMP2, CGR1 1, TGFB 1, PCSK5, 76 WO 2005/010213 PCT/US2004/022959 SERPINB5, and SERPINH1. Identifying information and probes are shown in Figures 1 and 2. Figure 8 shows the median T:N fold change and the maximum T:N fold change for 29 gastric cancer markers in these 40 patients with "paired" samples. 27 of the 29 markers have a median T:N difference greater than or equal to the prior art marker, CEA. 29/29 of the markers have a higher percentage of paired samples in which the expression in the tumor sample exceeds the expression in the normal sample. Figures 9a - 9d depict scatter dot plots of data from tumor and normal tissue from the same individuals. Each point represents the fold-change, within patient, in expression of the markers in tumor tissue relative to the expression in non-malignant tissue. All of the markers studied have better discrimination of tumor from non-tumor tissue than CEA. Three markers, CST1,2,4, ASPN and SFRP4 showed 100% discrimination between the paired tumor and normal samples. That is, for those markers, every tumor tissue had greater expression than did the corresponding non tumor tissue from the same individual. In many other markers, for example, Adlican, CSPG2, EFEMP2, IGFBP7, INBA, LOXL2, LUM, SERPINHI, SPARC, SPP1, TGFbI, THBS2 and TIMP1, each had only 2 or 3 individual points for which tumor tissue expression was less than that of the non-tumor tissue. Thus, for those markers, the likelihood that any one pair of tumor and non-tumor tissue would produce a false negative is relatively low (e.g., 3 of 40 or 7.5%; 2 of 40 or 5%, 1 of 40 or 2.5%). Thus, even if the other markers listed immediately above were used, use of multiple samples from an individual patient would produce reliable diagnostic information. The gene sequences of these markers, and the location of the primers and probes used to detect them, are shown herein above. To determine if over-expression of the marker genes is independent of the stage of the gastric tumors, the paired T:N log2 fold changes were plotted against the tumor stage (Figures 10a - 10ad). No stage dependency of expression on tumor stage was observed for 26 of the markers listed in Figure 8. These markers were similarly over-expressed in early stage as well as late stage tumors. However, KLK10 showed more consistent over-expression in stage 1 and stage 2 tumors, and PCSK5 and SERPINB5 showed more consistent over-expression in stage 4 tumors. KLK10, PCSK5 and SERPINB5 therefore can be used in determining the stage of gastric tumors. 77 WO 2005/010213 PCT/US2004/022959 In a similar analysis, paired T:N log2 fold changes were plotted against the Lauren classification of the tumor (either diffuse type or intestinal type). Figures 11 a - 11 ad show that each of the 29 GTMs discriminated between tumor and non-tumor tissue, regardless of whether the type of tumor was intestinal (I) or diffuse (D). Example 4: Use of Multiple Markers As described above, certain markers exhibit an ability to discriminate tumor from non-tumor tissue in 100% of the samples. Other markers, also described above, can be used in combination to achieve very high degrees of discrimination of tumor tissue from non-tumor tissue, Figure 12 depicts a 3-dimensional plot of the expression of 3 markers, SERPINH1, CST1,2,4 and INHBA, expressed as log2 T:N fold changes for a series of gastric tumor samples and non-malignant gastric samples. There is complete separation between the two groups of samples. The reliability of successful discrimination of tumor and non-tumor samples using marker combinations is further illustrated by a statistical analysis summarized in Figure 13. This analysis compared the normal distributions of data generated using the qPCR gene expression from paired tumor and non-malignant samples, shows the effect of increasing the numbers of markers used to discriminate between tumor and non-malignant samples on test sensitivity (with a fixed specificity of 95%). Although few of the 29 markers (as shown in Figure 8) have a sensitivity of greater than 90, 95, or 99% when used alone in this analysis, the combination of two or three markers enabled high sensitivity to be reached with large numbers of combinations. For example, 50 combinations of three markers would discriminate between tumor and non-malignant samples with a sensitivity of 99% and specificity of 95%. Example 5: Detection of Gastric Tumor Marker Proteins In yet further embodiments, GTM proteins can be detected as a basis for diagnosis. In certain situations, the concentration of mRJTA in a particular sample, such as a sample containing no cells, it may be difficult to use either microarray or qPCR methods to detect elevations in gene expression. Thus, in certain embodiments, detection of GTM proteins can be accomplished using antibodies directed against either the entire protein, a fragment of the protein (peptide) or the protein core. Methods for detecting and quantifying expression of proteins and peptides are known in the art and can include methods relying on specific antibodies raised against the 78 WO 2005/010213 PCTIUS2004/022959 protein or peptide. Monoclonal antibodies and polyclonal antisera can be made using methods that are well known in the art and need not be described herein further. To demonstrate that GTM proteins can be used to discriminate tumor from non-tumor tissue, commercial antibodies were obtained against SPARC (R&D Systems; cat # AF941), THBS2 (Santa Cruz Biotechnology Inc; cat # sc-7655), CSPG2 (Calbiochem; cat # 428060) and IGFBP7 (R&D Systems; cat # AF1334). An additional polyclonal antibody was raised in rabbits (Alpha Diagnostic International Inc; San Antonio) against the cystatin SN peptide sequence 50-66 (C) FAISEYNKATKDDYYRR. SEQ ID NO: 108. These antibodies were used in either immunohistochemistry or Western analysis of tumor and non-malignant gastric tissue. Each of these markers showed strong tumor:normal differences at the protein level. This confirmed that the over expression observed at the RNA level for these genes also occurred at the protein level. Figure 14 shows a Western blot analyses of total protein extracted from two pairs of tumor and non-malignant tissues using antibodies against the proteins encoded by SPARC, CST1 (cystatin SN), IGFBP7 and THBS2. For each marker, the signal is significantly higher in the tumor samples than the non-malignant samples. The antibody raised against cystatin SN detected three major bands, corresponding to molecular weights of approximately 34, 45 and 65kDa respectively. The lowest molecular weight band is shown in Figure 14. The protein species were larger than the control cystatin SN protein, suggesting that the protein produced by tumors has undergone post-translational modifications or multimerization. Regardless of the mechanism responsible for the differences in molecular weights of CST proteins, Figure 14 demonstrated that CST expression was low in the non-tumor tissue, but was easily observed in blots of tumor-derived proteins. Figure 14 also showed that SPARC protein is expressed substantially to a greater degree in tumor tissue than in non-tumor tissue. The SPARC protein had gel mobility slower than the form of this protein that was detected in serum (Figure 15), also indicating the occurrence of different post-translational modifications in proteins produced by malignant gastric cells. Regardless of the mechanism(s) responsible for any such modification, the finding that SPARC is over-expressed in tumor tissue relative to non-malignant tissue indicates that SPARC is a useful protein marker. 79 WO 2005/010213 PCT/US2004/022959 Similarly, IGFBP7 and THBS2 show over-expression in tumor tissue relative to non malignant tissue. Immunohistochemical analysis of tumor and non-malignant tissue was carried out using antibodies against the proteins encoded by CSPG2 (versican) and CST1 (cystatin SN). Immunohistochemical analysis of tissue with antibodies against versican identified strong staining in the extracellular matrix of tumor tissue, but not non-malignant tissue. With the anti-cystatin SN antibodies, strong staining was observed in the area around the outside of the tumor cells. In non-malignant cells, the staining with this antibody was weaker, and observed only on the mucosal surface of the tissue and the lining of the gastric pits. This demonstrated that in non-malignant cells, cystatin SN protein is directed out of the cell onto the mucosal surface and not into the extracellular spaces. Therefore, not only is the cystatin SN protein being produced in higher amounts in tumor tissue than non-malignant tissue, but, unlike the protein produced by the non-malignant tissue, the tumor cystatin SN is in direct contact with the tissue vasculature. To extend these observations, cystatin SN was immunoprecipitated from the supernatant of the gastric cancer cell line, AGS with a monoclonal antibody (R&D Systems; cat # MAB1285) (Figure 16). Large amounts of cystatin SN were detected in the supernatant, confirming that this protein is produced by, and secreted from, gastric epithelial cells. Example 6: Analysis of Tumor Markers in Serum For a marker to be useful for rapid screening, it is desirable for the marker to be present in the serum in sufficient levels for detection. Certain proteins described in Figure 8 can be secreted into the blood at detectable levels from gastric cancers. One marker known to be secreted from gastric tumors into blood in detectable levels is TvIP1. However, if a protein is secreted or shed from any surface of a cell other than a mucosal surface, it will have contact with the interstitial fluid. From there, it can pass either directly into the blood supply through a capillary or via the lymph system. Thus, any shed GTM will be present in blood. Osteopontin, thyroglobulin, and members of the MMP and kallikrein families have previously been described to be elevated in the serum of patients with a range of epithelial cancers, but not gastric cancer. TIMP1 has, however, previously been observed to be elevated in the serum of gastric cancer patients. These findings suggest that the selection criteria for markers in this study, namely over-expression of secreted proteins in tumor tissue but not non 80' WO 2005/010213 PCT/US2004/022959 malignant tissue, can be effectively used to detect markers in the serum, and thus can be of substantial use clinically, without the need for tissue or organ biopsies. From Figure 15, it is apparent that the serum SPARC has a different molecular weight (depicted here in the Western blot) with the tumor SPARC having a lower molecular weight than the SPARC produced by blood cells. Thus, even though SPARC is produced by tumor and non-tumor blood cells, the presence of tumor SPARC can be determined using molecular size, such as determined using Western analysis, or with an antibody specific for the glycosylated protein produced by the tumor cells. In another study, we detected cystatin SN in the supernatant of a gastric cancer cell line, AGS. Figure 16 depicts a Western analysis of media alone or a supernatant from AGS cells in culture. The right hand lane of Figure 16 shows a dense band corresponding to cystatin SN protein. Thus, we conclude from Figure 10 that GTM of this invention are suitable for diagnosing gastric cancers at early, middle or late stages of progression of the disease. Although certain marker proteins can be glycosylated, variations in the pattern of glycosylation can, in certain circumstances, lead to mis-detection of forms of GTMs that lack usual glycosylation patterns. Thus, in certain embodiments of this invention, GTM immunogens can include deglycosylated GTM or deglycosylated GTM fragments. Deglycosylation can be accomplished using one or more glycosidases known in the art. Alternatively, GTM cDNA can be expressed in glycosylation-deficient cell lines, such as prokaryotic cell lines, including E. coli, thereby producing non-glycosylated proteins or peptides. It can also be appreciated that the level and quality of glycosylation can be sensitive to the presence of essential precursors for sugar side-chains. Thus, in the absence of an essential sugar, "normal" glycosylation may not occur, but rather, shorter or missing side chain sugars may be found. Such "glycosylation variants" can be used as immunogens to produce antibodies specific for different types of marker genes. Additionally, certain GTMs may form homo-or heterodimers or other types of multimeric fonns. For example, inhibin beta A is a 47 kDa protein that can form homodimers of 97 kDa molecular weight (activin A) and 92 kDa heterodimers with the 45 kDa protein inhibin beta B (the heterodimers are known as activin AB). Thus, it can be appreciated that Western analysis or other type of assay that provides molecular weight need not be limited to only detection of a monomeric form of a 81 WO 2005/010213 PCT/US2004/022959 GTI. Rather, one can readily appreciate that any form of a GTM can be detected, regardless of the molecular weight. Thus, detection of a multimeric form of a GTM can be readily used to diagnose the presence of gastric cancer. Further, for those GTM that are selective for stage (1-4) or type of gastric tumor (diffuse or intestinal), detection of a multimeric form can provide suitable target for evaluating stage or type of gastric cancer. Once an antibody or antiserum against a GTM is produced, such antibody preparations can be used for in a variety of ways. First, enzyme-linked immunosorbent assay (ELISA) or radioimmunoassay (RIA) methods can be used to quantify GTM proteins or peptides. Immunodetection can be accomplished in tissue samples using immunohistochemistry. These methods are all known in the art and need not be described further herein. Example 7: Vectors Containing GTM Oligonucleotides Other embodiments of this invention include vectors useful for in vitro expression of marker genes or portions thereof ("marker peptides") or fragments of marker gene products. For example, vectors can be made having oligonucleotides for encoding GTMs therein. Many such vectors can be based on standard vectors known in the art. This invention also includes vectors that can be used to transfect a variety of cell lines to prepare GTM-producing cell lines, which can be used to produce desired quantities of GTMs for development of specific antibodies or other reagents for detection of GTMs or for standardizing developed assays for GTMs. It is to be understood that to manufacture such vectors, an oligonucleotide containing the entire open reading frame or a portion of such an open reading frame encoding a portion of the protein to be expressed can be inserted into a vector containing a promoter region, one or more enhancer regions operably linked to the oligonucleotide sequence, with an initiation codon, an open reading frame, and a stop codon. Methods for producing expression vectors are known in the art and need not be repeated herein. It can also be appreciated that one or more selectable markers can be inserted into an expression vector to pennit the expansion of cell lines selected to contain the expression vector of interest. Moreover, one can also insert leader sequences known in the art, in frame, to direct secretion, internal storage or membrane insertion of the protein or protein fragment in the expressing cell. 82 WO 2005/010213 PCT/US2004/022959 Example 8: Cells Transfected with GTM-Containing Vectors In still further embodiments, cells are provided that can express GTMs, GTM fragments or peptide markers. Both prokaryotic and eukaryotic cells can be so used, For example, E. coli (a prokaryotic cell) can be use to produce large quantities of GTMs lacking in mature glycosylation (if the particular GTM normally is glycosylated). COS cells, 293 cells and a variety of other eukaryotic cells can be used to produce GTMs that are glycosylated, or have proper folding and therefore, three dimensional structure of the native form of the GTM protein. Methods for transfecting such cells are known in the art and need not be described further herein, Example 9: Kits Based on the discoveries of this invention, several types of test kits can be produced. First, kits can be made that have a detection device pre-loaded with a detection molecule (or "capture reagent"). In embodiments for detection of GTM mRNA, such devices can comprise a substrate (e.g., glass, silicon, quartz, metal, etc) on which oligonucleotides as capture reagents that hybridize with the mRNA to be detected. In some embodiments, direct detection of miRNA can be accomplished by hybridizing mPNA (labeled with cy3, cy5, radiolabel or other label) to the oligonucleotides on the substrate. Ins other embodiments, detection of mRNA can be accomplished by first making complementary DNA (cDNA) to the desired mRNA. Then, labeled cDNA can be hybridized to the oligonucleotides on the substrate and detected. Regardless of the detection method employed, comparison of test GTM expression with a standard measure of expression is desirable. For example, RNA expression can be standardized to total cellular DNA, to expression of constitutively expressed RNAs (for example, ribosomal RNA) or to other relatively constant markers. Antibodies can also be used in kits as capture reagents. In some embodiments, a substrate (e.g., a multiwell plate) can have a specific GTM capture reagent attached thereto. In some embodiments, a kit can have a blocking reagent included. Blocking reagents can be used to reduce non-specific binding. For example, non-specific oligonucleotide binding can be reduced using excess DNA from any convenient source that does not contain GTM oligonucleotides, such as salmon sperm DNA. 83 WO 2005/010213 PCT/US2004/022959 Non-specific antibody binding can be reduced using an excess of a blocking protein such as serum albumin. It can be appreciated that numerous methods for detecting oligonucleotides and proteins are known in the art, and any strategy that can specifically detect GTM associated molecules can be used and be considered within the scope of this invention. In embodiments relying upon antibody detection, GTM proteins or peptides can be expressed on a per cell basis, or on the basis of total cellular, tissue, or fluid protein, fluid volume, tissue mass (weight). Additionally, GTM in serum can be expressed on the basis of a relatively high-abundance serum protein such as albumin. In addition to a substrate, a test kit can comprise capture reagents (such as probes), washing solutions (e.g., SSC, other salts, buffers, detergents and the like), as well as detection moieties (e.g., cy3, cy5, radiolabels, and the like). Kits can also include instructions for use and a package. Although this invention is described with reference to specific embodiments thereof, it -can be appreciated that other embodiments involving the use of the disclosed markers can be used without departing from the scope of this invention. INDUSTRIAL APPLICABILITY Methods for detecting GTM family members include detection of nucleic acids using microarray and/or real time PCR methods and detection of proteins and peptides. The compositions and methods of this invention are useful in the manufacture of diagnostic devices and kits, diagnosis of disease, evaluating efficacy of therapy, and for producing reagents suitable for measuring expression of GTM family members in biological samples. 84
Claims (11)
1. A method for detecting gastric cancer, comprising: (a) providing a biological sample; and (b) detecting over-expression of a GTM family member in said sample, wherein the GTM family member is serine or cysteine proteinase inhibitor clade B ("SERPINB5").
2. A method according to claim 1, comprising the further step of comparing the amount of GTM present in said test sample with a value obtained from a control sample from a subject not having gastric cancer.
3. The method according to claim 1 or 2, comprising detecting over expression of at least one further GTM family member selected from the group consisting of carboxypeptidase N, polypeptide 2, 83 kDa chain (CPN2), matrix metalloproteinase 12 (MMP12), inhibin ("INHBA"), insulin-like growth factor 7 ("IGFBP7"), gamma-glutamyl hydrolase ("GGH"), leucine praline-enriched proteoglycan ("LEPRE1"), cystatin S "(CST4"), secreted frizzled-related protein 4 ("SFRP4"), asporin ("ASPN"), cell growth regulator with EF hand domain 1 ("CGREF1"), kallikrein 10 (KLK10), tissue inhibitor of metalloproteinase 1 (TIMPl"), secreted acidic cysteine-rich protein ("SPARC"), transforming growth factor, B-induced ("TGFBI"), EGF-containing fibulin-like extracellular matrix protein 2 ("EFEMP2"), lumican ("LUM"), stannin ("SNN"), secreted phosphoprotein 1 ("SPP1"), chondroitin sulfate proteoglycan 2 ("CSPG2"), N acylsphingosine amidohyrolase ("ASAH1"), serine protease 11 ("PRSS 11"), secreted frizzled-related protein 2 ("SFRP2"), phospholipase A2, group XIIB ("PLA2G12B"), spondin 2, extracellular matrix protein ("SPON2"), olfactomedin 1 ("OLFM1"), thrombospondin repeat containing 1 ("TSRC1"), thrombospondin 2 ("THBS2"), adlican, cystatin SA ("CST2"), lysyl oxidase-like enzyme 2 ("LOXL2"), thyroglobulin ("TG"), transforming growth factor betal ("TGFB 1"), serine or cysteine proteinase inhibitor clade H ("SERPINH1"), matrix metalloproteinase 2 ("MMP2"), proprotein convertase subtilisin/kexin type 5 ("PCSK5"), and hyaluronan glycoprotein link protein 4 ("HAPLN4"). 85
4. The method according to any one of claims 1 to 3, wherein the step of detecting is carried out by detecting over-expression of GTM mRNA, cDNA or using an oligonucleotide complementary to at least a portion of said GTM cDNA.
5. The method according to claim 4, wherein the step of detecting is carried out using qPCR method using a forward primer and a reverse primer.
6. The method according to any one of claims 1 to 3, wherein the step of detecting is carried out by detecting over expression of a GTM protein or peptide.
7. The method according to claim 6, wherein the step of detecting is carried out using an antibody directed against said GTM.
8. The method according to any of claims 6 to 7, wherein the step of detecting is carried out using a sandwich-type immunoassay method.
9. The method according to any of claims 7 or 8, wherein the antibody is a monoclonal antibody or polyclonal antiserum.
10. The method according to any one of claims 1 to 3, 5 or 6, wherein the step of measuring uses an ELISA assay.
11. The method according to any one of claims 1 to 10, wherein the test sample is obtained from tissue, urine, gastric fluid, serum, stool, blood or plasma. 86
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| AU2012216703A Ceased AU2012216703B2 (en) | 2003-07-17 | 2012-09-07 | Markers for detection of gastric cancer |
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| AU2011203336A Ceased AU2011203336B2 (en) | 2003-07-17 | 2011-07-07 | Markers for detection of gastric cancer |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN114836539B (en) * | 2022-05-06 | 2022-12-06 | 皖南医学院第一附属医院(皖南医学院弋矶山医院) | circRNA marker for gastric cancer metastasis prediction and prognosis judgment and application thereof |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2002081498A2 (en) * | 2001-04-03 | 2002-10-17 | Curagen Corporation | Novel proteins and nucleic acids encoding same |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| WO2002081498A2 (en) * | 2001-04-03 | 2002-10-17 | Curagen Corporation | Novel proteins and nucleic acids encoding same |
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| AU2011203336A1 (en) | 2011-07-28 |
| AU2012216703A1 (en) | 2012-09-27 |
| AU2011203336B2 (en) | 2012-06-21 |
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