Melting temperature analysis as quantitative method for detection of point mutations.

Different methods have been devised to detect point mutations. Some are very sensitive, detecting mutations even in a background of normal tissue, but none provide information about the percentage of cells with mutant DNA. Here we describe an easy, fast and reliable method, melting temperature analysis, which not only detects point mutations but also provides quantitative information on the percentage of cells with mutant DNA. By this method we detected a G-A transition in codon 12 of the K-ras gene in DNA of subjects with colorectal cancer. The K-ras mutation was found in 9/10 bowel cancers and 8/10 normal adjacent samples. It was also detected in 4/7 stool samples from the same patients. In colorectal cancers, the proportion of K-ras mutant cells was variable: in two the mutant/wild-type DNA ratio was 30/70, in three 50/50, and in four 70/30. Melting temperature analysis was sensitive for the detection of point mutations in bowel cancer and also in apparently normal tissue, providing quantitative information about the percentage of cells with mutant DNA.     

Diagnostic biochip array for fast and sensitive detection of K-ras mutations in stool

BACKGROUND: Tumor cells that shed into stool are attractive targets for molecular screening and early detection of colon or pancreatic malignancies. We developed a diagnostic test to screen for 10 of the most common mutations of codons 12 and 13 of the K-ras gene by hybridization to a new biochip array. METHODS: DNA was isolated from 26 stool samples by column-based extraction from 9 cell lines. Peptide nucleic acid (PNA)-mediated PCR clamping was used for mutant-specific amplification. We used a biochip, consisting of a small plastic support with covalently immobilized 13mer oligonucleotides. The read out of the biochip was done by confocal time-resolved laser scanning. Hybridization, scanning, and data evaluation could be performed in <2 h. RESULTS: Approximately 80 ng of DNA was obtained from 200-mg stool samples. No inhibition of the PCR by remaining impurities from stool was observed. Mutation detection was possible in 1000-fold excess of wild-type sequence. Discrimination ratios between the mutations were >19 as demonstrated by hybridization with tumor cell line DNA. Stool samples (n = 26) were analyzed in parallel with PNA-PCR, restriction assay for K-ras codon 12 mutations, sequencing, and hybridization to the biochip. Nine mutations were found by hybridization, all confirmed by sequencing. PNA-PCR alone leads to an overestimation of mutations because suppression of the wild type is not effective enough with high concentrations of wild-type DNA. The restriction assay found only four mutations. CONCLUSIONS: The K-ras biochip is well suited for fast mutation detection from stool in colorectal cancer screening.     

K-ras mutation detection by hybridization to a polypyrrole DNA chip

BACKGROUND: Detection of mutations in cancer-related genes is of major importance for both basic knowledge and clinical practice. Several strategies have been developed to diagnose these alterations. We describe a method based on polypyrrole DNA chip technology to detect K-ras gene mutations in tumors. METHODS: An oligodeoxynucleotide array was constructed on a silicon device by copolymerization of 5'-pyrrole-labeled oligodeoxynucleotides and pyrrole. The samples to be analyzed were then amplified by PCR, and the single-stranded biotin-labeled amplified DNA was specifically hybridized to the addressed probes. Perfectly matched duplexes were detected by fluorescence microscopy using R-phycoerythrin as the detection label. The developed methodology was applied to genotype assignment of K-ras in human samples. The genotypes of 75 DNA genomic samples from colorectal cancer patients were analyzed side by side using direct DNA sequencing and a polypyrrole DNA chip. RESULTS: The chip method unequivocally defined all of the genotypes. Mutations present at <10% of the wild-type DNA concentration could be distinguished. CONCLUSIONS: This probe array assay is a rapid and reliable procedure that may be used to detect mutations.     

Rapid detection of K-ras mutations in bile by peptide nucleic acid-mediated PCR clamping and melting curve analysis: comparison with restriction fragment length polymorphism analysis

BACKGROUND: Current methods for detection of K-ras gene mutations are time-consuming. We aimed to develop a one-step PCR technique using fluorescent hybridization probes and competing peptide nucleic acid oligomers to detect K-ras mutations in bile and to compare the efficacy with restriction fragment length polymorphism (RFLP) analysis. METHODS: Bile samples were obtained from 116 patients with biliary obstruction, including gallstones (n = 64), benign biliary strictures (n = 6), pancreatic cancer (n = 20), and cholangiocarcinoma (n = 26). The DNA was extracted and subjected to K-ras mutation analysis by real-time PCR and RFLP analysis. Mutations were confirmed by direct sequencing. The sensitivity and specificity were calculated according to the clinical results. RESULTS: The analysis time for real-time PCR was <1 h, whereas RFLP analysis took more than 2 days. With the sensor probe designed for the GAT (G12D) mutant in codon 12 of the K-ras gene, the real-time PCR method also detected the GTT (G12V) mutant. In contrast, a specific sensor probe for the TGT (G12C) mutant detected GAT (G12D), AGT (G12S), and GTT (G12V) mutants in addition to the TGT mutant. The real-time PCR assay allowed the detection of mutation in a 3000-fold excess of wild-type bile DNA. In bile, K-ras codon 12 mutations were detected in 16 of 46 malignant cases by real-time PCR with the TGT probe and 15 by RFLP analysis. All benign cases were wild type. CONCLUSION: Real-time PCR with a cysteine-specific (TGT) sensor probe can rapidly detect K-ras gene mutations in bile and diagnose malignant biliary obstruction with high specificity.     

焦磷酸测序法快速检测胰腺癌K-ras基因点突变

目的 建立基于焦磷酸测序技术的胰腺癌K-ras基因点突变的检测方法,并与Sanger测序法作一比较.方法 用焦磷酸测序法(Pyrosequencing)和Sanger测序法(Sanger sequencing)分别在10名正常胰腺组织、49例胰腺癌、11例慢性胰腺炎、18例胰腺良性囊肿、7例胰岛素癌、9例壶腹癌、7例胆管癌及7例十二指肠乳头癌石蜡包埋组织的DNA中检测K-rag基因12密码子点突变.结果 采用上述两种方法在所有正常胰腺组织、慢性胰腺炎、胰腺良性囊肿、胰岛素癌、壶腹癌、胆管癌及十二指肠乳头癌均未见K-ras基因点突变,而采用焦磷酸测序法发现胰腺癌石蜡包埋组织K-ras基因点突变率为71.4%(35/49),显著高于采用Sanger测序法发现胰腺癌石蜡包埋组织K-rag基因点突变率(61.2%,30/49).结论 焦磷酸测序法较Sanger测序法更为敏感,且焦磷酸测序法准确、快速、高通量,适合临床标本的批量测定.     

A locked nucleic acid clamp-mediated PCR assay for detection of a p53 codon 249 hotspot mutation in urine

Hepatocellular carcinoma (HCC) has a 5-year survival rate of <10% because it is difficult to diagnose early. Mutations in the TP53 gene are associated with approximately 50% of human cancers. A hotspot mutation, a G:C to T:A transversion at codon 249 (249T), may be a potential DNA marker for HCC screening because of its exclusive presence in HCC and its detection in the circulation of some patients with HCC. A locked nucleic acid clamp-mediated PCR assay, followed by melting curve analysis (using the SimpleProbe), was developed to detect the TP53 249T mutation. In this assay, the locked nucleic acid clamp suppressed 10(7) copies of wild-type templates and permitted detection of 249T-mutated template, with a sensitivity of 0.1% (1:1000) of the mutant/wild-type ratio, assessed by a reconstituted standard within 2 hours. With an amplicon size of 41 bp, it detects target DNA sequences in short fragmented DNA templates. The detected mutations were validated by DNA sequencing analysis. We then tested DNA isolated from urine samples of patients with HCC for p53 mutations and identified positive TP53 mutations in 9 of 17 samples. The possibility of using this novel TP53 249T assay to develop a urine or blood test for HCC screening is discussed.     

应用焦磷酸测序法检测进展期结直肠癌中K-ras基因点突变

目的建立基于焦磷酸测序技术(Pyrosequencing)的结直肠癌K-ras基因点突变的检测方法,并应用于进展期结直肠癌及其转移灶中K-ras基因突变的检测。方法提取116例Ⅳ期结直肠癌及11例转移灶中的DNA,进行PCR扩增后应用Pyrosequencing法检测K-ras基因12及13密码子点突变。结果 116例Ⅳ期结直肠癌中有29例检出K-ras基因点突变,突变率为25.0%,在所有29例突变病例中12密码子点突变率为82.8%(24/29),13密码子点突变率为17.2%(5/29),所有11例转移灶的K-ras基因均与其原发病灶相一致。结论 Pyrosequencing能准确、快速、高通量地进行K-ras基因点突变测定,适合大规模临床标本检测,有利于指导结直肠癌尤其是转移性病变的个体化治疗。     

Human urine contains small, 150 to 250 nucleotide-sized, soluble DNA derived from the circulation and may be useful in the detection of colorectal cancer

Human urine has been shown to possess submicrogram per milliliter amounts of DNA. We show here that DNA isolated from human urine resolves into two size categories: the large species, greater than 1 kb, being predominantly cell associated and heterogeneous in size, and the smaller, between 150 to 250 bp, being mostly non-cell associated. We showed that the low molecular weight class of urine DNA is derived from the circulation, by comparing the mutated K-ras sequences present in DNA isolated from tumor, blood, and urine derived from an individual with a colorectal carcinoma (CRC) containing a mutation in codon 12 of the K-ras proto-oncogene. In the urine, mutated K-ras sequences were abundant in the low molecular weight species, but far less abundant in the large molecular weight-derived DNA. Finally, the possibility that detection of mutant K-ras sequences in DNA derived from the urine correlates with the occurrence of a diagnosis of CRC and polyps that contain mutant K-ras was explored in a blinded study. There was an 83% concurrence of mutated DNA detected in urine and its corresponding disease tissue from the same individuals, when paired urine and tissue sections from 20 subjects with either CRC or adenomatous polyps were analyzed for K-ras mutation. The possibility that the source of the trans renal DNA is apoptotic cells, and the potential use of this finding for cancer detection and monitoring is discussed.     

Quantitative mitochondrial DNA mutation analysis by denaturing HPLC

BACKGROUND: In recent years, denaturing HPLC (DHPLC) has been widely used to screen the whole mitochondrial genome or specific regions of the genome for DNA mutations. The quantification and mathematical modeling of DHPLC results is, however, underexplored. METHODS: We generated site-directed mutants containing some common mutations in the mitochondrial DNA (mtDNA) tRNA(leu) region with different mutation loads and used PCR to amplify the gene segment of interest in these mutants. We then performed restriction digestion followed by slow reannealing to induce heteroduplex formation and analyzed the samples by use of DHPLC. RESULTS: We observed a quadratic relationship between the heteroduplex peak areas and mutant loads, consistent with the kinetics of heteroduplex formation reported by others. This was modeled mathematically and used to quantify mtDNA mutation load. The method was able to detect a mutation present in a concentration as low as 1% and gave reproducible measurements of the mutations in the range of 2.5%-97.5%. CONCLUSION: The quantitative DHPLC assay is well suited for simultaneous detection and quantification of DNA mutations.     

A novel, double mutation in DNA gyrase A of Escherichia coli conferring resistance to quinolone antibiotics.

A spontaneous Escherichia coli mutant, named Q3, resistant to nalidixic acid was obtained from a previously described clinical isolate of E. coli, Q2, resistant to fluoroquinolones but susceptible to nalidixic acid (E. Cambau, F. Bordon, E. Collatz, and L. Gutmann, Antimicrob. Agents Chemother. 37:1247-1252, 1993). Q3 harbored the mutation Asp82Gly in addition to the Gly81Asp mutation of Q2. The different mutations leading to Gly81Asp, Asp82Gly, and Gly81AspAsp82Gly were introduced into the gyrA gene harbored on plasmid pJSW102, and the resulting plasmids were introduced into E. coli KNK453 (gyrAts) by transformation. The presence of Asp82Gly or Gly81Asp alone led to a low-level resistance to fluoroquinolones but not to nalidixic acid resistance. When both mutations were present, resistance to both nalidixic acid and fluoroquinolones was expressed. Purified gyrases of the different mutants showed similar rates of supercoiling. Dominance of the various gyrA mutant alleles harbored on plasmids was examined. The susceptibility to quinolones associated with wild-type gyrA was always dominant. The susceptibility to nalidixic acid expressed by the Gly81Asp mutant was dominant, while that expressed by the Asp82Gly mutant was recessive. From these results, we hypothesize that some amino acids within the quinolone resistance-determining region of gyrase A are more important for the association of subunits rather than for the activity of the holoenzyme.     

Multiplexed assays for detection of mutations in PIK3CA

BACKGROUND: Mutations in the PIK3CA gene (phosphoinositide-3-kinase, catalytic, alpha polypeptide) have recently been described in a number of cancers, and their detection is currently limited because of the low sensitivity of conventional sequencing techniques. METHODS: We combined Amplification Refractory Mutation System (ARMS; AstraZeneca) allele-specific PCR and Scorpions (DxS) to develop assays for tumor-borne PIK3CA mutations and used real-time PCR to develop high-throughput multiplexed assays for the most commonly reported PIK3CA mutants (H1047L, H1047R, E542K, E545K). RESULTS: These assays were more sensitive than sequencing and could detect 5 copies of mutant DNA in proportions as low as 0.1% of the total DNA. We assayed DNA extracted from human tumors and detected PIK3CA mutation frequencies of 10.2% in colorectal cancer, 38.7% in breast cancer, 1.9% in lung cancer, and 2.9% in melanoma. In contrast, sequencing detected only 53% of the mutations detected by our assay. CONCLUSIONS: Multiplexed assays, which can easily be applied to clinical samples, have been developed for the detection of PIK3CA mutations.     

Single LDL apheresis improves serum remnant-like particle-cholesterol,C-reactive protein,and malondialdehyde-modified-low-density lipoprotein concentrations in Japanese hypercholesterolemic subjects

BACKGROUND: We examined a technique for detecting point mutations of K-ras codon 12 in stool samples using one-step polymerase chain reaction/restriction fragment length polymorphism (PCR/RFLP) analysis, in order to determine whether it could be used to screen for colorectal cancer. METHODS: DNA was extracted from 200-mg stool specimens of 5 healthy controls and 31 colorectal cancer patients. A 107-base-pair fragment of exon 1 of K-ras was amplified by PCR using mismatched primers. PCR products were digested with Bst NI and analyzed by gel electrophoresis followed by silver staining. Specificity of one-step PCR/RFLP was examined by using synthetic oligonucleotides. The detection limit of K-ras codon 12 mutations was determined by using SW480 and HT29 cells. RESULTS: The K-ras gene was successfully amplified from all healthy controls and colorectal cancer patients studied. Mutations of K-ras codon 12 were not detected in any of the healthy controls, but were identified in 13 (41.9%) of the 31 patients with colorectal cancer. Mutations were detectable in all six synthetic mutant DNAs, while none were detected among the wild type. The detection limit of this method was > or = 0.1%. CONCLUSIONS: PCR/RFLP analysis could be used in mass screening for colorectal cancer, because it is highly specific, has a low detection limit, and is simpler than conventional methods for detecting genetic abnormalities.     

Sensitive sequencing method for KRAS mutation detection by Pyrosequencing

Both benign and malignant tumors represent heterogenous tissue containing tumor cells and non-neoplastic mesenchymal and inflammatory cells. To detect a minority of mutant KRAS alleles among abundant wild-type alleles, we developed a sensitive DNA sequencing assay using Pyrosequencing, ie, nucleotide extension sequencing with an allele quantification capability. We designed our Pyrosequencing assay for use with whole-genome-amplified DNA from paraffin-embedded tissue. Assessing various mixtures of DNA from mutant KRAS cell lines and DNA from a wild-type KRAS cell line, we found that mutation detection rates for Pyrosequencing were superior to dideoxy sequencing. In addition, Pyrosequencing proved superior to dideoxy sequencing in the detection of KRAS mutations from DNA mixtures of paraffin-embedded colon cancer and normal tissue as well as from paraffin-embedded pancreatic cancers. Quantification of mutant alleles by Pyrosequencing was precise and useful for assay validation, monitoring, and quality assurance. Our Pyrosequencing method is simple, robust, and sensitive, with a detection limit of approximately 5% mutant alleles. It is particularly useful for tumors containing abundant non-neoplastic cells. In addition, the applicability of this assay for DNA amplified by whole-genome amplification technique provides an expanded source of DNA for large-scale studies.     

Three-dimensional microarray compared with PCR-single-strand conformation polymorphism analysis/DNA sequencing for mutation analysis of K-ras codons 12 and 13

BACKGROUND: We developed a rapid, precise, and accurate microarray-based method that uses a three-dimensional platform for detection of mutations. METHODS: We used the PamChip microarray to detect mutations in codons 12 and 13 of K-ras in 15 cell lines and 81 gastric or colorectal cancer tissues. Fluorescein isothiocyanate-labeled PCR products were analyzed with the microarray. We confirmed the microarray results with PCR-single-strand conformation polymorphism (SSCP) analysis and DNA sequencing. RESULTS: We could correctly identify wild-type, heterozygous, and homozygous mutant genotypes with the PamChip microarray in <3.5 h. The array data were consistent with those of PCR-SSCP analysis and DNA sequencing. All 15 cell lines and 80 of 81 clinical cancer specimens (98.8%; 95% confidence interval, 96.4-100%) were genotyped accurately with the microarray, a rate better than that of direct DNA sequencing (38.9%) or SSCP (93.8%). Only one clinical specimen was misdiagnosed as homozygous for the wild-type allele. Densitometric analysis of SSCP bands indicated that the content of the mutant allele in the specimen was approximately 16%. The PamChip microarray could detect mutant alleles representing more than 25% of the SSCP band proportions. Therefore, the limit for detection of mutant alleles by the PamChip microarray was estimated to be 16-25% of the total DNA. CONCLUSIONS: The PamChip microarray is a novel three-dimensional microarray system and can be used to analyze K-ras mutations quickly and accurately. The mutation detection rate was nearly 100% and was similar to that of PCR-SSCP together with sequencing analysis, but the microarray analysis was faster and easier.     

The effect of EDTA contaminated in sera on laboratory data

BACKGROUND: Two types of quantitative assay kits for K-ras mutations, PCR-preferential homoduplex formation assay (PHFA) and enriched PCR and enzyme-linked mini-sequence assay (ELMA), were recently developed. The K-ras mutations were analyzed using these assays. MATERIALS AND METHODS: DNA was extracted from the pancreatic juice which was obtained by endoscopy from 38 patients with pancreatic neoplasms (23 adenocarcinomas and 15 intraductal papillary neoplasms) and from 62 without it. RESULTS: The results of the two methods were mutually correlative. K-ras mutation was detected at high levels (mutant ras genes occupied >2% of all K-ras genes) in 25 of the 38 cases (66%) with pancreatic neoplasm. It was also detected at high levels in 9 of the 14 cases (64%) with pancreatic cyst. In contrast, the mutant gene was detected at a lower level (<2%) in other cases. CONCLUSIONS: Quantitative analysis of the mutant ras gene provided a useful tool for diagnosing the pancreatic carcinoma when the percentage of the mutant is high, especially when the types of mutation were either GAT or GTT.     

Rapid detection of common CARD15 variants in patients with inflammatory bowel disease.

BACKGROUND: Three mutations (R702W, G908R, and 1007fs) within the CARD15 gene have been identified as independent risk factors for the development of Crohn's disease (CD). Virtually all studies investigating the occurrence of these mutations in patients with CD have used separate PCR-based methods to screen patient DNA, here we describe a novel multiplex amplification refractory mutation system (ARMS) assay that allows the simultaneous detection of R702W, G908R, and 1007fs, and a fourth CARD15 variant, P268S, at a fraction of the cost of the pre-existing genotyping assays. METHODS: Allele-specific primer sets were designed for each CARD15 variant, optimized separately for annealing temperature and MgCl2 and then multiplexed. The mutant- and wild-type-specific primers were split across two tubes so that each multiplex reaction was internally controlled for amplification failure. An additional primer pair specific to beta2-microglobulin was included as an independent control for DNA quality. The specificity of each primer set was tested using positive controls that had been validated by sequencing, and the robustness of the final ARMS assay was assessed by genotyping 111 Caucasian patients with inflammatory bowel disease (IBD). RESULTS: The specificity of each primer set was confirmed using a sequence validated positive control for each of the four CARD15 variants. Of the 111 DNA samples screened with our ARMS assay, a clear CARD15 genotype was obtained for 109 patients. DISCUSSION AND CONCLUSIONS: Given the potential predictive value of R702W, G980R, and 1007fs, a robust genotyping method for these variants would be of considerable value both in diagnostic and research settings. Our ARMS assay only takes 3-4 hours to perform once DNA has been extracted and requires only 1U of Taq DNA polymerase, making it a rapid, reliable, and cost-effective alternative to current CARD15 genotyping methods.     

K-ras point mutations in spontaneously occurring endometrial adenocarcinomas in the Donryu rat

The Donryu rat has been found to have a high incidence of spontaneous uterine endometrial carcinomas. Moreover the histologic findings, biological nature and pathogenesis of these rat tumors appear similar to those in humans. To determine if the incidence of H- and K-ras gene mutations in these rat tumors is similar to that in human endometrial cancers, we isolated DNA samples from 2 atypical hyperplasias, 5 simple or complex hyperplasia without atypia, 9 adenocarcinomas and 7 histologically normal tissues, amplified exons 1 and 2 of the H- and K-ras genes by PCR and hybridized the products with allele specific oligonucleotide probes. K-ras point mutations were observed in 1/2 of the atypical hyperplasia (codon 12: GGT-->GTT) and 3/9 of the carcinoma (codon 12: GGT-->GAT, GGT-->AGT, codon 61: CAA-->CAC), while they were not detected in 7 of the normal tissues and in 5 of the simple or complex hyperplasia without atypia. H-ras point mutations were not detected in any of these DNA samples. These frequencies in this rat model are similar to those in humans. The absence of K-ras mutations from simple and complex hyperplasia tissue samples suggests that these mutations are associated with cytological atypia. Our findings suggest that alterations in the K-ras gene may be one of the important initiating event in endometrial carcinogenesis in some of the Donryu rat, like the human.     

探针熔解分析法检测结核分枝杆菌异烟肼耐药突变的应用和评价

目的 评价PMA技术检测MTB对INH耐药突变的价值,调查INH耐药突变发生特征.方法 MTB标准株H37Rv来自国家结核病参比实验室,1株INH敏感株和1株katG S315TACC突变株来自厦门市疾病预防控制中心,7株含有已知INH耐药突变的结核耐药株来自深圳慢性病防治中心、河南省疾病预防控制中心、中国人民解放军第309医院和厦门市疾病预防控制中心.707份MTB临床分离株来自厦门市疾病预防控制中心、厦门市第一医院和漳州市疾病预防控制中心,126份MTB涂阳痰标本来自厦门市同安区疾病预防控制中心.MTB标准株H37Rv、7株MTB INH耐药株和833份临床标本均采用厦门致善结核分枝杆菌异烟肼耐药突变检测试剂盒热裂解法提取基因组DNA,1株INH敏感株和1株katG S315T ACC突变株采用AxyPrepTM细菌基因组DNA提取试剂盒提取基因组DNA.熔解曲线分析所检标本与野生型对照在katG315位密码子、inhA启动子区(- 17～-8位点)、ahpC启动子区(-44～-30以及-15 ～3位点)及inhA94位密码子的熔解温度(Tm值)差异判断标本是否发生INH耐药突变.3×105拷贝/反应的野生株和katG S315T ACC突变株以10倍梯度稀释至300拷贝/反应,分析PMA技术的灵敏度.用PMA技术检测7株含有已知INH耐药突变的结核耐药株,评价特异性,并就其中5种耐药突变进行重复性检验.测序验证PMA技术对833份标本INH耐药性的临床检测效能.结果 PMA技术从核酸提取到结果判断可在3小时内完成,在标准96孔实时PCR仪器上可同时检测46份标本.对野生株和katG S315T ACC突变株的灵敏度均为300拷贝/反应,能够同时区分9种INH耐药相关点突变或缺失,5种耐药突变的Tm值标准偏差均在0.5℃之内.检出的162份突变标本与测序验证结果均一致.临床标本验证突变率为19.4％( 162/833),在所检出的14种INH耐药突变katGS315T( AGC →ACC)、inhA启动子区- 15C→T和katG S315N (AGC→AAC)这3种突变占INH耐药突变标本的83.3％(135/162).结论 PMA技术可快速、灵敏、特异检测结核INH耐药突变.     

Mutant-enriched PCR and allele-specific hybridization reaction to detect K-ras mutations in stool DNA: high prevalence in a large sample of older adults

BACKGROUND: Testing for mutant K-ras in stool has been proposed for the detection of pancreatic and colorectal cancer (CRC). Different analytical techniques have been developed, but studies of this biomarker in the general population are lacking. We investigated the prevalence and potential determinants of mutant K-ras in stool in a large sample of unselected older adults and assessed the association with colonoscopic findings. METHODS: In stool samples from 875 older adults (age range 50-75 years) participating in a large-scale population-based cohort study, we used mutant-enriched PCR and allele-specific hybridization reaction to analyze mutations in codons 12 and 13 of the K-ras gene. We assessed the association between mutant K-ras in stool and risk factors for gastrointestinal cancer sites, exocrine pancreatic insufficiency determined by fecal pancreas elastase 1, and colonoscopic findings. RESULTS: The overall prevalence of mutant K-ras in stool was 8% (95% confidence interval 6%-10%). There was a tentative association between increased fecal pancreas elastase 1 and mutant K-ras in stool (P = 0.09). Patients with advanced colorectal neoplasia diagnosed within 2 years after stool collection (24 with advanced adenomas, 7 with CRC) all tested negative. CONCLUSION: The proposed assay identifies mutant K-ras in stool at a higher prevalence than has been reported for other analytical techniques. Our findings do not support the use of this assay for CRC screening, but its potential use for early detection of pancreatic cancer (in combination with other markers) requires further investigation.