Project description:Genome, Exome, and Transcriptome Sequencing of Gastric Cancer

Project description:Genome, Exome, and Transcriptome Sequencing of Gastric Cancer

Project description:To efficiently identify genetic susceptibility variants for gastric cancer, including rare coding variants, we performed an exome chip-based array study. We found that a linkage disequilibrium (LD) block containing 2 significant variants in PSCA gene increased the risk and two blocks that included 15 suggested variants including TRIM31, TRIM 40, TRIM 10, and TRIM26 regions, and included one suggested variant and OR2H2 gene showed protective associations with gastric cancer susceptibility. In addition, the PLEC region (rs200893203), FBLN2 region (rs201192415), and EPHA2 region (rs3754334) were associated with increased susceptibility We performed an exome chip-based array study in 329 gastric cancer cases and 683 controls.

Project description:Exome sequencing identifies early gastric carcinoma as an early stage of advanced gastric cancer

Project description:To efficiently identify genetic susceptibility variants for gastric cancer, including rare coding variants, we performed an exome chip-based array study. We found that a linkage disequilibrium (LD) block containing 2 significant variants in PSCA gene increased the risk and two blocks that included 15 suggested variants including TRIM31, TRIM 40, TRIM 10, and TRIM26 regions, and included one suggested variant and OR2H2 gene showed protective associations with gastric cancer susceptibility. In addition, the PLEC region (rs200893203), FBLN2 region (rs201192415), and EPHA2 region (rs3754334) were associated with increased susceptibility

Project description:Our aim was to decipher the underlying molecular mechanism of synchronous ovarian metastasis of gastric cancer. We hereby conducted transcriptome sequencing of triple-matched samples including normal gastric mucosa, primary gastric cancer and ovarian metastatic tumors from 3 individual patients with the application of Illumina sequencing platform with 150-bp paired-end. Follow-up analyses not only identified differentially expressed genes between different sample sets (a threshold of fold change >2 and adjusted P value <0.05) but also uncovered significantly enriched signaling pathways of individual type. To sum up, our comparative transcriptomic analyses of triple-matched fresh samples stored in liquid nitrogen profiled the molecular expression and revealed functionally enriched pathways underlying the ovarian metastasis of gastric cancer.

Project description:The raw data consist of whole exome sequencing data of cervical squamous samples

Project description:This information was used to identify mutations associated with particular breast cancer subtypes, as well as associations with response to therapy. 75 breast cancer cell lines underwent exome sequencing to identify mutations.

Project description:Nasopharynx Cancer Whole Exome Sequencing

Project description:We leveraged massively parallel sequencing approach to comprehensively characterize the spectrum of somatic mutations and genomic rearrangements in two intestinal-type gastric adenocarcinomas from patients with and without active Helicobacter pylori infections. The tumours exhibited distinct patterns of genomic changes with more than 16,000 somatic substitutions on average, focal amplifications and rearrangements in the non-active infected tumour and a 7-fold enrichment of micro-deletions in the infected tumour. Paired-end sequences from large insert libraries revealed the structure and origins of large amplicons, including one involving the oncogene KRAS. The mutational frequencies of the tumours revealed patterns of H. pylori infection and mutagenesis and a unique exome signature, providing insights into mechanisms that define the mutational landscape of gastric cancer. For the tumour with active infection, we also reconstructed the genome of the pathogenic H. pylori strain from the raw sequence reads, demonstrating the power of whole-genome shotgun sequencing for simultaneously characterizing the tumour and its associated carcinogen genome.