Project description:Patients suspected of adenomatous polyposis were included. The criteria used were more than 10 polyps observed under colonoscopy, and pathological confirmation of adenoma. Clinical data and pedigree information were collected. The variants of 139 genes associated with different hereditary cancers and polyposis were screened by NGS, which was performed by Genetron Health on the HiSeqX-ten sequencing platform.

Project description:We use NGS to assess the ability of TALE-guided DNA methyltranferases to make targeted changes to DNA methylation Targeted bisulfite sequencing of cells infected with wild-type or mutant TALE-DNMT constructs directed to the CDKN2A (p16) locus

Project description:Bryophytes comprise mosses, liverworts and hornworts. The chromatin landscapes of mosses and liverworts are different, leaving open the question regarding the identity of the chromatin landscape of all bryophytes. To address this question we profiled five chromatin marks using a model hornworts, Anthoceros agrestis.

Project description:184 genes targeted sequencing (NGS) of meningiomas.

Project description:We evaluated whether targeted next-generation sequencing (NGS) using the Ion Torrent Personal Genome Sequencer of cfDNA could identify prognostic or predictive factors for overall survival (OS) or progression free survival (PFS) within a large cohort of patients with advanced lung adenocarcinoma enrolled in the GALAXY-1 trial.

Project description:Most proteogenomic approaches for mapping single amino acid polymorphisms (SAPs) require construction of a sample-specific database containing protein variants predicted from the next-generation sequencing (NGS) data. We present a new strategy for direct SAP detection without relying on NGS data. Among the 348 putative SAP peptides identified in an industrial yeast strain, 85.6% of SAP sites were validated by genomic sequencing.

Project description:Bryophytes comprise mosses, liverworts and hornworts. The chromatin landscapes of mosses and liverworts are different, leaving open the question regarding the identity of the chromatin landscape of all bryophytes. To address this question we obtained a genome wide profile of 5-methylated cytosine from a model hornwort, Anthoceros agrestis.

Project description:Genetic abnormalities including copy number variants (CNVs, such as gains and losses), and gene mutations are important for diagnosis and treatment of myeloid malignances. In a routine clinical setting, somatic gene mutations are detected by targeted next generation sequencing (NGS), but CNVs are commonly detected by conventional chromosome analysis and fluorescence in situ hybridization (FISH). The aim of this proof-of-principle study was to investigate the feasibility of using a targeted NGS assay to simultaneously detect not only somatic mutations, but also CNVs. Here, we sequenced 406 consecutive patients with myeloid malignancies and performed a head-to-head comparison with the results from conventional clinical assays including conventional chromosome analysis and myeloid FISH to detect CNVs. The targeted NGS assay revealed all 120 CNVs detected by myeloid FISH panel including monosomy 5/5q deletions, monosomy 7/7q deletions, trisomy 8, and 20q deletions. Furthermore, the targeted NGS assay also detected 605 CNVs outsides targeted regions of the myeloid FISH panel, which were revealed by conventional cytogenetic testing. The targeted NGS assay achieved 100% concordance with the myeloid FISH for detection of these common myeloid CNVs, with a high clinical sensitivity (> 99%) and specificity (>99%). The lower limit of detection by the myeloid FISH and the targeted NGS assay was similar and was generally 5% variant allele fraction for DNA. This proof-of-principle study demonstrated that the targeted NGS assay can simultaneously detect both common myeloid CNVs and somatic mutations, which can provide more comprehensive genetic profiling for patients with myeloid malignancies using a single assay.

Project description:MicroRNAs (miRNAs) are important in the regulation of many biological processes such as growth and development. To evaluate the role of miRNAs in skeletal muscle regeneration, global miRNA expression was measured during muscle cell growth and differentiation. Primary cultures of murine myogenic progenitor cells (MPC) were studied for miRNA expression using quantitative PCR-array. During MPC differentiation or proliferation, 139 or 16 miRNAs, respectively, exhibited significant >2-fold changes. Cluster analysis revealed 5 distinct miRNA expression patterns at different stages of differentiation. Fourteen miRNAs exhibiting >10-fold change during differentiation included miR-1, 10b, 96, 98, 133a, 139-5p, 330, 335-3p, 339-5p, 344, 486, 499, 504, and 598. Ten of these miRNAs were located in introns of protein coding genes, such as miR-499 located in the myosin heavy chain isoform Myh7b. In silico analysis of possible miRNA-mRNA interactions indicated that many of these miRNAs targeted mRNA critically involved in muscle differentiation. Interestingly, several miRNAs targeted different sites in a given mRNA, suggesting coordinated expression of multiple miRNAs to ensure the regulation of essential genes. These results identify differentially expressed miRNAs that could represent new regulatory elements in MPC proliferation and differentiation.

Project description:Despite relevant clinical and/or familial presentations suggesting a hereditary predisposition (early-onset, multiple primary tumors, familial aggregation), targeted genomic analysis based on the phenotype are often non contributive. As somatic cancer genes are limited, the hypothesis is that the targeted next-generation sequencing of 200 genes, selected for their implications in cancers may contribute to the understanding of many selected patients’ presentation by the identification of germline deleterious mutations, and may identified phenotype overlapping and/or mosaicisms. The focus will be put on early-onset breast, ovarian, colorectal cancer or pediatric cancers and multiple primary tumors.