Project description:Methylation of CpG Islands within promoter regions of genes has been associated with gene silencing, suggesting loss of tumor suppressor function and tumorigenesis. The northeastern states of India are leaders in the country for cancers of several sites. Almost no reports are available of any DNA methylation biomarker for oropharyngeal cancers of the northeastern states. The present study aimed to identify targets of CpG hypermethylation and hypomethylation in oropharyngeal cancer prevalent in northeast India. Using Illumina Infinium Human Methylation 450K microarray platform a genome wide screening has been done for differentially methylated genes, including genes not previously implicated in carcinogenesis. Differential gene expression correlated to their methylation status was elaborated using transcriptome profiling. The new genes identified may be used to develop promising panels of DNA Methylation biomarkers for oropharyngeal screening and detection at a very early stage.
Project description:Whole-genome DNA methylation profiling of oral cancer in patients from North-Eastern states of India. The Illumina Infinium 450k Human DNA methylation BeadChip was used to screen the entire DNA methylation profiles across approximately 485,577 CpGs in matched oral cancer samples. Samples included 12 paired samples (12 cancer and 12 normal).
Project description:We developed an enrichment-free, metabolic-based assay for rapid detection of tumor cells in the pleural effusion and peripheral blood samples. All nucleated cells are plated on microwell chips that contain 200,000 addressable microwells and then screened the chips. After candidate tumor cells were identified, retrieved single tumor cells with micromanipultor. To detection and analysis molecular characterization of these circulating tumor cells, we performed single cell whole genome amplification with multiple displacement amplification (MDA) technology and whole exome sequencing.
Project description:Towards environmental detection, quantification, and molecular characterization of Anopheles stephensi and Aedes aegypti from larval breeding sites
Project description:Towards environmental detection, quantification, and molecular characterization of Anopheles stephensi and Aedes aegypti from larval breeding sites
Project description:N6-Methyladenosine (m6A) in mRNA regulates almost every stage in the mRNA life cycle, and the development of the high throughput detection of methylated sites in mRNA using MeRIPSeq or miCLIP revolutionized the m6A research field. Both methods are based on immunoprecipitation of fragmented mRNA. However, it is well documented that antibodies often have nonspecific activities, thus verification of identified m6A sites using an antibody-independent method would be highly desirable. Currently such approaches are limited. Here we present RedBaron, an improved biochemical method for the site-specific detection and quantification of m6A in RNA. We demonstrate that the RedBaron method is able to accurately quantify m6A levels at specific transcripts in vivo. We used this assay for the site-specific detection and quantification of m6A within the chicken β-actin (ACTB) zipcode sequence in chicken embryos and in fibroblast cells. We demonstrate that methylation of this site in the β-actin zipcode enhances ZBP1 binding in vitro, whilst methylation of a nearby adenosine abolishes
Project description:The objective of this study was to identify the genes differentially expressed in non small cell lung carcinoma associated with prevalent risk factor such as smoking and betel quid chewing in high-risk north eastern Indian population. The tumor biopsies and matched normal tissue from distant site were collected in RNA later, snap-frozen in liquid nitrogen and stored at -70°C until processed. Data of clinicopathologic parameters were obtained from patients’ clinical and pathologic report. Institutional human ethics committee approved the study.
