Project description:Characterisation of RESOLUTE parental cell lines

Project description:RNA sequencing data of paired parental and therapy resistant cancer cell lines. Parental cell lines are mostly established cell lines. Resistant cell lines were obtained through long term exposure of the parental cells to gradually increasing doses of cancer therapies. Samples include 7 parental and 10 derived resistant cell lines. Our aim was to assess whether the resistant cells had undergone Epithelial to Mesenchymal Transition upon resistance acquisition.

Project description:Genome wide DNA methylation profiling of paired parental and therapy resistant cancer cell lines. Parental cell lines are mostly established cell lines. Resistant cell lines were obtained through long term exposure of the parental cells to gradually increasing doses of cancer therapies. The Illumina Infinium 450k and EPIC Human DNA methylation Beadchips were used to obtain DNA methylation profiles across approximately 450,000 or 850,000 CpGs from the cells. Samples include 7 parental and 10 derived resistant cell lines.

Project description:RNA sequencing data of paired parental and therapy resistant cancer cell lines. Parental cell lines are mostly established cell lines. Resistant cell lines were obtained through long term exposure of the parental cells to gradually increasing doses of cancer therapies. Samples include 7 parental and 10 derived resistant cell lines. Our aim was to assess whether the resistant cells had undergone Epithelial to Mesenchymal Transition upon resistance acquisition and whether EMT disappears upon knock down of the DNMTs

Project description:Parental vs. BRAFi Resistant Melanoma Cell Lines

Project description:Transcriptional profiling of parental S. cerevisiae San I cells in comparison with its translocant derivative D10 Small strain. The latter strain was obtained using Bridge Induced translocation technique between DUR3 gene (Chromosome VIII) and ADH1 gene (Chromosome XV), and exhibited an abnormal phenotype comprising elongated buds and multi-budded, unevenly nucleated pseudo-hyphae. Goal was to demonstrate how chromosomal translocations can influence gene expression of translocant and other chromosomes.

Project description:Whole genome sequencing of 8 F1 Drosophila lines along with the two parental lines for one of the F1 genotypes. Data were sequenced to verify previously published genome sequences (parental lines: DGRP, maternal line: PMID31308546) and to identify potentially unbalanced SNPs within the data that might confound allele-specific measurements in the F1 lines.

Project description:Microarray gene expression analysis conducted from cell lines in each of three cohorts: (1) Resistant ES cell lines, (2) Sensitive parental ES cell lines treated with YK-4-279 for 72 hours, and (3) untreated sensitive parental ES cell lines (Three replicates from TC32 & TC71 original parental cell lines) We used microarrays to detail the global programme of gene expression underlying mechanism of resistance to YK-4-279 within parental sensitive and resistant selected Ewing's Sarcoma cell lines. We identified distinct classes of up-regulated genes during this process.

Project description:Genome wide DNA methylation profiling of paired parental and therapy resistant cancer cell lines. Parental cell lines are mostly established cell lines. Resistant cell lines were obtained through long term exposure of the parental cells to gradually increasing doses of cancer therapies. Followig the published TAB-sequencing protocol, the Illumina Infinium 450K or EPIC Human DNA methylation Beadchips were used to obtain DNA hydroxymethylation profiles across approximately 450,000 or 850,000 CpGs from the cells. Samples include 5 parental and 6 derived resistant cell lines.

Project description:Transcriptional profiling of parental S. cerevisiae San I cells in comparison with its translocant derivative D10 Small strain. The latter strain was obtained using Bridge Induced translocation technique between DUR3 gene (Chromosome VIII) and ADH1 gene (Chromosome XV), and exhibited an abnormal phenotype comprising elongated buds and multi-budded, unevenly nucleated pseudo-hyphae. Goal was to demonstrate how chromosomal translocations can influence gene expression of translocant and other chromosomes. Two-condition experiment, direct comparison of Saccharomyces cerevisiae D10 small (4 biological replicates) vs. pooled WT San I (reference) cells.