Project description:ChIP-on-chip analyses of JmjC protein Epe1 in fission yeast

Project description:Direct sequencing of polyadenylation sites in fission yeast S. pombe

Project description:Genome-wide mapping of Ccp1 association sites in fission yeast

Project description:Transcription profile of fission yeast

Project description:We used a deep sequencing-based cap analysis of gene expression (DeepCAGE) to generate 16 million uniquely mapped tags, corresponding to 93,736 positions on the genome of the fission yeast. Deep sequencing of the CAGE library generated 20,115,604 CAGE tags, and these tags were mapped to the S. pombe genome (Ensembl Genomes fungi release-12) using Bowtie. With two mismatches allowed in Bowtie, 16,028,846 (79.7%) tags were uniquely mapped while 2,819,094 (14.0%) tags were mapped to multiple locations. Tags mapped to rRNA genes accounted for <8.5% of all CAGE tags, indicating the high quality of our CAGE library.

Project description:Genome sequencing of fission yeast strains.

Project description:Fission yeast, an excellent model organism.

Project description:fission yeast meiotic drive recombination mapping

Project description:Nitric oxide being a versatile molecule inside biological systems, from being both a cell signaling molecule to a potent stress agent, has significant effect in the transcriptional response in fission yeast. We have used fission yeast microarrays to identify cellular targets of Nitric Oxide (NO) and to further understand the cellular mechanism of NO action. We report the change in the global gene expression profile response to NO in S. pombe cells

Project description:Landscape of XUT lncRNAs in fission yeast