Project description:The impact of RNAi on the Saccharomyces castellii transcriptome

Project description:Degradome sequencing from S. castellii

Project description:This SuperSeries is composed of the following subset Series: GSE22191: Absolute expression level of Debaryomyces hansenii genes GSE22192: Absolute expression level of Yarrowia lipolytica genes GSE22193: Absolute expression level of Saccharomyces paradoxus genes GSE22194: Absolute expression level of Candida glabrata genes GSE22197: Absolute expression level of Candida albicans genes GSE22198: Absolute expression level of Kluyveromyces lactis genes GSE22199: Absolute expression level of Kluyveromyces waltii genes GSE22200: Absolute expression level of Saccharomyces castellii genes GSE22201: Absolute expression level of Saccharomyces mikatae genes GSE22202: Absolute expression level of Saccharomyces kluyveryii genes GSE22204: Absolute expression level of Saccharomyces cerevisiae genes GSE22205: Absolute expression level of Saccharomyces bayanus genes GSE22211: Genome-wide nucleosome position data for 12 yeast species Refer to individual Series

Project description:Total RNA versus genomic DNA hybridization on custom arrays designed for all Saccharomyces castellii genes Total RNA was collected in mid-log phase from Saccharomyces castellii cells grown in rich medium (abbreviated CM, in house recipe). RNA was then converted to cDNA, Cy3-labeled and hybridized competitively against Cy5 labeled genomic DNA from Saccharomyces castellii.

Project description:Total RNA-Seq in wild-type (WT), dcr1, xrn1 and xrn1 dcr1 strains of N. castellii

Project description:Total RNA versus genomic DNA hybridization on custom arrays designed for all Saccharomyces castellii genes

Project description:Naumovozyma castellii CBS 4309 Genome sequencing

Project description:Naumovozyma castellii strain:XF0241 Genome sequencing and assembly

Project description:Member of the Saccharomyces sensu lato budding yeast group

Project description:RNAi, a gene-silencing pathway triggered by double-stranded RNA, is conserved in diverse eukaryotic species but has been lost in the model budding yeast, Saccharomyces cerevisiae. We report that RNAi is present in other budding-yeast species, including Saccharomyces castellii and Candida albicans. These species use noncanonical Dicer proteins to generate siRNAs, which mostly correspond to transposable elements and Y´ subtelomeric repeats. In S. castellii, RNAi mutants are viable but have excess Y´ mRNA levels. In S. cerevisiae, introducing Dicer and Argonaute of S. castellii restores RNAi, and the reconstituted pathway silences endogenous retrotransposons. These results identify a novel class of Dicer proteins, bring the tool of RNAi to the study of budding yeasts, and bring the tools of budding yeast to the study of RNAi.