Project description:Histone acetylation and deacetylation are among the principal mechanisms by which chromatin is regulated during transcription, DNA silencing, and DNA repair. We analyzed patterns of genetic interactions uncovered during comprehensive genome-wide analyses in yeast to probe how histone acetyltransferase (HAT) and histone deacetylase (HDAC) protein complexes interact. The genetic interaction data unveil an underappreciated role of HDACs in maintaining cellular viability, and led us to show that deacetylation of the histone variant Htz1p at lysine 14 is mediated by Hda1p. Studies of the essential nucleosome acetyltransferase of H4 (NuA4) revealed acetylation-dependent protein stabilization of Yng2p, a potential nonhistone substrate of NuA4 and Rpd3C, and led to a new functional organization model for this critical complex. We also found that DNA double-stranded breaks (DSBs) result in local recruitment of the NuA4 complex, followed by an elaborate NuA4 remodeling process concomitant with Rpd3p recruitment and histone deacetylation. These new characterizations of the HDA and NuA4 complexes demonstrate how systematic analyses of genetic interactions may help illuminate the mechanisms of intricate cellular processes. Keywords: genetic modification The 44 datasets in this Series profiled the genome-wide genetic interactions for query genes encoding either HAT and HDAC catalytic subunits or subunits of the associated protein complexes. Of the 32 query genes, 5 were essential and were tested as temperature-sensitive (ts) alleles at three or more temperatures. (ESA1 was also tested as a hypomorphic allele.) The other query genes were tested as null deletion alleles derived from the Yeast Knockout strain collection.

Project description:The evaluation of the toxicity of Aflatoxin B1 using yeast gene expressions. Two yeast strains; parental BY4743 and PTC1 mutant, were used for this study. SDS was used to raise the penetration of the yeast cell membrane. Two conditions are compared with three replicates each. Both strains were grown in 0.01% SDS containing YPD media or 0.01% SDS, 25 ppm ABF1 containing YPD media. Publication can be found at http://www.cbi.or.jp/cbi/CBIj/vol9/9_94-E.pdf.

Project description:One common form of translational control is mediated by proteins that bind to the mRNA 5' cap-binding protein eIF4E. These proteins are collectively called 4E binding proteins (4EBPs). Saccharomyces cerevisiae possesses two 4EBPs that are encoded by non-essential genes called CAF20 and EAP1. To determine the impact of gene deletion on gene expression, we monitored the transcript level and also the translation status for each RNA using cycloheximide to freeze elongating ribosomes in wild-type, caf20 and eap1 cells. Polyribosome fractionation of cell extracts was used to separate highly translated and poorly translated mRNAs that were then separately analyzed.

Project description:The evaluation of mycotoxicity of type B trichothecenes using a yeast gene expression comparison analysis. The yeast BY4743 derivative PDR5 mutant was used for this study. The yeast cells were treated with trichothecene mycotoxins, and incubated at 25 degree for two hours, respectively. Total RNA was isolated with commercial kit (FastRNA Pro Red kit, Q-Biogene), and amplified RNA (aRNA) was synthesized with 3'IVT Express kit (Affymetrix). All samples were hybridized with Gene Chip (Yeast Genome 2.0 Array, Affymetrix), then each array chip was scanned by GeneChip Sanner 3000 (Affymetrix). The yeast strain was grown in YPD medium with 25 ppm of trichothecene mycotoxin (deoxynivalenol (DON), 3-acetyldeoxynivalenol (3ADON), 15-acetyldeoxynivalenol (15ADON), nivalenol (NIV), or fusarenone-X (FusX)). The same volume of DMSO was added to the control samples. The conditioned samples were normalized with three replicates.

Project description:The evaluation of zymolyase treatment using yeast gene expression comparison analysis. The yeast BY4743 strain was used for this study. Yeast cells were treated with Zymolyase (final conc. 300 U/ml), and incubated at 37 degree for ten minutes. Digestion process was not provided for control sample. Total RNA was isolated with commercial kit (FastRNA Pro Red kit, Q-Biogene), and amplified RNA (aRNA) was synthesized with 3'IVT Express kit (Affymetrix). All samples were hybridized with Gene Chip (Yeast Genome 2.0 Array, Affymetrix), then each array chip was scanned by GeneChip Sanner 3000 (Affymetrix). Yeast were treated with zymolyase or left untreated. The only difference in conditions between the treated and untreated samples was the enzymatic digestion process. The conditioned samples were normalized with three replicates.

Project description:One common form of translational control is mediated by proteins that bind to the mRNA 5' cap-binding protein eIF4E. These proteins are collectively called 4E binding proteins (4EBPs). Saccharomyces cerevisiae possesses two 4EBPs that are encoded by non-essential genes called CAF20 and EAP1. To determine the impact of gene deletion on gene expression, we monitored the transcript level and also the translation status for each RNA using cycloheximide to freeze elongating ribosomes in wild-type, caf20 and eap1 cells. Polyribosome fractionation of cell extracts was used to separate highly translated and poorly translated mRNAs that were then separately analyzed.

Project description:Strand specific RNA sequencing of S. pombe revealed a highly structured programme of ncRNA expression at over 600 loci. Waves of antisense transcription accompanied sexual differentiation. A substantial proportion of ncRNA arose from mechanisms previously considered to be largely artefactual, including improper 3’ termination and bi-directional transcription. Constitutive induction of the entire spk1+, spo4+, dis1+ and spo6+ antisense transcripts from an integrated, ectopic, locus disrupted their respective meiotic functions. This ability of antisense transcripts to disrupt gene function when expressed in trans suggests that cis production at native loci during sexual differentiation may also control gene function. Consistently, insertion of a marker gene adjacent to the dis1+ antisense start site mimicked ectopic antisense expression in reducing the levels of this microtubule regulator and abolishing the microtubule-dependent “horsetail” stage of meiosis. Antisense production had no impact at any of these loci when the RNAi machinery was removed. Thus, far from being simply ‘genome chatter’, this extensive ncRNA landscape constitutes a fundamental component in the controls that drive the complex programme of sexual differentiation in S. pombe. Thorough interrogation of the Schizosaccharomyces pombe transcriptome during sexual differentiation using strand-specific total RNA sequencing (AB SOLiD 3.0 and 3.0+). A total of 19 samples were analysed by two separate machine runs (henceforth first and second runs, respectively). In the first machine run the following 5 samples were processed (on a single sequencing slide): Vegetative haploid (strain IH5974), pat1.114 diploid (IH2912) at vegetative growth (0) and pat1.114 diploid (IH2912) at 3, 5 and 10 hours following temperature shift from 25ºC to 32ºC to induce meiosis by Pat1 inactivation. In the second machine run the following 14 samples were processed (on two sequencing slides): Vegetative haploid (IH5974), pat1.114 diploid (IH2912) at vegetative growth (0) and pat1.114 diploid (IH2912) at 3, 5 and 10 hours following the temperature shift (a biological replicate of the first machine run). In addition, asynchronous IH3365 (wild type diploid) was also sequenced to enable a series of pair-wise haploid/diploid comparisons between itself, asynchronous haploid (IH5974) and pat1.114 diploid (IH2912) at vegetative growth. Finally, to find putative targets of the two bzip transcription factors atf21 and atf31, we sequenced RNA extracts from IH8832 (atf21.delta diploid) and IH8814 (atf31.delta diploid) before (0), and 3, 5, and 10 hours after the temperature shift, while the pat1.114 diploid (IH2912) at vegetative growth (0) and pat1.114 diploid (IH2912) at 3, 5 and 10 hours following the temperature shift were used as reference for this analysis.

Project description:Non-coding RNAs (ncRNAs) are widely expressed in both prokaryotes and eukaryotes. Eukaryotic ncRNAs are commonly small (18-25 nt) micro- and small interfering RNAs involved in post-transcriptional gene silencing, while prokaryotic ncRNAs vary in size and are involved in various aspects of gene regulation. Given the prokaryotic origin of organelles, the presence of ncRNAs might be expected, however, the full spectrum of organellar ncRNAs has not been determined systematically. Here, strand-specific RNA-Seq analysis was used to identify 107 candidate ncRNAs from Arabidopsis thaliana chloroplasts, primarily encoded opposite protein- coding and tRNA genes. Forty-eight ncRNAs were shown to accumulate by RNA gel blot as discrete transcripts in wild-type (WT) plants and/or the pnp1-1 mutant, which lacks the chloroplast ribonuclease polynucleotide phosphorylase (cpPNPase). Ninety-eight percent of the ncRNAs detected by RNA gel blot had different transcript patterns between WT and pnp1-1, suggesting cpPNPase has a significant role in chloroplast ncRNA biogenesis and accumulation. Analysis of materials deficient for other major chloroplast ribonucleases, RNase R, RNase E and RNase J, showed differential effects on ncRNA accumulation and/or form, suggesting specificity in RNase-ncRNA interactions. 5' end mapping showed that some ncRNAs are transcribed from dedicated promoters, while others result from transcriptional read-through. Finally, correlations between accumulation of some ncRNAs and the symmetrically-transcribed sense RNA are consistent with a role in RNA stability. Overall, our data suggest that this extensive population of ncRNAs has the potential to underpin a previously underappreciated regulatory mode in the chloroplast.

Project description:The complete pool of barcoded essential heterozygous diploid deletion strains of S. cerevisiae were screened with 20 compounds from the Chembridge NOVACore chemical library to identify gene deletions that confer sensitivity to each compound.

Project description:The complete pool of barcoded homozygous and essential heterozygous diploid deletion strains of S. cerevisiae were screened with 3-nitroso-imidazo[1,2-a]pyridines and -pyrimidines to identify gene deletions that confer sensitivity to each compound.