Project description:In this study, we mapped for the first time differences in transcription binding among individuals and elucidated the genetic basis of such variation. Whole-genome Ste12 binding profiles were determined using ChIP-Seq in pheromone-treated cells of 43 segregants of a cross between two highly diverged yeast strains, YJM789 and S288c as well as the parental lines. We identified extensive Ste12 binding variation among individuals and mapped underlying cis- and trans- acting loci responsible for such variation. We showed that the majority of TF binding variation is cis-linked and that many variations are associated with polymorphisms residing in the binding motifs of Ste12 as well as those of several known and proposed Ste12 cofactors. We also identified two trans factors, AMN1 and FLO8, that modulate Ste12 binding to promoters of more than 10 genes under α-factor treatment. Neither of these two genes was known to regulate Ste12 previously, and we suggest that they may be key mediators of gene activity and phenotypic diversity. Ste12 binding strongly correlates with gene expression for more than 200 genes indicating that binding variation is functional. Many of the variable bound genes are involved in cell wall organization and biogenesis. Overall, we identified key regulators of molecular diversity among individuals and provide novel insights into mechanisms of gene regulation. Two ChIP-Seq experiments and one Input DNA-Seq experiment for the yeast strains S96, HS959 and 43 MATa segregants were performed under alpha factor treatment conditions; an additional replicate was also performed for some of the strains. One ChIP-Seq experiment for each parental strain was performed without alpha factor treatment, and one ChIP-Seq experiment for each of the 24 deletion strains was performed under alpha factor treatment.

Project description:Genome-wide Ste12-binding site mapping in MATa segregants of YJM789 x S96 cross

Project description:In this study, we mapped for the first time differences in transcription binding among individuals and elucidated the genetic basis of such variation. Whole-genome Ste12 binding profiles were determined using ChIP-Seq in pheromone-treated cells of 43 segregants of a cross between two highly diverged yeast strains, YJM789 and S288c as well as the parental lines. We identified extensive Ste12 binding variation among individuals and mapped underlying cis- and trans- acting loci responsible for such variation. We showed that the majority of TF binding variation is cis-linked and that many variations are associated with polymorphisms residing in the binding motifs of Ste12 as well as those of several known and proposed Ste12 cofactors. We also identified two trans factors, AMN1 and FLO8, that modulate Ste12 binding to promoters of more than 10 genes under α-factor treatment. Neither of these two genes was known to regulate Ste12 previously, and we suggest that they may be key mediators of gene activity and phenotypic diversity. Ste12 binding strongly correlates with gene expression for more than 200 genes indicating that binding variation is functional. Many of the variable bound genes are involved in cell wall organization and biogenesis. Overall, we identified key regulators of molecular diversity among individuals and provide novel insights into mechanisms of gene regulation.

Project description:In this study, we mapped for the first time differences in transcription binding among individuals and elucidated the genetic basis of such variation. Whole-genome Ste12 binding profiles were determined using ChIP-Seq in pheromone-treated cells of 43 segregants of a cross between two highly diverged yeast strains, YJM789 and S288c, as well as the parental lines. We identified extensive Ste12 binding variation among individuals and mapped underlying cis- and trans- acting loci responsible for such variation. We showed that the majority of TF binding variation is cis-linked and that many variations are associated with polymorphisms residing in the binding motifs of Ste12 as well as those of several known and proposed Ste12 cofactors. We also identified two trans factors, AMN1 and FLO8, that modulate Ste12 binding to promoters of more than 10 genes under α-factor treatment. Neither of these two genes was known to regulate Ste12 previously, and we suggest that they may be key mediators of gene activity and phenotypic diversity. Ste12 binding strongly correlates with gene expression for more than 200 genes, indicating that binding variation is functional. Many of the variable bound genes are involved in cell wall organization and biogenesis. Overall, we identified key regulators of molecular diversity among individuals and provide novel insights into mechanisms of gene regulation.

Project description:Gene Expression of MATa yeast segregants (YJM789 X S96) after alpha factor treatment

Project description:Transcription profile in YPD media of 48 segregants spores obtained from a cross of the yeast strains S96 and YJM789. These spores are a subset of those published by Mancera et al, Nature, 2008. Two CEL files were mislabelled: eQTL_080822_spore_38B.CEL and eQTL_080826_spore_21C.CEL, actually spores 24A and 8D respectively. The correct spore IDs are in the sample annotation (under StrainOrLine).

Project description:We determined and classified Tec1-regulated genes in haploid strains of the Sigma1278b genetic background under vegetative growth conditions. For this purpose, we measured transcriptional profiles of five different haploid MATa yeast strains of the following relevant genotypes: (53 = YHUM1694) TEC1 STE12; (64 = YHUM1700) tec1? STE12; (66 = YHUM1701) tec1? ste12?; (10 = YHUM1676) (P)URA3-TEC1 ste12?; (42 = YHUM1642) (P)URA3-TEC1 1-280-STE12 1-688 tec1? ste12?. All strains were grown in duplicate in SC medium lacking leucine and histidine at 30 degree C to an optical density of 1.0 before extraction of total RNA and transcriptional profiling.

Project description:Using microarrays to genotype the parental origin of progeny resulting from a cross between S96 and YJM789 yeast strains, we mapped the distribution of crossovers that occurred during meiosis. Knowledge of the crossover distribution allowed us to assess changes in crossover control in wild type and mutant strains. The S96 strain is a S288 derivative and thus its DNA sequence has high homology to the oligo sequences used to create the S98 Affymetrix Gene chip. The YJM789 strain is ~ 0.6% divergent from S288. Keywords: wild type and mutant analysis

Project description:To map meiotic crossovers and noncrossovers across the yeast genome, we genotyped the four spores of 51 tetrads arising from sporulation of a YJM789/S96 hybrid strain. Sporulation was induced, tetrads were dissected, and genomic DNA from each spore was hybridized to microarrays, one array per spore. 12 YJM789 and 13 S96 hybridizations were also performed as a reference for genotyping. To analyze recombination mutants, we also hybridized DNA from 5 tetrads arising from a YJM789/S96 hybrid strain homozygous for a MSH4 deletion, and from 20 spores (6 dyads and 8 single spores) arising from a hybrid homozygous for a MMS4 deletion.

Project description:Saccharomyces cerevisiae S96 X YJM789 Genome sequencing