Project description:Genome-wide localization of two new RNA pol II interacting proteins. We use C-LYTAG to map binding sites of Spo14 and Mvp1 along the S. cerevisiae genome. Two biological replicates of each experiment were done. Keywords: ChIp-chip Two independent biological replicates of each IP. We used three macroarrays: V5R2-L1-20, V5R2-L1-21 and V5R2-L1-22 that were hybridized with Whole Cell Extract (WCE) and then with two biological samples of immunoprecipitated (IP) Mvp1 (V5R2-L1-20 and V5R2-L1-21) and Spo14 (V5R2-L1-20 and V5R2-L1-22)

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Adaptation of the ChIP-on-chip protocol, to calculate genomic transcription rates in S. cerevisiae. Keywords: ChIP-chip There are 3 different experimental conditions: -Yeast cell growing exponentially in YPD. -Yeast cell stopped after 2 h of changing them to YPGal. -Yeast cell growing exponentially after 14.5 h of changing them to YPGal. We have used 3 different IP protocols: -total RNApol II using a Myc tagged RNApol (RPB1-Myc) -RNApol II CTD using the Ab 8WG16 (Covance) -RNApol II CTD Phosphorilated on Ser5 (David Bentley\'s lab) There are 3 independent biological replicates of each experiment.

Project description:RPCC (RNA pol II ChIP-on-chip) experiments with different mutants that affect to the accumulation of non active RNA pol II along the yeast genome. Keywords: ChIP-chip There are 4 different strains: rap1-sil (without the silencing domain), RAP1 (both from Graham I.R. et al 1999) and tpk1 & tpk2 mutants (Euroscarf). The IP was done using an Ab against the RNApol II CTD (8WG16 Covance).There are 3 independent biological replicates of Rap1 and rap1-sil experiments and 2 for the tpk1 & tpk2 experiments.

Project description:Transcription rate analysis in Yeast by means of GRO, mRNA amount and ChIP-on-chip during the depletion of Spt16p. Keywords: Genomic run-on GRO ChIP-chip Transcription rate analysis by means of GRO and mRNA amount (RA) of three independent replicates during the depletion of Spt16p (Control and 5 & 7 hours after the depletion). Each time point replicate has been hybridized on a different macroarray (F14-F16). ChIP-on-chip analysis of Spt16 were done during exponential grow in YPD.

Project description:Analysis of genome-wide differences of transcription using Genomic run-on (GRO), RNApol II ChIP-on-Chip, cDNA analysis and ChIP-on-Chip. This SuperSeries is composed of the following subset Series: GSE14060 RNA pol II ChIP on chip (RPCC) GSE14077 RPCC analysis of rap1-sil, tpk1 & tpk2 GSE14080 GRO analysis of rap1-sil, tpk1 & tpk2 GSE14082 Analysis of Spt16 depletion GSE1002 YPD to YPGal timecourse Refer to individual Series

Project description:DNA methylation profiling in 123 epiRILs, WT and ddm1 mutant aerial part (epiRIL008 - epiRIL011 - epiRIL014 - epiRIL018 - epiRIL020 - epiRIL024 - epiRIL036 - epiRIL046 - epiRIL052 - epiRIL053 - epiRIL054 - epiRIL055 - epiRIL060 - epiRIL062 - epiRIL064 - epiRIL069 - epiRIL070 - epiRIL071 - epiRIL073 - epiRIL092 - epiRIL093 - epiRILv94 - epiRIL095 - epiRIL098 - epiRIL099 - epiRIL101 - epiRIL108 - epiRIL112 - epiRIL114 - epiRIL118 - epiRIL122 - epiRIL137 - epiRIL144 - epiRIL147 - epiRIL148 - epiRIL150 - epiRIL159 - epiRIL164 - epiRIL166 - epiRIL169 - epiRIL170 - epiRIL172 - epiRIL183 - epiRIL193 - epiRIL195 - - epiRIL202 - epiRIL208 - epiRIL215 - epiRIL216 - epiRIL218 - epiRIL222 - epiRIL225 - epiRIL229 - epiRIL232 - epiRIL238 - epiRIL244 - epiRIL252 - epiRIL257 - epiRIL258 - epiRIL260 - epiRIL262 - epiRIL275 - epiRIL276 - epiRIL277 - epiRIL297 - epiRIL305 - epiRIL315 - epiRIL323 - epiRIL326 - epiRIL333 - epiRIL340 - epiRIL344 - epiRIL350 - epiRIL356 - epiRIL362 - epiRIL361 - epiRIL363 - epiRIL366 - epiRIL368 - epiRIL371 - epiRIL375 - epiRIL391 - epiRIL393 - epiRIL394 - epiRIL400 - epiRIL408 - epiRIL410 - epiRIL425 - epiRIL432 - epiRIL434 - epiRIL437 - epiRIL438 - epiRIL439 - epiRIL454 - epiRIL458 - epiRIL466 - epiRIL467 - epiRIL471 - epiRIL473 - epiRIL477 - epiRIL480 - epiRIL488 - epiRIL492 - epiRIL493 - epiRIL494 - epiRIL495 - epiRIL497 - epiRIL500 - epiRIL503 - epiRIL506 - epiRIL508 - epiRIL523 - epiRIL538 - epiRIL539 - epiRIL556 - epiRIL558 - epiRIL559 - epiRIL561 - epiRIL567 - epiRIL570 - epiRIL572 - epiRIL573 - epiRIL579 - wt - ddm1 mutant) Keywords: Genome binding/occupancy profiling by genome tiling array 1 biological replicate in dye-swap - MeDIP-chip

Project description:DNA methylation profiling in nerd1-1 mutant seedlings 2 biological replicates in dye-swap - MeDIP-chip

Project description:The transcription factor (TF) LEAFY COTYLEDON1 (LEC1) acts as an essential regulator of Arabidopsis embryogenesis and seed development. It controls aspects of early embryogenesis such as cotyledon identity and suspensor morphology, as well as seed maturation processes such as storage compound accumulation, acquisition of desiccation tolerance and dormancy. To identify downstream components of the LEC1 regulon, dexamethasone-regulated expression of LEC1 and ChIP/chip were applied and revealed the enrichment of phytohormone- as well as elongation-related genes among LEC1 target genes. Two weeks old 35S::LEC1::GR seedlings were treated with DEX or ethanol for 24 hours before cross-linking and chromatin isolation. Four biological replicates were performed, using an ethanol-treated sample as control (LEC1_EtOH versus LEC1_DEX). After data normalization, statistical analysis and exclusion of putative false negatives, a number of 356 target promoter regions were identified.

Project description:Transcriptional profile of BS-90 snails injected with a cocktail of four FREP3 specific 27-mer DSiRNA oligos and two hours later exposed to S. mansoni miricidia. Compared to BS-90 snails injected with a cocktail of three GFP specific DSiRNA oligos and two hours later exposed to S. mansoni miricidia. Experiments were done over the course of 49 days. Snails were collected (10each) at 2 and 4 dpe to S. mansoni for comparison. Each replicate is comprised of 1 individual snail from the specified treatment group. Ten replicates of each treatment were analyzed on the Snail oligo array.