Project description:Nrd1 and Nab3 are two yeast RNA binding proteins which have been shown to be involved in transcription termination of non poly(A) genes. We have used expression profiling of a Nab3 mutant to discover novel RNA targets of the Nrd1 and Nab3 transcription termination pathway. Failure to terminate RNA polymerase II by Nab3 leads to continued transcription well beyond the correct termination sites, altering the expression of adjacent downstream genes. Using this concept, our microarray uncovered the up-regulation of numerous genes that are located downstream of “cryptic unstable transcripts”, transcripts that are transcribed, terminated and rapidly degraded by Nrd1, Nab3, and the nuclear exosome. Keywords: yeast temperature sensitive mutant 25C vs 37C

Project description:We report the analysis of in vivo, genomewide binding of Nab3 under conditions in which non-degradable targets of Nab3 accumulate. We aimed at mimicking the effect of defective degradation of non-coding RNAs (Cryptic Unstable Transcripts, CUT) that can be bound by Nab3 on the co-transcriptional recruitment of Nab3 for transcription termination.

Project description:Nrd1 and Nab3 are two yeast RNA binding proteins which have been shown to be involved in transcription termination of non poly(A) genes. We have used expression profiling of a Nab3 mutant to discover novel RNA targets of the Nrd1 and Nab3 transcription termination pathway. Failure to terminate RNA polymerase II by Nab3 leads to continued transcription well beyond the correct termination sites, altering the expression of adjacent downstream genes. Using this concept, our microarray uncovered the up-regulation of numerous genes that are located downstream of “cryptic unstable transcripts”, transcripts that are transcribed, terminated and rapidly degraded by Nrd1, Nab3, and the nuclear exosome. Experiment Overall Design: Four yeast total RNA samples where analyzed in this study. These RNAs come from two separate strains of yeast, each strain at either the permissive temperature (25C) or the non-permissive temperature (37C). One of these strains is a wild type strain of yeast used as a control. The other strain has a mutation in the Nab3 protein that confers temperature sensitivity at the non-permissive temperature of 37C. After two hours at the non-permissive temperature, we observe disruptions in the Nrd1/Nab3 transcription termination pathway and this is the scheme that we followed for our microarray experiment. Our goal was to observe the global expression changes after 2 hours without Nab3 function.

Project description:Termination of yeast RNA polymerase II (Pol II) transcripts occurs through two alternative pathways. Termination of mRNAs is coupled to cleavage and polyadenylation while non-coding transcripts are terminated through the Nrd1-Nab3-Sen1 (NNS) pathway in a process that is linked to RNA degradation by the nuclear exosome. Some mRNA transcripts are also attenuated through premature termination directed by the NNS complex. In this paper we present the results of nuclear depletion of the NNS component Nab3. As expected many non-coding RNAs fail to terminate properly. In addition, we observe that nitrogen catabolite repressed genes are up-regulated by Nab3 depletion.

Project description:CRAC of Nab3 in yeast cells accumulating a circular RNA containing Nab3 binding sites (the decoy) or an empty control

Project description:We obtained Nab3, Nrd1, and RNA polymerase II occupancy profiles across the genome of S.cerevisiae in wild-type and rrp6∆ strains. This allowed us to determine the impact of defective nuclear exosome on NNS-dependent transcription termination.

Project description:The binding and dissociation of RNA Binding Proteins (RBPs) to their cognate sites on cellular RNAs are critical for the regulation of gene expression. Yet, association and dissociation kinetics of RBPs at individual cellular binding sites have not been experimentally accessible. Inaccessibility of binding and dissociation kinetics of RBPs in cells severely limits or even precludes the establishment of quantitative connections between RBP-RNA interactions and cellular RBP function. Here, we describe an approach to measure binding and dissociation kinetics of the RBP Dazl at thousands of individual binding sites in cells. We then show how these kinetic parameters inform a quantitative understanding of the cellular function of Dazl.

Project description:We report here the transcriptome-wide distribution of yeast Rpb2, Sen1, Nrd1 and Nab3 binding sites. These data sets provide highresolution definition of non-poly(A) terminators, identify novel genes regulated by attenuation of nascent transcripts close to the promoter, and demonstrate the widespread occurrence of Nrd1-bound 3'-antisense transcripts on genes that are poorly expressed. In addition, we show that Sen1 does not cross-link to many expected ncRNAs but surprisingly binds to pre-mRNA transcripts suggesting a role in 3' end formation and/or termination. Six samples by adaptation of PAR-ClIP procedure

Project description:We report here the transcriptome-wide distribution of yeast Rpb2, Sen1, Nrd1 and Nab3 binding sites. These data sets provide highresolution definition of non-poly(A) terminators, identify novel genes regulated by attenuation of nascent transcripts close to the promoter, and demonstrate the widespread occurrence of Nrd1-bound 3'-antisense transcripts on genes that are poorly expressed. In addition, we show that Sen1 does not cross-link to many expected ncRNAs but surprisingly binds to pre-mRNA transcripts suggesting a role in 3' end formation and/or termination.

Project description:Kinetic CRAC uncovers a role for Nab3 in determining gene expression profiles during stress