Antisense-mediated repression of SAGA-dependent genes involves the HIR histone chaperone.

Eukaryotic genomes are pervasively transcribed by RNA polymerase II (RNAPII), and transcription of long non-coding RNAs often overlaps with coding gene promoters. This might lead to coding gene repression in a process named Transcription Interference (TI). In Saccharomyces cerevisiae, TI is mainly driven by antisense non-coding transcription and occurs through re-shaping of promoter Nucleosome-Depleted Regions (NDRs).

Fine Chromatin-Driven Mechanism of Transcription Interference by Antisense Noncoding Transcription.

Eukaryotic genomes are almost entirely transcribed by RNA polymerase II. Consequently, the transcription of long noncoding RNAs often overlaps with coding gene promoters, triggering potential gene repression through a poorly characterized mechanism of transcription interference. Here, we propose a comprehensive model of chromatin-based transcription interference in Saccharomyces cerevisiae (S.

Role of histone modifications and early termination in pervasive transcription and antisense-mediated gene silencing in yeast.

Most genomes, including yeast Saccharomyces cerevisiae, are pervasively transcribed producing numerous non-coding RNAs, many of which are unstable and eliminated by nuclear or cytoplasmic surveillance pathways. We previously showed that accumulation of PHO84 antisense RNA (asRNA), in cells lacking the nuclear exosome component Rrp6, is paralleled by repression of sense transcription in a process dependent on the Hda1 histone deacetylase (HDAC) and the H3K4 histone methyl transferase Set1. Here we investigate this process genome-wide and measure the whole transcriptome of various histone modification mutants in a Δrrp6 strain using tiling arrays.

Paraquat modulates alternative pre-mRNA splicing by modifying the intracellular distribution of SRPK2.

Paraquat (PQ) is a neurotoxic herbicide that induces superoxide formation. Although it is known that its toxic properties are linked to ROS production, the cellular response to PQ is still poorly understood. We reported previously that treatment with PQ induced genome-wide changes in pre-mRNA splicing.