scholarly journals A dominant role for meiosis-specific 3' RNA processing in controlling expression of a fission yeast cyclin gene

RNA ◽  
2012 ◽  
Vol 18 (7) ◽  
pp. 1408-1420 ◽  
Author(s):  
K. Potter ◽  
N. Cremona ◽  
S. Sunder ◽  
J. A. Wise
Keyword(s):  
Fission Yeast ◽  
Rna Processing ◽  
Dominant Role ◽  
Cyclin Gene

scholarly journals A meiotic gene regulatory cascade driven by alternative fates for newly synthesized transcripts

2011 ◽  
Vol 22 (1) ◽  
pp. 66-77 ◽  
Author(s):  
Nicole Cremona ◽  
Kristine Potter ◽  
Jo Ann Wise
Keyword(s):  
Fission Yeast ◽  
Rna Processing ◽  
Yeast Cells ◽  
Forkhead Transcription Factor ◽  
Rna Surveillance ◽  
Regulatory Cascade ◽  
Show Evidence ◽  
Gene Regulatory ◽  
Rna Accumulation ◽  
Temporal Profiles

To determine the relative importance of transcriptional regulation versus RNA processing and turnover during the transition from proliferation to meiotic differentiation in the fission yeast Schizosaccharomyces pombe, we analyzed temporal profiles and effects of RNA surveillance factor mutants on expression of 32 meiotic genes. A comparison of nascent transcription with steady-state RNA accumulation reveals that the vast majority of these genes show a lag between maximal RNA synthesis and peak RNA accumulation. During meiosis, total RNA levels parallel 3′ processing, which occurs in multiple, temporally distinct waves that peak from 3 to 6 h after meiotic induction. Most early genes and one middle gene, mei4, share a regulatory mechanism in which a specialized RNA surveillance factor targets newly synthesized transcripts for destruction. Mei4p, a member of the forkhead transcription factor family, in turn regulates a host of downstream genes. Remarkably, a spike in transcription is observed for less than one-third of the genes surveyed, and even these show evidence of RNA-level regulation. In aggregate, our findings lead us to propose that a regulatory cascade driven by changes in processing and stability of newly synthesized transcripts operates alongside the well-known transcriptional cascade as fission yeast cells enter meiosis.

Regulation of cyclin D1 gene expression

2010 ◽  
Vol 38 (1) ◽  
pp. 217-222 ◽  
Author(s):  
Ini-Isabée Witzel ◽  
Li Fang Koh ◽  
Neil D. Perkins
Keyword(s):  
Gene Expression ◽  
Cyclin D1 ◽  
Rna Processing ◽  
Dominant Role ◽  
Rna Stability ◽  
Transcriptional Regulator ◽  
Nuclear Factor Κb ◽  
Nuclear Factor ◽  
Post Transcriptional Regulation

Cyclin D1 is a key regulator of cell proliferation and its expression is subject to both transcriptional and post-transcriptional regulation. In different cellular contexts, different pathways assume a dominant role in regulating its expression, whereas their disregulation can contribute to overexpression of cyclin D1 in tumorigenesis. Here, we discuss the ability of the NF-κB (nuclear factor κB)/IKK [IκB (inhibitor of NF-κB) kinase] pathways to regulate cyclin D1 gene transcription and also consider the newly discovered role of the SNARP (SNIP1/SkIP-associated RNA processing) complex as a co-transcriptional regulator of cyclin D1 RNA stability.

scholarly journals Long non-coding RNA repertoire and regulation by nuclear exosome, cytoplasmic exonuclease and RNAi in fission yeast

2017 ◽  
Author(s):  
Sophie R Atkinson ◽  
Samuel Marguerat ◽  
Danny A Bitton ◽  
Maria Rodríguez-López ◽  
Charalampos Rallis ◽  
...  
Keyword(s):  
Mrna Expression ◽  
Fission Yeast ◽  
Rna Processing ◽  
Non Coding Rna ◽  
Processing Pathways ◽  
Antisense Lncrnas ◽  
Nuclear Exosome ◽  
Non Coding Rnas ◽  
Functional Analyses ◽  
Long Non Coding Rna

AbstractTranscriptomes feature pervasive, but poorly defined long non-coding RNAs (lncRNAs). We identify 5775 novel lncRNAs in Schizosaccharomyces pombe, nearly 4-times the previously annotated lncRNAs. Most lncRNAs become derepressed under genetic and physiological perturbations, especially during late meiosis. These lncRNAs are targeted by three RNA-processing pathways: the nuclear exosome, cytoplasmic exonuclease and RNAi, with substantial coordination and redundancy among pathways. We classify lncRNAs into cryptic unstable transcripts (CUTs), Xrn1-sensitive unstable transcripts (XUTs), and Dicer-sensitive unstable transcripts (DUTs). XUTs and DUTs are enriched for antisense lncRNAs, while CUTs are often bidirectional and actively translated. The cytoplasmic exonuclease and RNAi repress thousands of meiotically induced RNAs. Antisense lncRNA and sense mRNA expression often negatively correlate in the physiological, but not the genetic conditions. Intergenic and bidirectional lncRNAs emerge from nucleosome-depleted regions, upstream of positioned nucleosomes. This broad survey of the S. pombe lncRNA repertoire and characteristics provides a rich resource for functional analyses.

scholarly journals Roles of Fission Yeast Grc3 Protein in Ribosomal RNA Processing and Heterochromatic Gene Silencing

2011 ◽  
Vol 286 (17) ◽  
pp. 15391-15402 ◽  
Author(s):  
Erina Kitano ◽  
Aki Hayashi ◽  
Daigo Kanai ◽  
Kaori Shinmyozu ◽  
Jun-ichi Nakayama
Keyword(s):  
Gene Silencing ◽  
Fission Yeast ◽  
Ribosomal Rna ◽  
Rna Processing ◽  
Ribosomal Rna Processing

scholarly journals Identification of 15 new bypassable essential genes of fission yeast

2019 ◽  
Author(s):  
Aoi Takeda ◽  
Shigeaki Saitoh ◽  
Hiroyuki Ohkura ◽  
Kenneth E. Sawin ◽  
Gohta Goshima
Keyword(s):  
Fission Yeast ◽  
Rna Processing ◽  
Essential Gene ◽  
Screening Method ◽  
Rare Event ◽  
Laboratory Culture ◽  
Culture Conditions ◽  
Biological Processes ◽  
Yeast Genes ◽  
Genome Scale

AbstractEvery organism has a different set of genes essential for its viability. This indicates that an organism can become tolerant to the loss of an essential gene under certain circumstances during evolution, via the manifestation of ‘masked’ alternative mechanisms. In our quest to systematically uncover masked mechanisms in eukaryotic cells, we developed an extragenic suppressor screening method using haploid spores deleted of an essential gene in the fission yeast Schizosaccharomyces pombe. We screened for the ‘bypass’ suppressors of lethality of 92 randomly selected genes that are essential for viability in standard laboratory culture conditions. Remarkably, extragenic mutations bypassed the essentiality of as many as 20 genes (22%), 15 of which have not been previously reported. Half of the bypass-suppressible genes were involved in mitochondria function; we also identified multiple genes regulating RNA processing. 18 suppressible genes were conserved in the budding yeast Saccharomyces cerevisiae, but 13 of them were non-essential in that species. These trends are consistent with a recent independent bypass-of-essentiality (BOE) screening of 142 fission yeast genes conducted with more elaborate methodology (Li et al., 2019). Thus, our study reinforces the emerging view that BOE is not a rare event and that each organism may be endowed with secondary or backup mechanisms that can substitute for primary mechanisms in various biological processes. Furthermore, the robustness of our simple spore-based methodology paves the way for genome-scale BOE screening.

Formation of high temperature phase in flash-evaporated SnSe films

1990 ◽  
Vol 48 (4) ◽  
pp. 698-699
Author(s):  
J.P.S. Hanjra
Keyword(s):  
Thin Films ◽  
Electrical Properties ◽  
Energy Gap ◽  
Dominant Role ◽  
Fine Powder ◽  
High Temperature Phase ◽  
Temperature Phase ◽  
Water Mixture ◽  
Flash Evaporation ◽  
Photovoltaic Applications

Tin mono selenide (SnSe) with an energy gap of about 1 eV is a potential material for photovoltaic applications. Various authors have studied the structure, electronic and photoelectronic properties of thin films of SnSe grown by various deposition techniques. However, for practical photovoltaic junctions the electrical properties of SnSe films need improvement. We have carried out investigations into the properties of flash evaporated SnSe films. In this paper we report our results on the structure, which plays a dominant role on the electrical properties of thin films by TEM, SEM, and electron diffraction (ED).Thin films of SnSe were deposited by flash evaporation of SnSe fine powder prepared from high purity Sn and Se, onto glass, mica and KCl substrates in a vacuum of 2Ø micro Torr. A 15% HF + 2Ø% HNO3 solution was used to detach SnSe film from the glass and mica substrates whereas the film deposited on KCl substrate was floated over an ethanol water mixture by dissolution of KCl. The floating films were picked up on the grids for their EM analysis.

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