Kumar et al. 2024 (PRJNA1128174)
General Details
| Title | Decapping activators Edc3 and Scd6 act redundantly with Dhh1 in nutrient-replete cells to post-transcriptionally repress starvation-induced pathways [Ribo and RNA-seq] |
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| Organism | |
| Number of Samples | 8 |
| Release Date | 2024/06/25 00:00 |
| Sequencing Types | |
| Protocol Details |
Study Links
| GWIPS-viz | Trips-Viz |
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Repository Details
| SRA | SRP516096 |
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| ENA | SRP516096 |
| GEO | |
| BioProject | PRJNA1128174 |
Publication
| Title | |
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| Authors | Kumar R,Zhang F,Niphadkar S,Onu C,Vijjamarri AK,Greenberg ML,Laxman S,Hinnebusch AG |
| Journal | bioRxiv : the preprint server for biology |
| Publication Date | 2024 Aug 28 |
| Abstract | Degradation of many yeast mRNAs involves decapping by the Dcp1:Dcp2 complex. Previous studies on decapping activators Edc3 and Scd6 suggested their limited roles in mRNA decay. RNA-seq analysis of mutants lacking one or both proteins revealed that Scd6 and Edc3 have largely redundant activities in targeting numerous mRNAs for degradation that are masked in the single mutants. These transcripts also are frequently targeted by decapping activators Dhh1 and Pat1, and the collective evidence suggests that Scd6/Edc3 act interchangeably to recruit Dhh1 to Dcp2. Ribosome profiling shows that redundancy between Scd6 and Edc3 and their functional interactions with Dhh1 and Pat1 extend to translational repression of particular transcripts, including a cohort of poorly translated mRNAs displaying interdependent regulation by all four factors. Scd6/Edc3 also participate with Dhh1/Pat1 in post-transcriptional repression of proteins required for respiration and catabolism of alternative carbon sources, which are normally expressed only in limiting glucose. Simultaneously eliminating Scd6/Edc3 increases mitochondrial membrane potential and elevates metabolites of the tricarboxylic acid and glyoxylate cycles typically observed only during growth in low glucose. Thus, Scd6/Edc3 act redundantly, in parallel with Dhh1 and in cooperation with Pat1, to adjust gene expression to nutrient availability by controlling mRNA decapping and decay. |
| PMC | PMC11383670 |
| PMID | 39257769 |
| DOI |
| Run Accession | Study Accession | Scientific Name | Cell Line | Library Type | Treatment | GWIPS-viz | Trips-Viz | Reads | BAM | BigWig (F) | BigWig (R) | ||
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| SRR29550569 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq |  |
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| SRR29550568 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550567 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550566 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550565 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550564 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550563 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| SRR29550562 | PRJNA1128174 | Saccharomyces cerevisiae | Yeast whole cells | Ribo-Seq | |
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| Run Accession | Study Accession | Scientific Name | Cell Line | Library Type | Treatment | GWIPS-viz | Trips-Viz | Reads | BAM | BigWig (F) | BigWig (R) |
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