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裂殖酵母多聚(A)聚合酶活性位点突变 Y86D 缓解 Δ 合成生长缺陷并上调 MTREC 和 Mmi1 靶向的 mRNAs。

Fission yeast poly(A) polymerase active site mutation Y86D alleviates the Δ synthetic growth defect and up-regulates mRNAs targeted by MTREC and Mmi1.

机构信息

Molecular Biology Program, Sloan-Kettering Institute, New York, New York 10065, USA.

Department of Microbiology and Immunology, Weill Cornell Medical College, New York, New York 10065, USA.

出版信息

RNA. 2023 Nov;29(11):1738-1753. doi: 10.1261/rna.079722.123. Epub 2023 Aug 16.

DOI:10.1261/rna.079722.123
PMID:37586723
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10578478/
Abstract

Expression of fission yeast Pho1 acid phosphatase is repressed under phosphate-replete conditions by transcription of an upstream lncRNA that interferes with the mRNA promoter. lncRNA-mediated interference is alleviated by genetic perturbations that elicit precocious lncRNA 3'-processing and transcription termination, such as (i) the inositol pyrophosphate pyrophosphatase-defective allele, which results in elevated levels of IP, and (ii) absence of the 14-3-3 protein Rad24. Combining Δ with causes a severe synthetic growth defect. A forward genetic screen for (uppressor of ad24 sp1-H397A) mutations identified a novel missense mutation (Tyr86Asp) of Pla1, the essential poly(A) polymerase subunit of the fission yeast cleavage and polyadenylation factor (CPF) complex. The allele was viable but slow-growing in an otherwise wild-type background. Tyr86 is a conserved active site constituent that contacts the RNA primer 3' nt and the incoming ATP. The Y86D mutation elicits a severe catalytic defect in RNA-primed poly(A) synthesis in vitro and in binding to an RNA primer. Yet, analyses of specific mRNAs indicate that poly(A) tails in cells are not different in size than those in wild-type cells, suggesting that other RNA interactors within CPF compensate for the defects of isolated Pla1-Y86D. Transcriptome profiling of cells revealed the accumulation of multiple RNAs that are normally rapidly degraded by the nuclear exosome under the direction of the MTREC complex, with which Pla1 associates. We suggest that Pla1-Y86D is deficient in the hyperadenylation of MTREC targets that precedes their decay by the exosome.

摘要

裂殖酵母 Pho1 酸性磷酸酶的表达在磷酸盐充足的条件下受到转录上游 lncRNA 的抑制,该 lncRNA 干扰 mRNA 启动子。遗传扰动可以缓解 lncRNA 介导的干扰,这些扰动会引发早熟的 lncRNA 3'加工和转录终止,例如(i)肌醇六磷酸焦磷酸酶缺陷等位基因,导致 IP 水平升高,以及(ii)缺乏 14-3-3 蛋白 Rad24。将Δ与 结合会导致严重的合成生长缺陷。针对缺失 ad24 sp1-H397A 的突变体的正向遗传筛选发现了 Pla1 的一种新的错义突变(Tyr86Asp),Pla1 是裂殖酵母切割和多腺苷酸化因子(CPF)复合物的必需多聚(A)聚合酶亚基。该突变体在其他野生型背景中是有活力的,但生长缓慢。Tyr86 是一个保守的活性位点成分,与 RNA 引物 3'nt 和进入的 ATP 接触。Y86D 突变在体外和与 RNA 引物结合的 RNA 引物引发的多聚(A)合成中产生严重的催化缺陷。然而,对特定 mRNA 的分析表明, 细胞中的 poly(A)尾巴在大小上与野生型细胞没有不同,这表明 CPF 内的其他 RNA 相互作用物弥补了孤立 Pla1-Y86D 的缺陷。对 细胞的转录组谱分析显示,在 MTREC 复合物的指导下,多个 RNA 通常会迅速被核 exosome 降解,而 Pla1 与该复合物相关。我们认为 Pla1-Y86D 缺乏 MTREC 靶标的过度腺苷酸化,而这些靶标在 exosome 降解之前就被其降解了。

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