酵母slt突变与U2小核RNA突变的合成致死性表明U2和U5小核核糖核蛋白颗粒之间存在功能相互作用,这对前体mRNA剪接的两个步骤都很重要。
Synthetic lethality of yeast slt mutations with U2 small nuclear RNA mutations suggests functional interactions between U2 and U5 snRNPs that are important for both steps of pre-mRNA splicing.
作者信息
Xu D, Field D J, Tang S J, Moris A, Bobechko B P, Friesen J D
机构信息
Banting and Best Department of Medical Research, University of Toronto, Ontario, Canada.
出版信息
Mol Cell Biol. 1998 Apr;18(4):2055-66. doi: 10.1128/MCB.18.4.2055.
A genetic screen was devised to identify Saccharomyces cerevisiae splicing factors that are important for the function of the 5' end of U2 snRNA. Six slt (stands for synthetic lethality with U2) mutants were isolated on the basis of synthetic lethality with a U2 snRNA mutation that perturbs the U2-U6 snRNA helix II interaction. SLT11 encodes a new splicing factor and SLT22 encodes a new RNA-dependent ATPase RNA helicase (D. Xu, S. Nouraini, D. Field, S. J. Tang, and J. D. Friesen, Nature 381:709-713, 1996). The remaining four slt mutations are new alleles of previously identified splicing genes: slt15, previously identified as prp17 (slt15/prp17-100), slt16/smd3-1, slt17/slu7-100, and slt21/prp8-21. slt11-1 and slt22-1 are synthetically lethal with mutations in the 3' end of U6 snRNA, a region that affects U2-U6 snRNA helix II; however, slt17/slu7-100 and slt21/prp8-21 are not. This difference suggests that the latter two factors are unlikely to be involved in interactions with U2-U6 snRNA helix II but rather are specific to interactions with U2 snRNA. Pairwise synthetic lethality was observed among slt11-1 (which affects the first step of splicing) and several second-step factors, including slt15/prp17-100, slt17/slu7-100, and prp16-1. Mutations in loop 1 of U5 snRNA, a region that is implicated in the alignment of the two exons, are synthetically lethal with slu4/prp17-2 and slu7-1 (D. Frank, B. Patterson, and C. Guthrie, Mol. Cell. Biol. 12:5179-5205, 1992), as well as with slt11-1, slt15/prp17-100, slt17/slu7-100, and slt21/prp8-21. These same U5 snRNA mutations also interact genetically with certain U2 snRNA mutations that lie in the helix I and helix II regions of the U2-U6 snRNA structure. Our results suggest interactions among U2 snRNA, U5 snRNA, and Slt protein factors that may be responsible for coupling and coordination of the two reactions of pre-mRNA splicing.
设计了一种遗传筛选方法来鉴定对U2 snRNA 5'端功能重要的酿酒酵母剪接因子。基于与干扰U2-U6 snRNA螺旋II相互作用的U2 snRNA突变的合成致死性,分离出六个slt(代表与U2的合成致死性)突变体。SLT11编码一种新的剪接因子,SLT22编码一种新的RNA依赖性ATPase RNA解旋酶(D. Xu、S. Nouraini、D. Field、S. J. Tang和J. D. Friesen,《自然》381:709 - 713,1996)。其余四个slt突变是先前鉴定的剪接基因的新等位基因:slt15,先前鉴定为prp17(slt15/prp17 - 100),slt16/smd3 - 1,slt17/slu7 - 100,以及slt21/prp8 - 21。slt11 - 1和slt22 - 1与U6 snRNA 3'端的突变具有合成致死性,该区域影响U2-U6 snRNA螺旋II;然而,slt17/slu7 - 100和slt21/prp8 - 21则不然。这种差异表明后两个因子不太可能参与与U2-U6 snRNA螺旋II的相互作用,而是特定于与U2 snRNA的相互作用。在slt11 - 1(影响剪接的第一步)和几个第二步因子之间观察到成对的合成致死性,包括slt15/prp17 - 100、slt17/slu7 - 100和prp16 - 1。U5 snRNA环1中的突变,该区域与两个外显子的比对有关,与slu4/prp17 - 2和slu7 - 1(D. Frank、B. Patterson和C. Guthrie,《分子细胞生物学》12:5179 - 5205,1992)以及与slt11 - 1、slt15/prp17 - 100、slt17/slu7 - 100和slt21/prp8 - 21具有合成致死性。这些相同的U5 snRNA突变也与位于U2-U6 snRNA结构的螺旋I和螺旋II区域的某些U2 snRNA突变发生遗传相互作用。我们的结果表明U2 snRNA、U5 snRNA和Slt蛋白因子之间的相互作用可能负责前体mRNA剪接的两个反应的偶联和协调。
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