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1
The molecular characterization of PRP6 and PRP9 yeast genes reveals a new cysteine/histidine motif common to several splicing factors.PRP6和PRP9酵母基因的分子特征揭示了几种剪接因子共有的一种新的半胱氨酸/组氨酸基序。
EMBO J. 1990 Sep;9(9):2775-81. doi: 10.1002/j.1460-2075.1990.tb07465.x.
2
Cloning of the two essential yeast genes, PRP6 and PRP9, and their rapid mapping, disruption and partial sequencing using a linker insertion strategy.利用接头插入策略克隆酵母两个必需基因PRP6和PRP9,并对其进行快速定位、破坏及部分测序。
Mol Gen Genet. 1991 Feb;225(2):199-202. doi: 10.1007/BF00269848.
3
The yeast PRP6 gene encodes a U4/U6 small nuclear ribonucleoprotein particle (snRNP) protein, and the PRP9 gene encodes a protein required for U2 snRNP binding.酵母PRP6基因编码一种U4/U6小核核糖核蛋白颗粒(snRNP)蛋白,而PRP9基因编码U2 snRNP结合所需的一种蛋白。
Mol Cell Biol. 1990 Dec;10(12):6417-25. doi: 10.1128/mcb.10.12.6417-6425.1990.
4
Interaction between PRP11 and SPP91 yeast splicing factors and characterization of a PRP9-PRP11-SPP91 complex.PRP11与SPP91酵母剪接因子之间的相互作用以及PRP9-PRP11-SPP91复合物的特性
Science. 1993 Oct 1;262(5130):108-10. doi: 10.1126/science.8211114.
5
A novel gene, spp91-1, suppresses the splicing defect and the pre-mRNA nuclear export in the prp9-1 mutant.一个新基因spp91-1可抑制prp9-1突变体中的剪接缺陷和前体mRNA的核输出。
EMBO J. 1992 Sep;11(9):3279-88. doi: 10.1002/j.1460-2075.1992.tb05406.x.
6
The prp1+ gene required for pre-mRNA splicing in Schizosaccharomyces pombe encodes a protein that contains TPR motifs and is similar to Prp6p of budding yeast.裂殖酵母中前体mRNA剪接所需的prp1+基因编码一种含有TPR基序的蛋白质,该蛋白质与芽殖酵母的Prp6p相似。
Genetics. 1997 Sep;147(1):101-15. doi: 10.1093/genetics/147.1.101.
7
Interactions between PRP9 and SPP91 splicing factors identify a protein complex required in prespliceosome assembly.PRP9与SPP91剪接因子之间的相互作用确定了前体剪接体组装所需的一种蛋白质复合物。
Genes Dev. 1993 Jul;7(7B):1390-9. doi: 10.1101/gad.7.7b.1390.
8
Splicing factor SF3a60 is the mammalian homologue of PRP9 of S.cerevisiae: the conserved zinc finger-like motif is functionally exchangeable in vivo.剪接因子SF3a60是酿酒酵母PRP9的哺乳动物同源物:保守的锌指样基序在体内具有功能可互换性。
Nucleic Acids Res. 1994 Dec 11;22(24):5223-8. doi: 10.1093/nar/22.24.5223.
9
Essential domains of the PRP21 splicing factor are implicated in the binding to PRP9 and PRP11 proteins and are conserved through evolution.PRP21剪接因子的关键结构域与PRP9和PRP11蛋白的结合有关,并且在进化过程中保守。
RNA. 1996 Jun;2(6):535-50.
10
In vitro studies of the Prp9.Prp11.Prp21 complex indicate a pathway for U2 small nuclear ribonucleoprotein activation.对Prp9.Prp11.Prp21复合物的体外研究表明了U2小核核糖核蛋白激活的一条途径。
J Biol Chem. 1996 Dec 27;271(52):33268-76. doi: 10.1074/jbc.271.52.33268.

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Proteins associated with SF3a60 in T. brucei.布氏锥虫中与SF3a60相关的蛋白质。
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The DExD/H-box ATPase Prp2p destabilizes and proofreads the catalytic RNA core of the spliceosome.DExD/H 盒 ATP 酶 Prp2p 使剪接体的催化 RNA 核心失稳并进行校对。
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3
Structure and assembly of the SF3a splicing factor complex of U2 snRNP.U2 snRNP 的 SF3a 剪接因子复合物的结构与组装。
EMBO J. 2012 Mar 21;31(6):1579-90. doi: 10.1038/emboj.2012.7. Epub 2012 Feb 7.
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Release of SF3 from the intron branchpoint activates the first step of pre-mRNA splicing.内含子分支点处 SF3 的释放激活了前体 mRNA 剪接的第一步。
RNA. 2010 Mar;16(3):516-28. doi: 10.1261/rna.2030510. Epub 2010 Jan 20.
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Multiple genetic and biochemical interactions of Brr2, Prp8, Prp31, Prp1 and Prp4 kinase suggest a function in the control of the activation of spliceosomes in Schizosaccharomyces pombe.Brr2、Prp8、Prp31、Prp1和Prp4激酶的多种遗传和生化相互作用表明其在粟酒裂殖酵母剪接体激活控制中发挥作用。
Curr Genet. 2005 Sep;48(3):151-61. doi: 10.1007/s00294-005-0013-6. Epub 2005 Oct 12.
6
The hangover gene defines a stress pathway required for ethanol tolerance development.宿醉基因定义了乙醇耐受性发展所需的应激途径。
Nature. 2005 Aug 11;436(7052):845-7. doi: 10.1038/nature03864.
7
Domains in human splicing factors SF3a60 and SF3a66 required for binding to SF3a120, assembly of the 17S U2 snRNP, and prespliceosome formation.人剪接因子SF3a60和SF3a66中与SF3a120结合、17S U2 snRNP组装及前剪接体形成所需的结构域。
Mol Cell Biol. 2001 Oct;21(19):6406-17. doi: 10.1128/MCB.21.19.6406-6417.2001.
8
Yeast ortholog of the Drosophila crooked neck protein promotes spliceosome assembly through stable U4/U6.U5 snRNP addition.果蝇弯颈蛋白的酵母直系同源物通过稳定添加U4/U6.U5核小核糖核蛋白促进剪接体组装。
RNA. 1999 Aug;5(8):1042-54. doi: 10.1017/s1355838299990635.
9
A novel genetic screen for snRNP assembly factors in yeast identifies a conserved protein, Sad1p, also required for pre-mRNA splicing.一项针对酵母中snRNP组装因子的新型遗传筛选鉴定出一种保守蛋白Sad1p,它也是前体mRNA剪接所必需的。
Mol Cell Biol. 1999 Mar;19(3):2008-20. doi: 10.1128/MCB.19.3.2008.
10
Multiple developmental requirements of noisette, the Drosophila homolog of the U2 snRNP-associated polypeptide SP3a60.诺伊塞特(Noisette)的多种发育需求,它是U2 snRNP相关多肽SP3a60的果蝇同源物。
Mol Cell Biol. 1998 Apr;18(4):1835-43. doi: 10.1128/MCB.18.4.1835.

本文引用的文献

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The effect of temperature-sensitive RNA mutants on the transcription products from cloned ribosomal protein genes of yeast.温度敏感型RNA突变体对酵母核糖体蛋白基因克隆转录产物的影响。
Cell. 1981 Jun;24(3):679-86. doi: 10.1016/0092-8674(81)90094-5.
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Sequences responsible for transcription termination on a gene segment in Saccharomyces cerevisiae.酿酒酵母基因片段上负责转录终止的序列。
Mol Cell Biol. 1984 Aug;4(8):1515-20. doi: 10.1128/mcb.4.8.1515-1520.1984.
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DNA sequence required for efficient transcription termination in yeast.酵母中高效转录终止所需的DNA序列。
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Identification of ten genes that control ribosome formation in yeast.鉴定出控制酵母核糖体形成的十个基因。
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The "spliceosome": yeast pre-messenger RNA associates with a 40S complex in a splicing-dependent reaction.“剪接体”:酵母前体信使核糖核酸在剪接依赖性反应中与一个40S复合体结合。
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Rapid and efficient site-specific mutagenesis without phenotypic selection.无需表型筛选的快速高效位点特异性诱变。
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Loops in globular proteins: a novel category of secondary structure.球状蛋白质中的环:一种新型二级结构
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Electrophoresis of ribonucleoproteins reveals an ordered assembly pathway of yeast splicing complexes.核糖核蛋白的电泳揭示了酵母剪接复合体的有序组装途径。
Nature. 1986;324(6095):341-5. doi: 10.1038/324341a0.
9
The yeast RNA gene products are essential for mRNA splicing in vitro.酵母RNA基因产物对于体外mRNA剪接至关重要。
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10
A Saccharomyces cerevisiae genomic plasmid bank based on a centromere-containing shuttle vector.基于含着丝粒穿梭载体的酿酒酵母基因组质粒文库。
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PRP6和PRP9酵母基因的分子特征揭示了几种剪接因子共有的一种新的半胱氨酸/组氨酸基序。

The molecular characterization of PRP6 and PRP9 yeast genes reveals a new cysteine/histidine motif common to several splicing factors.

作者信息

Legrain P, Choulika A

机构信息

Department of Molecular Biology, Institut Pasteur, Paris, France.

出版信息

EMBO J. 1990 Sep;9(9):2775-81. doi: 10.1002/j.1460-2075.1990.tb07465.x.

DOI:10.1002/j.1460-2075.1990.tb07465.x
PMID:2118103
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC551986/
Abstract

prp6 and prp9 thermosensitive (ts) mutants are affected in pre-mRNA splicing and transport from the nucleus to the cytoplasm. PRP6 and PRP9 wild-type alleles have been sequenced. DNA sequence analysis reveals homologies in the 5' and 3' non-coding regions, suggesting a common regulation of gene expression. PRP6 and PRP9 genes encode a 899 amino acid and a 530 amino acid protein, respectively. The PRP6 protein has repeated motifs that evoke helix-loop-helix structures. Both PRP6 and PRP9 proteins have cysteine/histidine motifs loosely related to those found in zinc finger proteins. The substitution of some, but not all, of these residues by directed mutagenesis has a critical effect on the protein function. Homology searches reveal that two other proteins known to be involved in the nuclear splicing pathway--the yeast PRP11 and the human U1C proteins--contain similar sequences. The five cysteine/histidine motifs found in these four proteins display amino acid similarities in addition to the cysteine and histidine residues, indicating that they participate in biological structures or functions related to the splicing process. In addition, PRP6 and PRP9 exhibit leucine repeat motifs which may be implicated in protein interactions. The prp6 and prp9 ts mutations have been mapped and sequenced.

摘要

prp6和prp9温度敏感(ts)突变体在mRNA前体剪接以及从细胞核到细胞质的转运过程中受到影响。已对PRP6和PRP9野生型等位基因进行了测序。DNA序列分析揭示了5'和3'非编码区的同源性,表明基因表达存在共同调控。PRP6和PRP9基因分别编码一个899个氨基酸的蛋白质和一个530个氨基酸的蛋白质。PRP6蛋白具有引发螺旋-环-螺旋结构的重复基序。PRP6和PRP9蛋白都具有与锌指蛋白中发现的基序松散相关的半胱氨酸/组氨酸基序。通过定向诱变对其中一些(但不是全部)残基进行取代对蛋白质功能有关键影响。同源性搜索显示,另外两个已知参与核剪接途径的蛋白质——酵母PRP11和人类U1C蛋白——含有相似序列。这四种蛋白质中发现的五个半胱氨酸/组氨酸基序除了半胱氨酸和组氨酸残基外还显示出氨基酸相似性,表明它们参与与剪接过程相关的生物学结构或功能。此外,PRP6和PRP9表现出可能与蛋白质相互作用有关的亮氨酸重复基序。已对prp6和prp9 ts突变进行了定位和测序。