Pif1 Helicase Directs Eukaryotic Okazaki Fragments toward the Two-nuclease Cleavage Pathway for Primer Removal

机译：Pif1解旋酶将真核冈崎片段引向引物的二核酸酶切割途径清除

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Eukaryotic Okazaki fragment maturation requires complete removal of the initiating RNA primer before ligation occurs. Polymerase δ (Pol δ) extends the upstream Okazaki fragment and displaces the 5′-end of the downstream primer into a single nucleotide flap, which is removed by FEN1 nuclease cleavage. This process is repeated until all RNA is removed. However, a small fraction of flaps escapes cleavage and grows long enough to be coated with RPA and requires the consecutive action of the Dna2 and FEN1 nucleases for processing. Here we tested whether RPA inhibits FEN1 cleavage of long flaps as proposed. Surprisingly, we determined that RPA binding to long flaps made dynamically by polymerase δ only slightly inhibited FEN1 cleavage, apparently obviating the need for Dna2. Therefore, we asked whether other relevant proteins promote long flap cleavage via the Dna2 pathway. The Pif1 helicase, implicated in Okazaki maturation from genetic studies, improved flap displacement and increased RPA inhibition of long flap cleavage by FEN1. These results suggest that Pif1 accelerates long flap growth, allowing RPA to bind before FEN1 can act, thereby inhibiting FEN1 cleavage. Therefore, Pif1 directs long flaps toward the two-nuclease pathway, requiring Dna2 cleavage for primer removal.

机译：真核冈崎片段成熟需要在连接发生之前完全去除起始RNA引物。聚合酶δ（Polδ）延伸了上游Okazaki片段，并将下游引物的5'末端置换为单个核苷酸的瓣，该瓣被FEN1核酸酶切割去除。重复该过程，直到除去所有RNA。然而，一小部分的皮瓣逃脱了切割，并且长得足以被RPA包被，并且需要Dna2和FEN1核酸酶的连续作用进行加工。在这里，我们测试了RPA是否如所建议的那样抑制长瓣的FEN1裂解。出乎意料的是，我们确定RPA与聚合酶δ动态产生的长襟翼的结合仅轻微抑制了FEN1的裂解，显然消除了对Dna2的需要。因此，我们询问其他相关蛋白是否通过Dna2途径促进长皮瓣切割。 Pif1解旋酶，涉及遗传研究的冈崎成熟，改善了皮瓣移位并增加了FEN1对长皮瓣切割的RPA抑制作用。这些结果表明，Pif1促进了长瓣的生长，允许RPA在FEN1起作用之前就结合，从而抑制了FEN1的裂解。因此，Pif1将长的皮瓣导向两个核酸酶途径，需要Dna2裂解才能引物去除。

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期刊名称 The Journal of Biological Chemistry
作者
Marie L. Rossi; Jason E. Pike; Wensheng Wang; Peter M. J. Burgers; Judith L. Campbell; Robert A. Bambara;
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年(卷),期 2008(283),41
年度 2008
页码 27483–27493
总页数 11
原文格式 PDF
正文语种
中图分类分子生物学;
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专利

1. Direct Visualization of RNA-DNA Primer Removal from Okazaki Fragments Provides Support for Flap Cleavage and Exonucleolytic Pathways in Eukaryotic Cells [J] . Bochao Liu, Jiazhi Hu, Jingna Wang, The Journal of biological chemistry . 2017,第12期

机译：从冈崎片段中直接观察RNA-DNA引物的去除为真核细胞中的皮瓣切割和核酸外切途径提供了支持
2. Components of the Secondary Pathway Stimulate the Primary Pathway of Eukaryotic Okazaki Fragment Processing [J] . Ryan Henry, Lata Balakrishnan, Stefanie Tan Ying-Lin, The Journal of biological chemistry . 2010,第37期

机译：二次途径的组分刺激真核冈萨基片段加工的主要途径
3. A two-nuclease pathway involving RNase H1 is required for primer removal at human mitochondrial OriL [J] . Al-Behadili Ali, Uhler Jay P., Berglund Anna-Karin, Nucleic Acids Research . 2018,第18期

机译：涉及RNase H1的双核酸酶途径是在人体线粒体orile下的引物去除
4. Distinguishing the pathways of primer removal during eukaryotic Okazaki fragment maturation [D] . Rossi, Marie Louise 2007

机译：区分真核冈崎片段成熟过程中引物去除的途径
5. Direct Visualization of RNA-DNA Primer Removal from Okazaki Fragments Provides Support for Flap Cleavage and Exonucleolytic Pathways in Eukaryotic Cells [O] . Bochao Liu, Jiazhi Hu, Jingna Wang, 2017

机译：从冈崎片段的RNA-DNA引物去除的直接可视化为真核细胞中的皮瓣切割和核酸外切途径提供了支持
6. Pif1 helicase directs eukaryotic Okazaki fragments toward the two-nuclease cleavage pathway for primer removal [O] . Rossi Marie L., Pike Jason E., Wang Wensheng, 2008

机译：Pif1解旋酶将真核冈崎片段引向双核酸酶裂解途径以去除引物

Pif1 Helicase Directs Eukaryotic Okazaki Fragments toward the Two-nuclease Cleavage Pathway for Primer Removal

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