解旋酶 1 机制分析表明，在链侵入之前结合在碱基上。

Flap endonuclease 1 mechanism analysis indicates flap base binding prior to threading.

机构信息

Department of Biochemistry and Biophysics, University of Rochester School of Medicine and Dentistry, Rochester, New York 14642, USA.

出版信息

J Biol Chem. 2010 Nov 5;285(45):34922-31. doi: 10.1074/jbc.M110.165902. Epub 2010 Aug 25.

DOI:10.1074/jbc.M110.165902

PMID:20739288

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2966106/

Abstract

FEN1 cleaves 5' flaps at their base to create a nicked product for ligation. FEN1 has been reported to enter the flap from the 5'-end and track to the base. Current binding analyses support a very different mechanism of interaction with the flap substrate. Measurements of FEN1 binding to a flap substrate show that the nuclease binds with similar high affinity to the base of a long flap even when the 5'-end is blocked with biotin/streptavidin. However, FEN1 bound to a blocked flap is more sensitive to sequestration by a competing substrate. These results are consistent with a substrate interaction mechanism in which FEN1 first binds the flap base and then threads the flap through an opening in the protein from the 5'-end to the base for cleavage. Significantly, when the unblocked flap length is reduced from five to two nucleotides, FEN1 can be sequestered from the substrate to a similar extent as a blocked, long flap substrate. Apparently, interactions related to threading occur only when the flap is greater than two to four nucleotides long, implying that short flaps are cleaved without a threading requirement.

摘要

FEN1 在其碱基处切割 5' 发夹，产生用于连接的切口产物。据报道，FEN1 从 5' 端进入发夹并追踪至碱基。目前的结合分析支持与发夹底物相互作用的非常不同的机制。对 FEN1 与发夹底物结合的测量表明，即使 5' 端被生物素/链霉亲和素封闭，核酸内切酶也以相似的高亲和力结合到长发夹的碱基上。然而，与封闭发夹结合的 FEN1 对竞争底物的隔离更为敏感。这些结果与 FEN1 首先结合发夹碱基，然后从 5' 端穿过蛋白质中的开口将发夹穿过到碱基进行切割的底物相互作用机制一致。重要的是，当未封闭的发夹长度从五个减少到两个核苷酸时，FEN1 可以从底物中被隔离到与封闭的长发夹底物相似的程度。显然，只有当发夹大于两到四个核苷酸长时，与穿线相关的相互作用才会发生，这意味着短发夹无需穿线要求即可被切割。

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