酵母复制起点中的DNA解旋元件独立于质粒上其他位置存在的易于解旋的序列发挥作用。

The DNA unwinding element in a yeast replication origin functions independently of easily unwound sequences present elsewhere on a plasmid.

作者信息

Umek R M, Kowalski D

机构信息

Department of Molecular and Cellular Biology, Roswell Park Cancer Institute, Buffalo, NY 14263.

出版信息

Nucleic Acids Res. 1990 Nov 25;18(22):6601-5. doi: 10.1093/nar/18.22.6601.

DOI:10.1093/nar/18.22.6601

PMID:2174542

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC332616/

Abstract

We have previously identified a DNA unwinding element (DUE) in autonomously replicating sequences (ARSs) and demonstrated a correlation between single-strand-specific nuclease hypersensitivity of the DUE and ARS-mediated plasmid replication in yeast. The DUE in the H4 ARS is the most easily unwound sequence in a supercoiled DNA molecule, in the context of the Ylp5 plasmid. To determine whether sequences which are more readily unwound than the ARS can influence replication activity, we have inserted such sequences, called 'torsional sinks', into the plasmids at a site distal to the ARS. We show that the torsional sink sequences effect reduction or elimination of the nuclease hypersensitivity of a variety of H4 ARS derivatives. However, we detect no difference in the in vivo replication activity of an individual ARS plasmid with or without a torsional sink. Thus, the function of the DUE in a yeast replication origin is unaffected by easily unwound sequences present elsewhere on the same plasmid.

摘要

我们之前在自主复制序列（ARSs）中鉴定出了一个DNA解旋元件（DUE），并证明了DUE的单链特异性核酸酶超敏反应与酵母中ARS介导的质粒复制之间存在相关性。在Ylp5质粒的背景下，H4 ARS中的DUE是超螺旋DNA分子中最容易解旋的序列。为了确定比ARS更容易解旋的序列是否会影响复制活性，我们将此类称为“扭转阱”的序列插入到ARS远端的质粒位点。我们发现，扭转阱序列会导致多种H4 ARS衍生物的核酸酶超敏反应降低或消除。然而，我们未检测到带有或不带有扭转阱的单个ARS质粒在体内复制活性上的差异。因此，酵母复制起点中DUE的功能不受同一质粒上其他位置存在的易解旋序列的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8e63/332616/767f5d4a4b3c/nar00206-0133-a.jpg

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酵母复制起点中的DNA解旋元件独立于质粒上其他位置存在的易于解旋的序列发挥作用。

The DNA unwinding element in a yeast replication origin functions independently of easily unwound sequences present elsewhere on a plasmid.

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