DNA长度、弯曲及扭转对IS50转座的限制。

DNA length, bending, and twisting constraints on IS50 transposition.

作者信息

Kil Y V, Reznikoff W S

机构信息

Department of Biochemistry, College of Agricultural and Life Sciences, University of Wisconsin, Madison 53706-1569.

出版信息

Proc Natl Acad Sci U S A. 1994 Nov 8;91(23):10834-8. doi: 10.1073/pnas.91.23.10834.

DOI:10.1073/pnas.91.23.10834

PMID:7971970

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC45120/

Abstract

Transposition is a multistep process in which a transposable element DNA sequence moves from its original genetic location to a new site. Early steps in this process include the formation of a transposition complex in which the end sequences of the transposable element are brought together in a structurally precise fashion through the action of the element-encoded transposase protein and the cleavage of the element free from the adjoining DNA. If transposition complex formation must precede DNA cleavage (or nicking), then changing the length of the donor DNA between closely spaced ends should have dramatic effects on the frequency of the transposition. This question has been examined by studying the effects of altering donor DNA length on IS50 transposition. Donor DNA < or = 64 bp severely impaired transposition. Donor DNA > or = 200 bp demonstrated high transposition frequencies with only modest length dependencies. Constructs with donor DNA lengths between 66 and 174 bp demonstrated a dramatic periodic effect on transposition (periodicity approximately 10.5 bp).

摘要

转座是一个多步骤过程，在此过程中，转座元件的DNA序列从其原来的基因位置移动到一个新位点。该过程的早期步骤包括转座复合物的形成，在这个复合物中，转座元件的末端序列通过元件编码的转座酶蛋白的作用以结构精确的方式聚集在一起，并且元件从相邻的DNA上切割下来。如果转座复合物的形成必须先于DNA切割（或切口），那么改变紧密间隔末端之间的供体DNA长度应该会对转座频率产生显著影响。通过研究改变供体DNA长度对IS50转座的影响来检验这个问题。供体DNA≤64 bp会严重损害转座。供体DNA≥200 bp表现出高转座频率，且长度依赖性较小。供体DNA长度在66至174 bp之间的构建体对转座表现出显著的周期性影响（周期约为10.5 bp）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/df05/45120/55c9be8d97f7/pnas01145-0086-a.jpg

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DNA长度、弯曲及扭转对IS50转座的限制。

DNA length, bending, and twisting constraints on IS50 transposition.

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