通过将短片段共价封闭成环来研究DNA柔韧性。

DNA flexibility studied by covalent closure of short fragments into circles.

作者信息

Shore D, Langowski J, Baldwin R L

出版信息

Proc Natl Acad Sci U S A. 1981 Aug;78(8):4833-7. doi: 10.1073/pnas.78.8.4833.

DOI:10.1073/pnas.78.8.4833

PMID:6272277

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC320266/

Abstract

The ring closure probability, or j factor, has been measured for DNA restriction fragments of defined sequence bearing EcoRI cohesive ends and ranging in size from 126 to 4361 base pairs (bp). The j factor is defined as the ratio of the equilibrium constants for cyclization and for bimolecular association via the cohesive ends. The end-joining reactions are fast compared to covalent closure of the cohesive ends by T4 DNA ligase. The rate of ligase closure is shown to be proportional to the equilibrium fraction of DNA molecules with joined cohesive ends, both in cyclization and in bimolecular association reactions. The j factor changes by less than 10-fold between 242 and 4361 bp, whereas it decreases by more than 100-fold between 242 and 126 bp as the DNA reaches the size range of the persistence length (150 bp). As regards ring closure, short DNA fragments are surprisingly flexible. These data are in good agreement with predictions by others for the ring closure probability of a wormlike chain.

摘要

已对带有EcoRI粘性末端且大小在126至4361个碱基对（bp）之间的特定序列的DNA限制性片段的环化概率（即j因子）进行了测量。j因子定义为环化平衡常数与通过粘性末端进行双分子缔合的平衡常数之比。与T4 DNA连接酶对粘性末端的共价封闭相比，末端连接反应速度很快。在环化和双分子缔合反应中，连接酶封闭的速率均与具有连接粘性末端的DNA分子的平衡分数成正比。j因子在242至4361 bp之间变化不到10倍，而当DNA达到持久长度范围（150 bp）时，在242至126 bp之间它下降超过100倍。就环化而言，短DNA片段具有惊人的柔韧性。这些数据与其他人对蠕虫状链环化概率的预测高度吻合。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/197a/320266/a09621f1af9d/pnas00659-0211-a.jpg

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通过将短片段共价封闭成环来研究DNA柔韧性。

DNA flexibility studied by covalent closure of short fragments into circles.

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