由肽核酸 - DNA 复合物形成的核酸三螺旋。

A nucleic acid triple helix formed by a peptide nucleic acid-DNA complex.

作者信息

Betts L, Josey J A, Veal J M, Jordan S R

机构信息

Glaxo Wellcome, Research Triangle Park, NC 27709, USA.

出版信息

Science. 1995 Dec 15;270(5243):1838-41. doi: 10.1126/science.270.5243.1838.

DOI:10.1126/science.270.5243.1838

PMID:8525381

Abstract

The crystal structure of a nucleic acid triplex reveals a helix, designated P-form, that differs from previously reported nucleic acid structures. The triplex consists of one polypurine DNA strand complexed to a polypyrimidine hairpin peptide nucleic acid (PNA) and was successfully designed to promote Watson-Crick and Hoogsteen base pairing. The P-form helix is underwound, with a base tilt similar to B-form DNA. The bases are displaced from the helix axis even more than in A-form DNA. Hydrogen bonds between the DNA backbone and the Hoogsteen PNA backbone explain the observation that polypyrimidine PNA sequences form highly stable 2:1 PNA-DNA complexes. This structure expands the number of known stable helical forms that nucleic acids can adopt.

摘要

一种核酸三链体的晶体结构揭示了一种名为P型的螺旋结构，它不同于先前报道的核酸结构。该三链体由一条多嘌呤DNA链与一个多嘧啶发夹肽核酸（PNA）复合而成，并成功设计用于促进沃森-克里克碱基对和 hoogsteen 碱基对的形成。P型螺旋是欠缠绕的，其碱基倾斜度与B型DNA相似。碱基从螺旋轴的位移甚至比A型DNA中的还要大。DNA主链与Hoogsteen PNA主链之间的氢键解释了多嘧啶PNA序列形成高度稳定的2:1 PNA-DNA复合物这一现象。这种结构增加了核酸能够采用的已知稳定螺旋形式的数量。

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由肽核酸 - DNA 复合物形成的核酸三螺旋。

A nucleic acid triple helix formed by a peptide nucleic acid-DNA complex.

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