噬菌体T4 RNA连接酶。反应中间体与底物的相互作用。

Bacteriophage T4 RNA ligase. Reaction intermediates and interaction of substrates.

作者信息

Sugino A, Snoper T J, Cozzarelli N R

出版信息

J Biol Chem. 1977 Mar 10;252(5):1732-8.

Abstract

Bacteriophage T4 RNA ligase catalyzes the ATP-dependent ligation of a 5'-phosphoryl-terminated nucleic acid donor to a 3'-hydroxyl-terminated nucleic acid acceptor. We have identified adenylylated DNA and RNA reaction intermediates in which the AMP moiety is attached by a pyrophosphate bond to the 5'-phosphoryl group of the donor. A large amount of DNA-adenylate accumulates during the reaction and the dependence of joining and adenylylation on chain length are similar. The adenylylated donor is joined by ligase to an acceptor in the absence of ATP, and AMP is released stoichiometrically in this reaction. The acceptor is not only a substrate in the reaction but also a cofactor for adenylylation of the donor; in the absence of a 3'-hydroxyl group the activated intermediate does not form. The activated DNA need not join to the acceptor that initially stimulated activation but can also join to another acceptor. This process of acceptor exchanges has proven useful for promoting the cyclization of small DNA substrates and the synthesis of DNA co-polymers.

摘要

噬菌体T4 RNA连接酶催化5'-磷酸化末端核酸供体与3'-羟基末端核酸受体的ATP依赖性连接。我们已经鉴定出腺苷酸化的DNA和RNA反应中间体，其中AMP部分通过焦磷酸键连接到供体的5'-磷酸基团上。反应过程中会积累大量的DNA-腺苷酸，连接和腺苷酸化对链长的依赖性相似。在没有ATP的情况下，腺苷酸化的供体可被连接酶连接到受体上，并且在该反应中按化学计量释放AMP。受体不仅是反应中的底物，也是供体腺苷酸化的辅因子；在没有3'-羟基的情况下，不会形成活化中间体。活化的DNA不必连接到最初刺激活化的受体上，也可以连接到另一个受体上。这种受体交换过程已被证明有助于促进小DNA底物的环化和DNA共聚物的合成。

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Bacteriophage T4 RNA ligase. Reaction intermediates and interaction of substrates.噬菌体T4 RNA连接酶。反应中间体与底物的相互作用。

J Biol Chem. 1977 Mar 10;252(5):1732-8.

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