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豌豆 p68 DEAD-box 蛋白是一种依赖于 ATP 的 RNA 解旋酶,也是一种独特的两极 DNA 解旋酶。

Pisum sativum p68 DEAD-box protein is ATP-dependent RNA helicase and unique bipolar DNA helicase.

机构信息

International Centre for Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi, 110067, India,

出版信息

Plant Mol Biol. 2014 Aug;85(6):639-51. doi: 10.1007/s11103-014-0209-6. Epub 2014 Jun 8.

DOI:10.1007/s11103-014-0209-6
PMID:24908423
Abstract

DEAD-box helicases play essential role in DNA and RNA metabolism such as replication, repair, recombination, transcription, translation, ribosome biogenesis and splicing which regulate plant growth and development. The presence of helicases in the stress-induced ORFs identified by cDNA microarray indicates that helicases might be playing an important role in stabilizing growth in plants under stress. p68 DEAD-box helicase has been identified and characterized from animal systems but the properties and functions of plant p68 are poorly understood. In this study, the identification, purification and characterization of recombinant p68 from Pisum sativum (Psp68) is presented. Psp68 possesses all the characteristic motifs like DEAD-box ATP-binding and helicase C terminal motifs and is structurally similar to human p68 homologue. Psp68 exhibits ATPase activity in the presence of both DNA and RNA and it binds to DNA as well as RNA. It contains the characteristic RNA helicase activity. Interestingly Psp68 also shows the unique DNA helicase activity, which is bipolar in nature (unwinds DNA in both the 5'-3' and 3'-5' directions). The Km values of Psp68 for ATPase are 0.5126 and 0.9142 mM in the presence of DNA and RNA, respectively. The Km values of Psp68 are 1.6129 and 1.14 nM for DNA helicase and RNA helicase, respectively. The unique properties of Psp68 suggest that it could be a multifunctional protein involved in different aspect of DNA and RNA metabolism. This discovery should make an important contribution to better understanding of nucleic acids metabolism plants.

摘要

DEAD -box 解旋酶在 DNA 和 RNA 代谢中发挥着重要作用,如复制、修复、重组、转录、翻译、核糖体生物发生和剪接,这些过程调节着植物的生长和发育。cDNA 微阵列鉴定的应激诱导 ORF 中存在解旋酶表明,解旋酶可能在植物应激下的生长稳定中发挥重要作用。已从动物系统中鉴定和表征 p68 DEAD-box 解旋酶,但对植物 p68 的特性和功能知之甚少。本研究从豌豆(Psp68)中鉴定、纯化和表征了重组 p68。Psp68 具有所有特征基序,如 DEAD-box ATP 结合和解旋酶 C 末端基序,并且与人类 p68 同源物结构相似。Psp68 在存在 DNA 和 RNA 的情况下表现出 ATP 酶活性,并且可以与 DNA 和 RNA 结合。它具有特征性的 RNA 解旋酶活性。有趣的是,Psp68 还表现出独特的 DNA 解旋酶活性,这种活性具有双极性(可以在 5'-3'和 3'-5'方向上解旋 DNA)。Psp68 对 ATP 酶的 Km 值在存在 DNA 和 RNA 时分别为 0.5126 和 0.9142 mM。Psp68 的 Km 值分别为 1.6129 和 1.14 nM,用于 DNA 解旋酶和 RNA 解旋酶。Psp68 的独特特性表明,它可能是一种参与 DNA 和 RNA 代谢不同方面的多功能蛋白。这一发现应该对更好地理解植物核酸代谢做出重要贡献。

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