Dicer解旋酶结构域:调控蛋白的聚集地。

Sarah R Hansen, Adedeji M Aderounmu, Helen M Donelick, Brenda L Bass
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引用次数: 17

摘要

Dicer解旋酶结构域的功能自发现以来一直是个谜。为什么只有一些dicer需要ATP,尽管它们的解旋酶结构域具有高度的序列守恒?我们讨论了基于脊椎动物和无脊椎动物抗病毒防御的差异的进化考虑,以及解旋酶结构域如何在现存生物中被用作辅助蛋白的结合位点。许多辅助蛋白是双链RNA结合蛋白,我们提出了它们如何调节Dicer功能和催化的模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dicer's Helicase Domain: A Meeting Place for Regulatory Proteins.

Dicer's Helicase Domain: A Meeting Place for Regulatory Proteins.

Dicer's Helicase Domain: A Meeting Place for Regulatory Proteins.

Dicer's Helicase Domain: A Meeting Place for Regulatory Proteins.

The function of Dicer's helicase domain has been enigmatic since its discovery. Why do only some Dicers require ATP, despite a high degree of sequence conservation in their helicase domains? We discuss evolutionary considerations based on differences between vertebrate and invertebrate antiviral defense, and how the helicase domain has been co-opted in extant organisms as the binding site for accessory proteins. Many accessory proteins are double-stranded RNA binding proteins, and we propose models for how they modulate Dicer function and catalysis.

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