T4 噬菌体 SF1B 解旋酶 Dda 经过结构优化,可实现 DNA 链分离。
The T4 phage SF1B helicase Dda is structurally optimized to perform DNA strand separation.
机构信息
Department of Structural Biology, St. Jude Children's Research Hospital, 262 Danny Thomas Place, Memphis, TN 38105, USA.
出版信息
Structure. 2012 Jul 3;20(7):1189-200. doi: 10.1016/j.str.2012.04.013. Epub 2012 May 31.
Abstract
Helicases move on DNA via an ATP binding and hydrolysis mechanism coordinated by well-characterized helicase motifs. However, the translocation along single-stranded DNA (ssDNA) and the strand separation of double-stranded (dsDNA) may be loosely or tightly coupled. Dda is a phage T4 SF1B helicase with sequence homology to the Pif1 family of helicases that tightly couples translocation to strand separation. The crystal structure of the Dda-ssDNA binary complex reveals a domain referred to as the "pin" that was previously thought to remain static during strand separation. The pin contains a conserved phenylalanine that mediates a transient base-stacking interaction that is absolutely required for separation of dsDNA. The pin is secured at its tip by protein-protein interactions through an extended SH3 domain thereby creating a rigid strut. The conserved interface between the pin and the SH3 domain provides the mechanism for tight coupling of translocation to strand separation.
摘要
解旋酶通过与高度特征化的解旋酶基序协调的 ATP 结合和水解机制在 DNA 上移动。然而,沿着单链 DNA(ssDNA)的易位和双链(dsDNA)的链分离可能是松散或紧密偶联的。Dda 是噬菌体 T4 SF1B 解旋酶,与 Pif1 家族的解旋酶具有序列同源性,可将易位与链分离紧密偶联。Dda-ssDNA 二元复合物的晶体结构揭示了一个称为“销”的结构域,该结构域在链分离过程中被认为是静态的。销包含一个保守的苯丙氨酸,介导瞬时碱基堆叠相互作用,这对于 dsDNA 的分离是绝对必需的。销的尖端通过通过扩展的 SH3 结构域的蛋白质-蛋白质相互作用来固定,从而形成刚性支柱。销和 SH3 结构域之间的保守界面提供了将易位与链分离紧密偶联的机制。
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