原核泛素样修饰途径中 Pup 连接酶 PafA 和去泛素酶 Dop 的结构。
Structures of Pup ligase PafA and depupylase Dop from the prokaryotic ubiquitin-like modification pathway.
机构信息
ETH Zurich, Institute of Molecular Biology & Biophysics, CH-8093, Switzerland.
出版信息
Nat Commun. 2012;3:1014. doi: 10.1038/ncomms2009.
Abstract
Pupylation is a posttranslational protein modification occurring in mycobacteria and other actinobacteria that is functionally analogous to ubiquitination. Here we report the crystal structures of the modification enzymes involved in this pathway, the prokaryotic ubiquitin-like protein (Pup) ligase PafA and the depupylase/deamidase Dop. Both feature a larger amino-terminal domain consisting of a central β-sheet packed against a cluster of helices, a fold characteristic for carboxylate-amine ligases, and a smaller C-terminal domain unique to PafA/Dop members. The active site is located on the concave surface of the β-sheet with the nucleotide bound in a deep pocket. A conserved groove leading into the active site could have a role in Pup-binding. Nuclear magnetic resonance and biochemical experiments determine the region of Pup that interacts with PafA and Dop. Structural data and mutational studies identify crucial residues for the catalysis of both enzymes.
摘要
泛素化是一种发生在分枝杆菌和其他放线菌中的翻译后蛋白质修饰,其功能类似于泛素化。在这里,我们报告了参与这一途径的修饰酶的晶体结构,即原核泛素样蛋白(Pup)连接酶 PafA 和去泛素化酶/去酰胺酶 Dop。两者都具有较大的氨基末端结构域,由中央β-片层组成,与一组螺旋相对,这是羧酸-胺连接酶的特征折叠,以及较小的仅存在于 PafA/Dop 成员中的 C 末端结构域。活性位点位于β-片层的凹面,核苷酸结合在一个深口袋中。一个通向活性位点的保守凹槽可能在 Pup 结合中起作用。核磁共振和生化实验确定了与 PafA 和 Dop 相互作用的 Pup 区域。结构数据和突变研究确定了两个酶催化的关键残基。
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