非配对半胱氨酸之间的分子间二硫键会延迟 Npu DnaE 的 C 端反式切割。

Intermolecular disulfide bonds between unpaired cysteines retard the C-terminal trans-cleavage of Npu DnaE.

机构信息

Engineering Research Center of Cell and Therapeutic Antibody, Ministry of Education, School of Pharmacy, Shanghai Jiao Tong University, Shanghai 200240, China.

Basic Science Program, Leidos Biomedical Research, Inc. Cancer and Inflammation Program, National Cancer Institute, Frederick, MD, 21702, USA.

出版信息

Enzyme Microb Technol. 2018 Nov;118:6-12. doi: 10.1016/j.enzmictec.2018.06.013. Epub 2018 Jul 3.

DOI:10.1016/j.enzmictec.2018.06.013

PMID:30143201

Abstract

Npu DnaE is a naturally occurred split intein possessing robust trans-splicing activity and could be engineered to perform rapid C-terminal cleavage module by a single mutation D118G. Unfortunately, however, for this modified selfcleaving module, reducing agents were needed to trigger the rapid cleavage, which prevents the utilization in purification of disulfide bonds containing recombinant proteins. In this study, we demonstrated that the unpaired cysteine residues in Npu DnaE tend to form disulfide bonds, and contributed to the reduction of the cleavage under non-reducing conditions. This redox trap can be disrupted by site-directed mutation of these unpaired cysteines. The results further indicated that the position 28 and 59 may play certain roles in the correct folding of the active conformation.

摘要

Npu DnaE 是一种天然存在的分裂内含肽，具有强大的转剪接活性，可通过单个突变 D118G 来设计实现快速 C 末端切割模块。然而，不幸的是，对于这个经过修饰的自我切割模块，需要还原剂来触发快速切割，这阻止了其在含有二硫键的重组蛋白的纯化中的应用。在本研究中，我们证明了 Npu DnaE 中的未配对半胱氨酸残基倾向于形成二硫键，并导致在非还原条件下切割减少。这种氧化还原陷阱可以通过这些未配对半胱氨酸的定点突变来破坏。结果还表明，位置 28 和 59 可能在活性构象的正确折叠中发挥一定作用。

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非配对半胱氨酸之间的分子间二硫键会延迟 Npu DnaE 的 C 端反式切割。

Intermolecular disulfide bonds between unpaired cysteines retard the C-terminal trans-cleavage of Npu DnaE.

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