二硫键异构酶A是一种氧化还原可切换的机械伴侣蛋白。

DsbA is a redox-switchable mechanical chaperone.

作者信息

Eckels Edward C, Chaudhuri Deep, Chakraborty Soham, Echelman Daniel J, Haldar Shubhasis

机构信息

Department of Biological Sciences, Columbia University New York NY 10027 USA

Department of Internal Medicine, Columbia University Medical Center New York NY 10032 USA.

出版信息

Chem Sci. 2021 Jul 19;12(33):11109-11120. doi: 10.1039/d1sc03048e. eCollection 2021 Aug 25.

DOI:10.1039/d1sc03048e

PMID:34522308

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8386657/

Abstract

DsbA is a ubiquitous bacterial oxidoreductase that associates with substrates during and after translocation, yet its involvement in protein folding and translocation remains an open question. Here we demonstrate a redox-controlled chaperone activity of DsbA, on both cysteine-containing and cysteine-free substrates, using magnetic tweezers-based single molecule force spectroscopy that enables independent measurements of oxidoreductase activity and chaperone behavior. Interestingly we found that this chaperone activity is tuned by the oxidation state of DsbA; oxidized DsbA is a strong promoter of folding, but the effect is weakened by the reduction of the catalytic CXXC motif. We further localize the chaperone binding site of DsbA using a seven-residue peptide which effectively blocks the chaperone activity. We found that the DsbA assisted folding of proteins in the periplasm generates enough mechanical work to decrease the ATP consumption needed for periplasmic translocation by up to 33%.

摘要

DsbA是一种普遍存在的细菌氧化还原酶，在转运过程中和转运后与底物结合，但其在蛋白质折叠和转运中的作用仍是一个悬而未决的问题。在这里，我们使用基于磁镊的单分子力谱，展示了DsbA对含半胱氨酸和不含半胱氨酸底物的氧化还原控制的伴侣活性，该技术能够独立测量氧化还原酶活性和伴侣行为。有趣的是，我们发现这种伴侣活性受DsbA氧化态的调节；氧化的DsbA是折叠的强力促进剂，但催化CXXC基序的还原会削弱这种作用。我们使用一种七肽进一步定位了DsbA的伴侣结合位点，该七肽有效地阻断了伴侣活性。我们发现，DsbA在周质中协助蛋白质折叠产生了足够的机械功，可将周质转运所需的ATP消耗降低多达33%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aeb9/8386657/ce2b34a1ff87/d1sc03048e-f1.jpg

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二硫键异构酶A是一种氧化还原可切换的机械伴侣蛋白。

DsbA is a redox-switchable mechanical chaperone.

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