Journal article
The suppressor of copper sensitivity protein C from Caulobacter crescentus is a trimeric disulfide isomerase that binds copper(I) with subpicomolar affinity
GA Petit, Y Hong, KY Djoko, AE Whitten, EJ Furlong, AJ McCoy, JM Gulbis, M Totsika, JL Martin, MA Halili
Acta Crystallographica Section D Structural Biology | Published : 2022
Abstract
The introduction of disulfide bonds into periplasmic proteins is a critical process in many Gram-negative bacteria. The formation and regulation of protein disulfide bonds have been linked to the production of virulence factors. Understanding the different pathways involved in this process is important in the development of strategies to disarm pathogenic bacteria. The well characterized disulfide bond-forming (DSB) proteins play a key role by introducing or isomerizing disulfide bonds between cysteines in substrate proteins. Curiously, the suppressor of copper sensitivity C proteins (ScsCs), which are part of the bacterial copper-resistance response, share structural and functional similari..
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Awarded by Royal Society
Funding Acknowledgements
This work was supported by an Australian Research Council Discovery Project DP190101613 (GAP, EJF, KYD, YH, MT, JLM and MAH). EJF was further supported by an Australian Postgraduate Award Scholarship. GAP is further supported by a Griffith University Postgraduate Research Scholarship and a Griffith University International Postgraduate Research Scholarship. KYD acknowledges partial support from Royal Society Research Grant RSG\R1\180044 and Department of Biosciences (Durham University) start-up funds.