Literature DB >> 30635401

Allosteric disulfides: Sophisticated molecular structures enabling flexible protein regulation.

Joyce Chiu1, Philip J Hogg2.   

Abstract

Protein disulfide bonds link pairs of cysteine residues in polypeptide chains. Many of these bonds serve a purely structural or energetic role, but a growing subset of cleavable disulfide bonds has been shown to control the function of the mature protein in which they reside. These allosteric disulfides and the factors that cleave these bonds are being identified across biological systems and life forms and have been shown to control hemostasis, the immune response, and viral infection in mammals. The discovery of these functional disulfides and a rationale for their facile nature has been aided by the emergence of a conformational signature for allosteric bonds. This post-translational modification mostly occurs extracellularly, making these chemical events prime drug targets. Indeed, a membrane-impermeable inhibitor of one of the cleaving factors is currently being trialed as an antithrombotic agent in cancer patients. Allosteric disulfides are firmly established as a sophisticated means by which a protein's shape and function can be altered; however, the full scope of this biological regulation will not be realized without new tools and techniques to study this regulation and innovative ways of targeting it.
© 2019 Chiu and Hogg.

Entities:  

Keywords:  disulfide; protein chemistry; protein conformation; protein dynamic; protein disulfide isomerase; drug discovery; oxidation-reduction (redox); post-translational modification; protein chemical modification; thiol; allosteric; cysteine; cystine; disulfide bond; oxidoreductase

Mesh:

Substances:

Year:  2019        PMID: 30635401      PMCID: PMC6393624          DOI: 10.1074/jbc.REV118.005604

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  109 in total

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2.  Force-dependent chemical kinetics of disulfide bond reduction observed with single-molecule techniques.

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3.  Stabilization of HIV-1 envelope in the CD4-bound conformation through specific cross-linking of a CD4 mimetic.

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Journal:  J Biol Chem       Date:  2011-04-12       Impact factor: 5.157

4.  Disulfide isomerization switches tissue factor from coagulation to cell signaling.

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Review 4.  Resolving the topological enigma in Ca2+ signaling by cyclic ADP-ribose and NAADP.

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Review 9.  Oxidative Cysteine Modification of Thiol Isomerases in Thrombotic Disease: A Hypothesis.

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Review 10.  α-Conotoxin Peptidomimetics: Probing the Minimal Binding Motif for Effective Analgesia.

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