2021
DOI: 10.1002/pro.4092
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Measuring how two proteins affect each other's net charge in a crowded environment

Abstract: Theory predicts that the net charge (Z) of a protein can be altered by the net charge of a neighboring protein as the two approach one another below the Debye length. This type of charge regulation suggests that a protein's charge and perhaps function might be affected by neighboring proteins without direct binding. Charge regulation during protein crowding has never been directly measured due to analytical challenges. Here, we show that lysine specific protein crosslinkers (NHS ester-Staudinger pairs) can be … Show more

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Cited by 5 publications
(19 citation statements)
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References 69 publications
(128 reference statements)
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“…The results of nonselective acylation are supported by previous studies showing that small molecule acylating agents (e.g., anhydrides, N‐hydroxysuccinimide [NHS]‐esters, and aryl esters) acylate lysine in proteins semi‐randomly 47,64–66 . Even partially buried lysine residues are reactive with small organic molecules, because these lysines can associate with amphiphilic/hydrophobic molecules (in some cases, more so than solvent accessible lysine residues) 67 .…”
Section: Resultssupporting
confidence: 61%
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“…The results of nonselective acylation are supported by previous studies showing that small molecule acylating agents (e.g., anhydrides, N‐hydroxysuccinimide [NHS]‐esters, and aryl esters) acylate lysine in proteins semi‐randomly 47,64–66 . Even partially buried lysine residues are reactive with small organic molecules, because these lysines can associate with amphiphilic/hydrophobic molecules (in some cases, more so than solvent accessible lysine residues) 67 .…”
Section: Resultssupporting
confidence: 61%
“…This issue—the magnitude by which two proteins affect each other's net charge in a crowded environment—is poorly understood 57–59 . The question has been examined with Monte Carlo simulations 60 and protein charge ladders 47 . Lund and Jonsson simulated how the net charge of calbindin and lysozyme change as they approach each other at a distance of ~25 Å (mass center to mass center) and ionic strength of I = 0.006 M (pH 4.0).…”
Section: Resultsmentioning
confidence: 99%
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