The opposite effect of K+ and Na+ on the hydrolysis of linear and cyclic dipeptides

Campbell, Thomas D.; Hart, Clara A.; Febrian, Rio; Cheneler, Mark L.; Bracher, Paul J.

The opposite effect of K+ and Na+ on the hydrolysis of linear and cyclic dipeptides

2018

Campbell, Thomas D. | Hart, Clara A. | Febrian, Rio | Cheneler, Mark L. | Bracher, Paul J.

Potassium and sodium are generally considered inert ‘spectator’ ions for organic reactions. Here, we report rate constants for the acid-promoted hydrolysis of the seven dipeptides of glycine (G) and alanine (A) and an unexpected pattern in how these rates differ in the presence of K⁺ and Na⁺. The linear dipeptides hydrolyze 12–18% percent slower in the presence of KCl versus an equal concentration of NaCl, while the cyclic dipeptides hydrolyze 5–13% faster in the presence of KCl (all P-values < 0.025). We believe this is the first report of a general organic reaction—here, amide hydrolysis—for which some substrates react faster in the presence of K⁺ and others in Na⁺. The results offer a potential reason for life’s mysterious universal selection of intracellular potassium over sodium.

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