Litcius/Paper detail

Context‐Dependence of the Reactivity of Cysteine and Lysine Residues

Linus B. Boll, Ronald T. Raines

2022ChemBioChem19 citationsDOIOpen Access PDF

Abstract

Abstract The S ‐alkylation of Cys residues with a maleimide and the N ϵ ‐acylation of Lys residues with an N ‐hydroxysuccinimide (NHS) ester are common methods for bioconjugation. Using Cys and Lys derivatives as proxies, we assessed differences in reactivity depending on the position of Cys or Lys in a protein sequence. We find that Cys position is exploitable to improve site‐selectivity in maleimide‐based modifications. Reactivity decreases substantially in the order N‐terminal>in‐chain>C‐terminal Cys due to modulation of sulfhydryl p K a by the α‐ammonium and carboxylate groups at the termini. A lower p K a value yields a larger fraction thiolate, which promotes selectivity while somewhat decreasing thiolate nucleophilicity in accord with =0.41. Lowering pH and salt concentration enhances selectivity still further. In contrast, differences in the reactivity of Lys towards an NHS ester were modest due to an appreciable decrease in amino group nucleophilicity with a lower p K a of its conjugate acid. Hence, site‐selective Lys modification protocols will require electrophiles other than NHS esters.

Topics & Concepts

LysineCysteineContext (archaeology)Reactivity (psychology)ChemistryPosttranslational modificationBiochemistryCombinatorial chemistryStereochemistryAmino acidBiologyEnzymeMedicineAlternative medicinePaleontologyPathologyClick Chemistry and ApplicationsPeptidase Inhibition and AnalysisChemical Synthesis and Analysis