通过离子/离子电荷反转进行的肽的气相生物缀合:通过将阳离子转化为阴离子形成席夫碱。
Gas-phase bioconjugation of peptides via ion/ion charge inversion: Schiff base formation on the conversion of cations to anions.
出版信息
Anal Chem. 2010 Mar 1;82(5):1594-7. doi: 10.1021/ac902732v.
Abstract
The selective covalent modification of singly protonated peptides in the gas-phase via ion/ion charge inversion reactions is demonstrated. Doubly deprotonated 4-formyl-1,3-benzene disulfonic acid serves as a reagent anion for forming a Schiff base via the reaction of a primary amine on the peptide and the aldehyde functionality of the reagent anion. The process is initiated by the formation of an ion/ion complex comprised of the two reactants. Ion trap collisional activation of the complex results in loss of water from the intermediate that gives rise to Schiff base formation. N-terminally acetylated peptides with no lysine residues do not undergo covalent bond formation upon reaction with the reagent anion. Rather, the adduct species simply loses the reagent either as a neutral species or as a deprotonated species. The ability to modify singly protonated peptide ions covalently and selectively opens up new possibilities for the analysis of peptides and, possibly, other analyte species with primary amine functionalities.
摘要
通过离子/离子电荷反转反应,在气相中对单质子化肽进行选择性共价修饰得到证实。双去质子化的 4-甲酰基-1,3-苯二磺酸作为试剂阴离子,通过肽上的伯胺与试剂阴离子的醛基官能团反应形成席夫碱。该过程由两种反应物形成的离子/离子复合物引发。离子阱碰撞激活复合物导致中间产物失去水,从而形成席夫碱。没有赖氨酸残基的 N-端乙酰化肽在与试剂阴离子反应时不会发生共价键形成。相反,加合物物种只是简单地失去试剂,无论是中性物质还是去质子化物质。能够对单质子化肽离子进行共价和选择性修饰,为分析肽以及可能具有伯胺官能团的其他分析物物种开辟了新的可能性。
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