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引用次数: 7
摘要
饱和碳上的亲电中心是由分子氮的离开而产生的,这表明各种亲核试剂之间的区别最小。因此,在蛋白质的活性位点产生这样一个中心是标记该活性位点的一种有吸引力的方法。脱氨反应的化学性质将根据在蛋白质活性位点触发脱氨反应的实用性进行讨论。本文将描述这一原理在n -亚硝胺官能团、烷基芳基三氮烯官能团和重氮官能团上的成功应用。为什么含有这种隐蔽亲电性的活性位点试剂比含有明显亲电性中心(如- co - ch2 -卤素)的试剂更具特异性?将讨论脱胺前体在活细胞中特异性抑制生理活动方面的实际和潜在应用。
An electrophilic center at saturated carbon generated by the departure of molecular nitrogen shows minimum discrimination between various nucleophiles. The generation of such a center in the active site of a protein is therefore an attractive way of labeling that active site. The chemistry of deamination reactions will be discussed with respect to the practicality of triggering the deamination in the active sites of proteins. Successful applications of this principle using the N-nitrosamide functionality, the alkyl aryl triazene functionality, and the diazo functionality will be described. Reasons why active-site reagents incorporating this type of covert electrophilicity are more specific than those incorporating an overtly electrophilic center (such as -CO-CH2-Halogen) will be advanced. The actual and potential application of deamination precursors to the specific inhibition of physiological activities in living cells will be discussed.
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