The concept of superactive esters. Could peptide synthesis be improved by inventing superactive esters?

Z J Kamiński
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Abstract

According to the concept presented, esters forming an amide (peptide) bond by the mechanism SN#DN or SN#*DN involving fast decay of the tetrahedral intermediate may behave as 'superactive acylating reagents'. These should render coupling involving less reactive substrates, i.e. sterically hindered or 'difficult coupling sequences', much faster and more uniform than classic active esters. In extremely cases this advantage could be significant, and the calculated increase in time required for 99.9% coupling substrates 6 pKa units less reactive than the standard ones reaches 2,512,000 tau 1/2 units for classic active esters, but only 631 tau 1/2 units for reaction involving 'superactive esters'. The postulated change of mechanism is expected for esters bearing a leaving group which is able to undergo an additional, synchronous, energetically favored process accompanying its departure, as has been observed in the case of triazine esters. Some advantages of triazine superactive esters in the condensation of sterically hindered substrates are demonstrated.

超活性酯的概念。发明超活性酯能改善肽合成吗?
根据所提出的概念,通过SN#DN或SN#*DN机制形成酰胺(肽)键的酯类,涉及四面体中间体的快速衰变,可以作为“超活性酰化试剂”。这些应该使偶联涉及较少的反应性底物,即空间受阻或“困难偶联序列”,比传统的活性酯更快,更均匀。在极端情况下,这种优势可能是显著的,并且计算出99.9%的偶联底物比标准底物活性低6 pKa单位所需的时间增加达到经典活性酯的2,512,000 tau 1/2单位,但涉及“超活性酯”的反应仅为631 tau 1/2单位。假设的机制变化是预期的,对于带有离去基团的酯,它能够经历一个额外的,同步的,能量有利的过程伴随着它的离开,就像在三嗪酯的情况下观察到的那样。证明了三嗪超活性酯在位阻底物缩合中的一些优点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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