基于轮烷的分子机器的序列特异性β-肽合成。

Sequence-Specific β-Peptide Synthesis by a Rotaxane-Based Molecular Machine.

机构信息

School of Chemistry, University of Manchester , Oxford Road, Manchester, M13 9PL, United Kingdom.

出版信息

J Am Chem Soc. 2017 Aug 9;139(31):10875-10879. doi: 10.1021/jacs.7b05850. Epub 2017 Jul 26.

Abstract

We report on the synthesis and operation of a three-barrier, rotaxane-based, artificial molecular machine capable of sequence-specific β-homo (β) peptide synthesis. The machine utilizes nonproteinogenic β-amino acids, a class of amino acids not generally accepted by the ribosome, particularly consecutively. Successful operation of the machine via native chemical ligation (NCL) demonstrates that even challenging 15- and 19-membered ligation transition states are suitable for information translation using this artificial molecular machine. The peptide-bond-forming catalyst region can be removed from the transcribed peptide by peptidases, artificial and biomachines working in concert to generate a product that cannot be made by either machine alone.

摘要

我们报告了一种三障碍、轮烷基、人工分子机器的合成和操作，该机器能够进行序列特异性β-同型（β）肽的合成。该机器利用非蛋白质β-氨基酸，一类核糖体通常不接受的氨基酸，特别是连续使用。通过天然化学连接（NCL）成功操作该机器证明，即使是具有挑战性的 15 元和 19 元连接过渡态，也适合使用这种人工分子机器进行信息翻译。可以通过肽酶从转录肽中去除肽键形成催化剂区域，人工和生物机器协同工作以生成一种不能由任何一种机器单独产生的产物。

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基于轮烷的分子机器的序列特异性β-肽合成。

Sequence-Specific β-Peptide Synthesis by a Rotaxane-Based Molecular Machine.

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