使用冷离子光谱法和基于神经网络的构象搜索对二苯基丙氨酸低聚物进行了研究。

Oligomers of diphenylalanine examined using cold ion spectroscopy and neural network-based conformational search.

作者信息

Kopysov Vladimir, Yamaletdinov Ruslan, Boyarkin Oleg V

机构信息

SCI-SB-RB Group, ISIC, École Polytechnique Fédérale de Lausanne, 1015 Lausanne, Switzerland.

出版信息

Phys Chem Chem Phys. 2024 Nov 13;26(44):27964-27971. doi: 10.1039/d4cp03476g.

DOI:10.1039/d4cp03476g

PMID:39479924

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11525952/

Abstract

Diphenylalanine (Phe) is the primary building block of many self-assembling nanostructures that are important in biology and materials science. Understanding the detailed mechanism of their formation requires knowledge of the structural motives that the smallest oligomers attain at the very first steps of the process. Herein, we first employed high-resolution mass spectrometry to assign protonated Phe and its 2-13-unit oligomers formed in the gas phase from solution electrospray ionization and then used cold ion spectroscopy to record UV and IR spectra for the monomer, dimer and hexamer. UV spectroscopy suggests the likely lack of specific strong proton-π interactions in oligomers larger than octamers, implying their certain structural stabilization. IR spectroscopy and quantum chemical calculations, enhanced by neural network-based conformational search, jointly determined the lowest-energy structures of the Phe monomer and dimer.

摘要

二苯基丙氨酸（Phe）是许多自组装纳米结构的主要构建单元，这些纳米结构在生物学和材料科学中具有重要意义。要了解其形成的详细机制，需要知道在该过程的最初步骤中最小寡聚体所达到的结构基序。在此，我们首先使用高分辨率质谱对从溶液电喷雾电离在气相中形成的质子化Phe及其2 - 13单元寡聚体进行了归属，然后使用冷离子光谱记录单体、二聚体和六聚体的紫外和红外光谱。紫外光谱表明，大于八聚体的寡聚体可能缺乏特定的强质子 - π相互作用，这意味着它们具有一定的结构稳定性。红外光谱和量子化学计算，通过基于神经网络的构象搜索得到增强，共同确定了Phe单体和二聚体的最低能量结构。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f966/11525952/09ef565e2d8b/d4cp03476g-f1.jpg

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使用冷离子光谱法和基于神经网络的构象搜索对二苯基丙氨酸低聚物进行了研究。

Oligomers of diphenylalanine examined using cold ion spectroscopy and neural network-based conformational search.

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