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二维红外光谱研究氰酰胺(NCN)作为生物分子动力学的光谱探针:揭开神秘峰的起源。

2D-IR studies of cyanamides (NCN) as spectroscopic reporters of dynamics in biomolecules: Uncovering the origin of mysterious peaks.

机构信息

Department of Chemistry, University of Nevada Reno, Reno, Nevada 89557, USA.

Department of Chemistry, Franklin and Marshall College, Lancaster, Pennsylvania 17604-3003, USA.

出版信息

J Chem Phys. 2020 Feb 21;152(7):074201. doi: 10.1063/1.5138654.

DOI:10.1063/1.5138654
PMID:32087671
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7028433/
Abstract

Cyanamides (NCN) have been shown to have a larger transition dipole strength than cyano-probes. In addition, they have similar structural characteristics and vibrational lifetimes to the azido-group, suggesting their utility as infrared (IR) spectroscopic reporters for structural dynamics in biomolecules. To access the efficacy of NCN as an IR probe to capture the changes in the local environment, several model systems were evaluated via 2D IR spectroscopy. Previous work by Cho [G. Lee, D. Kossowska, J. Lim, S. Kim, H. Han, K. Kwak, and M. Cho, J. Phys. Chem. B 122(14), 4035-4044 (2018)] showed that phenylalanine analogues containing NCN show strong anharmonic coupling that can complicate the interpretation of structural dynamics. However, when NCN is embedded in 5-membered ring scaffolds, as in N-cyanomaleimide and N-cyanosuccinimide, a unique band structure is observed in the 2D IR spectrum that is not predicted by simple anharmonic frequency calculations. Further investigation indicated that electron delocalization plays a role in the origins of the band structure. In particular, the origin of the lower frequency transitions is likely a result of direct interaction with the solvent.

摘要

氰酰胺(NCN)已被证明其跃迁偶极矩强度大于氰基探针。此外,它们具有与叠氮基团相似的结构特征和振动寿命,这表明它们可作为生物分子结构动力学的红外(IR)光谱报告者。为了评估 NCN 作为一种红外探针来捕获局部环境变化的效果,通过二维红外(2D IR)光谱评估了几个模型系统。Cho 等人的先前工作[G. Lee, D. Kossowska, J. Lim, S. Kim, H. Han, K. Kwak, and M. Cho, J. Phys. Chem. B 122(14), 4035-4044 (2018)]表明,含有 NCN 的苯丙氨酸类似物表现出强烈的非谐耦合,这可能会使结构动力学的解释变得复杂。然而,当 NCN 嵌入 5 元环支架中,如 N-氰基马来酰亚胺和 N-氰基琥珀酰亚胺时,在 2D IR 光谱中观察到独特的带结构,这无法通过简单的非谐频率计算来预测。进一步的研究表明,电子离域在带结构的起源中起作用。特别是,较低频率跃迁的起源可能是与溶剂直接相互作用的结果。

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