通过微秒级时间分辨CIDNP得到的水溶液中色氨酰阳离子自由基的1H和13C超精细偶合常数。

1H and 13C hyperfine coupling constants of the tryptophanyl cation radical in aqueous solution from microsecond time-resolved CIDNP.

作者信息

Kiryutin Alexey S, Morozova Olga B, Kuhn Lars T, Yurkovskaya Alexandra V, Hore P J

机构信息

International Tomography Center of SB RAS, Institutskaya 3a, 630090 Novosibirsk, Russia.

出版信息

J Phys Chem B. 2007 Sep 27;111(38):11221-7. doi: 10.1021/jp073385h. Epub 2007 Sep 1.

DOI:10.1021/jp073385h

PMID:17764168

Abstract

Relative values of the 1H and 13C isotropic hyperfine couplings in the cationic oxidized tryptophan radical TrpH*+ in aqueous solution are determined. The data are obtained from the photo-CIDNP (chemically induced dynamic nuclear polarization) enhancements observed in the microsecond time-resolved NMR spectra of the diamagnetic products of photochemical reactions in which TrpH*+ is a transient intermediate. The method is validated using the tyrosyl neutral radical Tyr*, whose 1H and 13C hyperfine couplings have previously been determined by electron paramagnetic resonance spectroscopy. Good agreement is found with hyperfine coupling constants for TrpH*+ calculated using density functional theory methods but only if water molecules are explicitly included in the calculation.

摘要

测定了水溶液中阳离子氧化色氨酸自由基TrpH*+ 中1H和13C各向同性超精细耦合的相对值。数据来自于光化学反应抗磁性产物的微秒时间分辨NMR光谱中观察到的光CIDNP（化学诱导动态核极化）增强，其中TrpH*+ 是瞬态中间体。该方法通过酪氨酰中性自由基Tyr进行验证，其1H和13C超精细耦合先前已通过电子顺磁共振光谱法测定。发现与使用密度泛函理论方法计算的TrpH+ 的超精细耦合常数有良好的一致性，但前提是计算中明确包含水分子。

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通过微秒级时间分辨CIDNP得到的水溶液中色氨酰阳离子自由基的1H和13C超精细偶合常数。

1H and 13C hyperfine coupling constants of the tryptophanyl cation radical in aqueous solution from microsecond time-resolved CIDNP.

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