Nuclear magnetic resonance of protamines. A 13C relaxation study of the three main fractions of clupeine.

L. Ferrara, R. Napolitano, L. Paolillo, S. Wurzburger, S. Andini, C. Toniolo, G. Bonora
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引用次数: 5

Abstract

The three main fractions of clupeine, the protamine extracted from herring sperm, have been investigated by 13C nuclear magnetic resonance techniques. The dynamic behaviour, examined through the evaluation of the spin lattice relaxation times (T1) of individual carbon resonances assigned to both backbone and side chains, reveals interesting features. The relaxation times of backbone alpha-carbons, interpreted on the basis of an axially symmetric ellipsoid, point to the clupeine fractions as being essentially extended in aqueous solution. These times remain constant along the polypeptide chain and are of the order of 0.16 +/- 0.02 s. Conversely, the side chains show different flexibilities in the presence of monophosphate counterions, thus demonstrating a diverging behaviour which may be biologically relevant. In particular, the side-chain flexibilities of fraction YI decrease, while those of fractions Z and YII are either constant or increase. Comparison of these data with the viscosity measurements helps in explaining the viscosity changes observed in the presence of phosphate.
蛋白的核磁共振。克鲁嘌呤三个主要组分的13C弛豫研究。
用13C核磁共振技术研究了从鲱鱼精子中提取的鱼精蛋白——鱼精氨酸的三个主要组分。通过评估分配给主链和侧链的单个碳共振的自旋晶格弛豫时间(T1)来检查动态行为,揭示了有趣的特征。在轴对称椭球的基础上,对主链α -碳的弛豫时间进行了解释,指出在水溶液中,聚吡啶馏分本质上是扩展的。这些时间沿多肽链保持恒定,约为0.16 +/- 0.02秒。相反,侧链在单磷酸反离子的存在下表现出不同的柔韧性,从而表现出可能具有生物学相关性的分化行为。其中,YI组分侧链柔度降低,而Z和YII组分侧链柔度保持不变或增加。这些数据与粘度测量值的比较有助于解释在磷酸盐存在下观察到的粘度变化。
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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