奇异果甜蛋白的分子建模：结构分析与功能假说

Molecular modelling of miraculin: Structural analyses and functional hypotheses.

作者信息

Paladino Antonella, Costantini Susan, Colonna Giovanni, Facchiano Angelo M

机构信息

Laboratory of Bioinformatics and Computational Biology, National Council of Researches, Institute of Food Sciences ISA - CNR, via Roma 52A/C, 83100 Avellino, Italy.

出版信息

Biochem Biophys Res Commun. 2008 Feb 29;367(1):26-32. doi: 10.1016/j.bbrc.2007.12.102. Epub 2007 Dec 26.

DOI:10.1016/j.bbrc.2007.12.102

PMID:18158914

Abstract

Miraculin is a plant protein that displays the peculiar property of modifying taste by swiching sour into a sweet taste. Its monomer is flavourless at all pH as well as at high concentration; the dimer form elicits its taste-modifying activity at acidic pH; a tetrameric form is also reported as active. Two histidine residues, located in exposed regions, are the main responsible of miraculin activity, as demonstrated by mutagenesis studies. Since structural data of miraculin are not available, we have predicted its three-dimensional structure and simulated both its dimer and tetramer forms by comparative modelling and molecular docking techniques. Finally, molecular dynamics simulations at different pH conditions have indicated that at acidic pH the dimer assumes a widely open conformation, in agreement with the hypotheses coming from other studies.

摘要

miraculin是一种植物蛋白，具有将酸味转变为甜味从而改变味觉的奇特特性。其单体在所有pH值以及高浓度下均无味；二聚体形式在酸性pH值下引发其味觉修饰活性；也有报道称四聚体形式具有活性。诱变研究表明，位于暴露区域的两个组氨酸残基是 miraculin活性的主要原因。由于尚无 miraculin的结构数据，我们通过比较建模和分子对接技术预测了其三维结构，并模拟了其二聚体和四聚体形式。最后，在不同pH条件下的分子动力学模拟表明，在酸性pH值下，二聚体呈现出广泛开放的构象，这与其他研究得出的假设一致。

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奇异果甜蛋白的分子建模：结构分析与功能假说

Molecular modelling of miraculin: Structural analyses and functional hypotheses.

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