Additive and epistatic effects influence spectral tuning in molluscan retinochrome opsin.

G. D. Smedley, Kyle E. McElroy, K. Feller, J. Serb
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引用次数: 2

Abstract

The relationship between genotype and phenotype is nontrivial due to often complex molecular pathways that make it difficult to unambiguously relate phenotypes to specific genotypes. Photopigments, an opsin apoprotein bound to a light-absorbing chromophore, present an opportunity to directly relate the amino acid sequence to an absorbance peak phenotype (λmax). We examined this relationship by conducting a series of site-directed mutagenesis experiments of retinochrome, a non-visual opsin, from two closely related species: the common bay scallop, Argopecten irradians, and the king scallop, Pecten maximus. Using protein folding models, we identified three amino acid sites of likely functional importance and expressed mutated retinochrome proteins in vitro. Our results show that the mutation of amino acids lining the opsin binding pocket are responsible for fine spectral tuning, or small changes in the λmax of these light sensitive proteins Mutations resulted in a blue or red shift as predicted, but with dissimilar magnitudes. Shifts ranged from a 16 nm blue shift to a 12 nm red shift from the wild-type λmax. These mutations do not show an additive effect, but rather suggests the presence of epistatic interactions. This work highlights the importance of binding pocket shape in the evolution of spectral tuning and builds on our ability to relate genotypic changes to phenotypes in an emerging model for opsin functional analysis.
加性和上位性效应影响软体动物视色素视蛋白的光谱调谐。
基因型和表现型之间的关系是不平凡的,因为往往复杂的分子途径,使得它很难明确地将表现型与特定的基因型联系起来。光色素是一种与光吸收发色团结合的视蛋白载脂蛋白,它提供了将氨基酸序列与吸收峰表型(λmax)直接联系起来的机会。我们通过对两个密切相关的物种:普通海湾扇贝(Argopecten irradians)和国王扇贝(Pecten maximus)的视黄色素(一种非视觉视蛋白)进行一系列定点诱变实验来研究这种关系。利用蛋白质折叠模型,我们确定了三个可能具有重要功能的氨基酸位点,并在体外表达了突变的视黄色素蛋白。我们的研究结果表明,排列在视蛋白结合袋内的氨基酸突变负责精细的光谱调谐,或者这些光敏蛋白的λmax的微小变化导致了预测的蓝移或红移,但幅度不同。偏移范围从野生型λmax的16 nm蓝移到12 nm红移。这些突变没有表现出加性效应,而是表明存在上位性相互作用。这项工作强调了结合口袋形状在光谱调谐进化中的重要性,并建立在我们在新兴的视蛋白功能分析模型中将基因型变化与表型联系起来的能力之上。
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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