酵母糖转运蛋白的进化与功能多样化。

IF 5.6 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Essays in biochemistry Pub Date : 2023-09-13 DOI:10.1042/EBC20220233
Lorena Donzella, Maria João Sousa, John P Morrissey
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摘要

虽然单糖(如单糖和双糖)是大多数酵母的典型碳源,但一个物种是否能在特定的糖上生长,通常取决于是否存在合适的转运体以使其能够被吸收。在酵母中介导糖进口的最常见的转运蛋白属于主要促进剂超家族(MFS)。其中一些蛋白质,例如酿酒酵母Hxt蛋白质已经被广泛研究,但关于其他许多蛋白质的详细信息却很少。在某种程度上,这是因为有许多MFS转运蛋白谱系要么在模型S. cerevisiae中缺失,要么在模型S. cerevisiae中表现不佳,而模型S. cerevisiae实际上具有相当有限的底物范围。重要的是解决这一知识差距,以更好地了解酵母的进化,并利用糖转运蛋白开发或改造酵母用于生物技术应用。本文研究了代表性芽殖酵母(Saccharomycotina)中MFS蛋白的全部曲目。从10个完整基因组中检索到的139个假定的糖转运蛋白的综合分析为该家族的多样性和进化提供了新的线索。使用系统发育透镜,很明显,蛋白质经常被错误分配假定的功能,现在可以纠正。我们还经常看到,特定基因的扩增模式反映了不同酵母中特定糖(和相关分子)运输的不同重要性,这一知识也为选择或设计量身定制的转运体提供了改进的资源。
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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Evolution and functional diversification of yeast sugar transporters.

While simple sugars such as monosaccharides and disaccharide are the typical carbon source for most yeasts, whether a species can grow on a particular sugar is generally a consequence of presence or absence of a suitable transporter to enable its uptake. The most common transporters that mediate sugar import in yeasts belong to the major facilitator superfamily (MFS). Some of these, for example the Saccharomyces cerevisiae Hxt proteins have been extensively studied, but detailed information on many others is sparce. In part, this is because there are many lineages of MFS transporters that are either absent from, or poorly represented in, the model S. cerevisiae, which actually has quite a restricted substrate range. It is important to address this knowledge gap to gain better understanding of the evolution of yeasts and to take advantage of sugar transporters to exploit or engineer yeasts for biotechnological applications. This article examines the full repertoire of MFS proteins in representative budding yeasts (Saccharomycotina). A comprehensive analysis of 139 putative sugar transporters retrieved from 10 complete genomes sheds new light on the diversity and evolution of this family. Using the phylogenetic lens, it is apparent that proteins have often been misassigned putative functions and this can now be corrected. It is also often seen that patterns of expansion of particular genes reflects the differential importance of transport of specific sugars (and related molecules) in different yeasts, and this knowledge also provides an improved resource for the selection or design of tailored transporters.

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来源期刊
Essays in biochemistry
Essays in biochemistry 生物-生化与分子生物学
CiteScore
10.50
自引率
0.00%
发文量
105
审稿时长
>12 weeks
期刊介绍: Essays in Biochemistry publishes short, digestible reviews from experts highlighting recent key topics in biochemistry and the molecular biosciences. Written to be accessible for those not yet immersed in the subject, each article is an up-to-date, self-contained summary of the topic. Bridging the gap between the latest research and established textbooks, Essays in Biochemistry will tell you what you need to know to begin exploring the field, as each article includes the top take-home messages as summary points. Each issue of the journal is guest edited by a key opinion leader in the area, and whether you are continuing your studies or moving into a new research area, the Journal gives a complete picture in one place. Essays in Biochemistry is proud to publish Understanding Biochemistry, an essential online resource for post-16 students, teachers and undergraduates. Providing up-to-date overviews of key concepts in biochemistry and the molecular biosciences, the Understanding Biochemistry issues of Essays in Biochemistry are published annually in October.
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