鱼类抗冻蛋白在鳞鱼中的起源是通过一个重复的看家基因内的框架转换实现的。

Laurie A. Graham, Peter L. Davies
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引用次数: 0

摘要

抗冻蛋白(AFPs)存在于多种海洋冷水鱼类体内,它们通过与新生冰晶结合来防止冻结。它们的多样性(I、II、III型和抗冻糖蛋白)及其在分类学上的分散分布暗示了其复杂的进化历史。特别是,I型抗冻糖蛋白似乎是为了应对约3400万年前开始的晚新生代冰河时期而出现的,是由缺乏这种抗冻糖蛋白的品系分化出来的四个不同的鱼类群体汇聚而成的。鳞鱼富含丙氨酸的α-螺旋 I 型 AFP 的祖先现已被确认为 lunapark,它是内质网的一种整体膜蛋白。在基因复制并丢失了 15 个外显子中除 3 个以外的所有外显子之后,编码富含谷氨酸和谷氨酰胺片段的最后一个外显子通过移帧和突变组合转换成了富含丙氨酸的序列。随后的基因复制产生了许多异构体,分为四个不同的组。比目鱼 I 型 AFP 的起源则完全不同。在这里,原始抗病毒蛋白基因的一小段被扩增,其余的编码序列丢失,而基因结构则基本保留。比目鱼和鳞鱼中序列相同度高达 83% 的 I 型 AFPs 的独立起源表明,在蛋白质序列水平上,富含丙氨酸的单α螺旋与冰结合的选择趋同性很强。最近获得的这些 AFPs 使鳞栉能够占据冰海水壁龛,减少来自其他远东鱼类的竞争和捕食。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Fish antifreeze protein origin in sculpins by frameshifting within a duplicated housekeeping gene

Fish antifreeze protein origin in sculpins by frameshifting within a duplicated housekeeping gene

Antifreeze proteins (AFPs) are found in a variety of marine cold-water fishes where they prevent freezing by binding to nascent ice crystals. Their diversity (types I, II, III and antifreeze glycoproteins), as well as their scattered taxonomic distribution hint at their complex evolutionary history. In particular, type I AFPs appear to have arisen in response to the Late Cenozoic Ice Age that began ~ 34 million years ago via convergence in four different groups of fish that diverged from lineages lacking this AFP. The progenitor of the alanine-rich α-helical type I AFPs of sculpins has now been identified as lunapark, an integral membrane protein of the endoplasmic reticulum. Following gene duplication and loss of all but three of the 15 exons, the final exon, which encoded a glutamate- and glutamine-rich segment, was converted to an alanine-rich sequence by a combination of frameshifting and mutation. Subsequent gene duplications produced numerous isoforms falling into four distinct groups. The origin of the flounder type I AFP is quite different. Here, a small segment from the original antiviral protein gene was amplified and the rest of the coding sequence was lost, while the gene structure was largely retained. The independent origins of type I AFPs with up to 83% sequence identity in flounder and sculpin demonstrate strong convergent selection at the level of protein sequence for alanine-rich single alpha helices that bind to ice. Recent acquisition of these AFPs has allowed sculpins to occupy icy seawater niches with reduced competition and predation from other teleost species.

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