Further diversity in the origins of fish antifreeze proteins

The FEBS journal Pub Date : 2024-08-29 DOI:10.1111/febs.17260
Kathryn Vanya Ewart
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Abstract

Shifts in environmental conditions can impose strong selection for adaptive traits. During the Cenozoic era, as the oceans cooled, many marine teleost fish species were at risk of freezing. This led to the independent emergence of distinct ice-binding antifreeze proteins (AFPs). The report in this issue by Graham and Davies reveals the development of AFP genes in shorthorn and longhorn sculpin from a copy of the lunapark gene. The predicted sculpin AFP sequences are unrelated to that of lunapark; the coding sequences for the AFPs appear to have arisen from small portions of the lunapark gene by codon frameshifting along with a series of mutations.

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鱼类抗冻蛋白起源的进一步多样性。
环境条件的变化会对适应性特征产生强烈的选择作用。在新生代,随着海洋变冷,许多海洋远洋鱼类物种面临被冰冻的危险。这导致了独特的冰结合抗冻蛋白(AFPs)的独立出现。本期由 Graham 和 Davies 撰写的报告揭示了短角鳞鱼和长角鳞鱼的 AFP 基因是从 lunapark 基因的一个拷贝发展而来的。预测的鳞鱼 AFP 序列与 lunapark 的序列无关;AFP 的编码序列似乎是由 lunapark 基因的一小部分通过密码子框架转换和一系列突变产生的。
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The FEBS journal
The FEBS journal
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