GC 偏倚导致冷水鱼类中的小氨基酸和蛋白质无规则卷曲增加。

GC bias lead to increased small amino acids and random coils of proteins in cold-water fishes.

机构信息

Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, Shanghai Ocean University, Ministry of Education, National Demonstration Center for Experimental Fisheries Science Education (Shanghai Ocean University), Shanghai, People's Republic of China.

Department of Genetics, University of Pennsylvania, Philadelphia, USA.

出版信息

BMC Genomics. 2018 May 2;19(1):315. doi: 10.1186/s12864-018-4684-z.

DOI:10.1186/s12864-018-4684-z

PMID:29720106

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5930961/

Abstract

BACKGROUND

Temperature adaptation of biological molecules is fundamental in evolutionary studies but remains unsolved. Fishes living in cold water are adapted to low temperatures through adaptive modification of their biological molecules, which enables their functioning in extreme cold. To study nucleotide and amino acid preference in cold-water fishes, we investigated the substitution asymmetry of codons and amino acids in protein-coding DNA sequences between cold-water fishes and tropical fishes., The former includes two Antarctic fishes, Dissostichus mawsoni (Antarctic toothfish), Gymnodraco acuticeps (Antarctic dragonfish), and two temperate fishes, Gadus morhua (Atlantic cod) and Gasterosteus aculeatus (stickleback), and the latter includes three tropical fishes, including Danio rerio (zebrafish), Oreochromis niloticus (Nile tilapia) and Xiphophorus maculatus (Platyfish).

RESULTS

Cold-water fishes showed preference for Guanines and cytosines (GCs) in both synonymous and nonsynonymous codon substitution when compared with tropical fishes. Amino acids coded by GC-rich codons are favored in the temperate fishes, while those coded by AT-rich codons are disfavored. Similar trends were discovered in Antarctic fishes but were statistically weaker. The preference of GC rich codons in nonsynonymous substitution tends to increase ratio of small amino acid in proteins, which was demonstrated by biased small amino acid substitutions in the cold-water species when compared with the tropical species, especially in the temperate species. Prediction and comparison of secondary structure of the proteomes showed that frequency of random coils are significantly larger in the cold-water fish proteomes than those of the tropical fishes.

CONCLUSIONS

Our results suggested that natural selection in cold temperature might favor biased GC content in the coding DNA sequences, which lead to increased frequency of small amino acids and consequently increased random coils in the proteomes of cold-water fishes.

摘要

背景

生物分子的温度适应是进化研究的基础，但仍未得到解决。生活在冷水中的鱼类通过对生物分子进行适应性修饰来适应低温，从而使其能够在极端寒冷的环境中发挥作用。为了研究冷水鱼类中的核苷酸和氨基酸偏好性，我们研究了冷水鱼类和热带鱼类之间蛋白质编码 DNA 序列中密码子和氨基酸的取代不对称性。前者包括两种南极鱼类，即 Dissostichus mawsoni（南极牙鱼）和 Gymnodraco acuticeps（南极龙鱼），以及两种温带鱼类，即 Gadus morhua（大西洋鳕鱼）和 Gasterosteus aculeatus（刺鱼），后者包括三种热带鱼类，包括 Danio rerio（斑马鱼）、Oreochromis niloticus（尼罗罗非鱼）和 Xiphophorus maculatus（棋盘鱼）。

结果

与热带鱼类相比，冷水鱼类在同义和非同义密码子替换中都表现出对鸟嘌呤和胞嘧啶（GCs）的偏好。富含 GC 的密码子编码的氨基酸在温带鱼类中受到青睐，而富含 AT 的密码子编码的氨基酸则不受青睐。在南极鱼类中也发现了类似的趋势，但统计学上较弱。非同义替换中富含 GC 的密码子的偏好往往会增加蛋白质中小氨基酸的比例，这在冷水物种与热带物种相比时表现为小氨基酸的偏性替换，尤其是在温带物种中。对蛋白质组二级结构的预测和比较表明，冷水鱼类蛋白质组中的无规卷曲频率明显大于热带鱼类。

结论

我们的研究结果表明，低温下的自然选择可能有利于编码 DNA 序列中 GC 含量的偏倚，这导致小氨基酸的频率增加，从而导致冷水鱼类蛋白质组中无规卷曲的频率增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7833/5930961/c658b308306e/12864_2018_4684_Fig1_HTML.jpg

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GC 偏倚导致冷水鱼类中的小氨基酸和蛋白质无规则卷曲增加。

GC bias lead to increased small amino acids and random coils of proteins in cold-water fishes.

机构信息

出版信息

BACKGROUND

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CONCLUSIONS

背景

结果

结论

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