Relaxation of selective constraints on avian mitochondrial DNA following the degeneration of flight ability

生物 线粒体DNA 遗传学 变性(医学) DNA 计算生物学 线粒体 细胞生物学 基因 病理 医学
作者
Yongyi Shen,Peng Shi,Yanbo Sun,Ya‐Ping Zhang
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:19 (10): 1760-1765 被引量:178
标识
DOI:10.1101/gr.093138.109
摘要

The evolution of flight is the most important feature of birds, and this ability has helped them become one of the most successful groups of vertebrates. However, some species have independently lost their ability to fly. The degeneration of flight ability is a long process, and some species remain transitional locomotive models. Most of the energy required for locomotion is supplied by mitochondria via oxidative phosphorylation. Thus, rapidly flying birds should require a more energy efficient metabolism than weakly flying or flightless species. Therefore, we speculated that evolutionary constraints acted on the mtDNA of birds with different locomotive abilities. To test this hypothesis, we compared 76 complete avian mitochondrial genomes. Weakly flying and flightless birds, compared to rapidly flying birds, accumulated more nonsynonymous nucleotide substitutions relative to synonymous substitutions. Even after controlling for mutation rate, this trend remained significant. This finding was further tested for its generality by examining 214 complete mammalian mitochondrial genomes. The same as birds, a negative correlation was also found for the K(a)/K(s) ratio and locomotive speed. Our results demonstrated that, in addition to the previously described role for effective population size, functional constraints due to locomotion play an important role in the evolution of mtDNA.
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