Hiroshi Akashi scite author profile

Comparative analysis of multiple genomes in a phylogenetic framework dramatically improves the precision and sensitivity of evolutionary inference, producing more robust results than single-genome analyses can provide. The genomes of 12 Drosophila species, ten of which are presented here for the first time (sechellia, simulans, yakuba, erecta, ananassae, persimilis, willistoni, mojavensis, virilis and grimshawi), illustrate how rates and patterns of sequence divergence across taxa can illuminate evolutionary processes on a genomic scale. These genome sequences augment the formidable genetic tools that have made Drosophila melanogaster a pre-eminent model for animal genetics, and will further catalyse fundamental research on mechanisms of development, cell biology, genetics, disease, neurobiology, behaviour, physiology and evolution. Despite remarkable similarities among these Drosophila species, we identified many putatively non-neutral changes in protein-coding genes, non-coding RNA genes, and cis-regulatory regions. These may prove to underlie differences in the ecology and behaviour of these diverse species.

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Metabolic efficiency and amino acid composition in the proteomes of Escherichia coli and Bacillus subtilis

Akashi

Gojobori²

2002

Proc. Natl. Acad. Sci. U.S.A.

616

605

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Biosynthesis of anEven if a substituted amino acid were truly neutral in a functional sense, it is highly unlikely that factors involved in the synthesis of the protein would render the substitution neutral in the broader sense of the organism's integrated functioning. The substituted amino acid must be present within the cell in equivalent quantity compared with the original amino acid and, indeed, its synthesis or derivation from other molecules and transport into the cell require an equivalent amount of energy output.R. C. Richmond (1)

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Translational selection and molecular evolution

Akashi

Eyre‐Walker

1998

Current Opinion in Genetics & Development

292

291

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Gene expression and molecular evolution

Akashi

2001

Current Opinion in Genetics & Development

305

236

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Mitochondrial–Nuclear Interactions and Accelerated Compensatory Evolution: Evidence from the Primate Cytochrome c Oxidase Complex

2011

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Accelerated rates of mitochondrial protein evolution have been proposed to reflect Darwinian coadaptation for efficient energy production for mammalian flight and brain activity. However, several features of mammalian mtDNA (absence of recombination, small effective population size, and high mutation rate) promote genome degradation through the accumulation of weakly deleterious mutations. Here, we present evidence for "compensatory" adaptive substitutions in nuclear DNA- (nDNA) encoded mitochondrial proteins to prevent fitness decline in primate mitochondrial protein complexes. We show that high mutation rate and small effective population size, key features of primate mitochondrial genomes, can accelerate compensatory adaptive evolution in nDNA-encoded genes. We combine phylogenetic information and the 3D structure of the cytochrome c oxidase (COX) complex to test for accelerated compensatory changes among interacting sites. Physical interactions among mtDNA- and nDNA-encoded components are critical in COX evolution; amino acids in close physical proximity in the 3D structure show a strong tendency for correlated evolution among lineages. Only nuclear-encoded components of COX show evidence for positive selection and adaptive nDNA-encoded changes tend to follow mtDNA-encoded amino acid changes at nearby sites in the 3D structure. This bias in the temporal order of substitutions supports compensatory weak selection as a major factor in accelerated primate COX evolution.

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Hiroshi Akashi

Evolution of genes and genomes on the Drosophila phylogeny

Metabolic efficiency and amino acid composition in the proteomes of Escherichia coli and Bacillus subtilis

Translational selection and molecular evolution

Gene expression and molecular evolution

Mitochondrial–Nuclear Interactions and Accelerated Compensatory Evolution: Evidence from the Primate Cytochrome c Oxidase Complex

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