Protein-coding genes evolved codon usage bias due to the combined but uneven effects of adaptive and nonadaptive influences. Studies in model fungi agree on codon usage bias as an adaptation for fine-tuning gene expression levels; however, such knowledge is lacking for most other fungi. Our comparative genomics analysis of over 450 species supports codon usage and transfer RNAs (tRNAs) as coadapted for translation speed and this is most likely a realization of convergent evolution. Rather than drift, phylogenetic reconstruction inferred adaptive radiation as the best explanation for the variation of interspecific codon usage bias. Although the phylogenetic signals for individual codon and tRNAs frequencies are lower than expected by genetic...
Background: Different proteins are required in widely different quantities to build a living cell. I...
International audienceFungi are ideal model organisms for dissecting the genomic bases of adaptive d...
Codons that code for the same amino acid are often used with unequal frequencies. This phenomenon is...
Protein-coding genes evolved codon usage bias due to the combined but uneven effects of adaptive and...
Many organisms exhibit biased codon usage in their genome, including the fungal model organism Neuro...
Abstract Background The evolutionary forces that determine the arrangement of synonymous codons with...
Reverse ecology is the inference of ecological information from patterns of genomic variation. One r...
The prokaryotic genomes—the current heritage of the most ancient life forms on earth—are comprised o...
Codon bias in the genome of an organism influences its phenome by changing the speed and efficiency ...
Codon bias in the genome of an organism influences its phenome by changing the speed and efficiency ...
Variation in synonymous codon usage is abundant across multiple levels of organization: between codo...
BACKGROUND: The evolutionary forces that determine the arrangement of synonymous codons within open ...
Analysis of codon usage data has both practical and theoretical applications in understanding the ba...
Abstract Background Codon usage bias (CUB) is an important evolutionary feature in genomes that has ...
The emergence of life on Earth developed a system of DNA containing the information inherited in the...
Background: Different proteins are required in widely different quantities to build a living cell. I...
International audienceFungi are ideal model organisms for dissecting the genomic bases of adaptive d...
Codons that code for the same amino acid are often used with unequal frequencies. This phenomenon is...
Protein-coding genes evolved codon usage bias due to the combined but uneven effects of adaptive and...
Many organisms exhibit biased codon usage in their genome, including the fungal model organism Neuro...
Abstract Background The evolutionary forces that determine the arrangement of synonymous codons with...
Reverse ecology is the inference of ecological information from patterns of genomic variation. One r...
The prokaryotic genomes—the current heritage of the most ancient life forms on earth—are comprised o...
Codon bias in the genome of an organism influences its phenome by changing the speed and efficiency ...
Codon bias in the genome of an organism influences its phenome by changing the speed and efficiency ...
Variation in synonymous codon usage is abundant across multiple levels of organization: between codo...
BACKGROUND: The evolutionary forces that determine the arrangement of synonymous codons within open ...
Analysis of codon usage data has both practical and theoretical applications in understanding the ba...
Abstract Background Codon usage bias (CUB) is an important evolutionary feature in genomes that has ...
The emergence of life on Earth developed a system of DNA containing the information inherited in the...
Background: Different proteins are required in widely different quantities to build a living cell. I...
International audienceFungi are ideal model organisms for dissecting the genomic bases of adaptive d...
Codons that code for the same amino acid are often used with unequal frequencies. This phenomenon is...