Given the structure of the genetic code, synonymous codons differ in their capacity to minimize the effects of errors due to mutation or mistranslation. I suggest that this may lead, in protein-coding genes, to a preference for codons that minimize the impact of errors at the protein level. I develop a theoretical measure of error minimization for each codon, based on amino acid similarity. This measure is used to calculate the degree of error minimization for 82 genes of Drosophila melanogaster and 432 rodent genes and to study its relationship with CG content, the degree of codon usage bias, and the rate of nucleotide substitution. I show that (i) Drosophila and rodent genes tend to prefer codons that minimize errors; (ii) this cannot be ...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
Gene codon optimization may be impaired by the misinterpretation of frequency and optimality of codo...
Degeneracy in the genetic code implies that different codons can encode the same amino acid. Usage p...
Studies on the origin of the genetic code compare measures of the degree of error minimization of th...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
BackgroundDo species use codons that reduce the impact of errors in translation or replication? The ...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
There are two main forces that affect usage of synonymous codons: directional mutational pressure an...
The genetic code is redundant, with most amino acids coded by multiple codons. In many organisms, co...
Codon bias, the usage patterns of synonymous codons for encoding a protein sequence as nucleotides, ...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The genetic code in mRNA is redundant, with 61 sense codons translated into 20 different amino acids...
Organisms construct proteins out of individual amino acids using instructions encoded in the nucleot...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
Abstract. In many unicellular organisms, inverte-brates, and plants, synonymous codon usage biases r...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
Gene codon optimization may be impaired by the misinterpretation of frequency and optimality of codo...
Degeneracy in the genetic code implies that different codons can encode the same amino acid. Usage p...
Studies on the origin of the genetic code compare measures of the degree of error minimization of th...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
BackgroundDo species use codons that reduce the impact of errors in translation or replication? The ...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
There are two main forces that affect usage of synonymous codons: directional mutational pressure an...
The genetic code is redundant, with most amino acids coded by multiple codons. In many organisms, co...
Codon bias, the usage patterns of synonymous codons for encoding a protein sequence as nucleotides, ...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The genetic code in mRNA is redundant, with 61 sense codons translated into 20 different amino acids...
Organisms construct proteins out of individual amino acids using instructions encoded in the nucleot...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
Abstract. In many unicellular organisms, inverte-brates, and plants, synonymous codon usage biases r...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
Gene codon optimization may be impaired by the misinterpretation of frequency and optimality of codo...
Degeneracy in the genetic code implies that different codons can encode the same amino acid. Usage p...