Add to ORKGStudies on the origin of the genetic code compare measures of the degree of error minimization of the standard code with measures produced by random variant codes but do not take into account codon usage, which was probably highly biased during the origin of the code. Codon usage bias could play an important role in the minimization of the chemical distances between amino acids because the importance of errors depends also on the frequency of the different codons. Here I show that when codon usage is taken into account, the degree of error minimization of the standard code may be dramatically reduced, and shifting to alternative codes often increases the degree of error minimization. This is especially true with a high CG content, which was...
The genetic code encodes 20 amino acids using 64 nucleotide triplets or codons. 18 of the 20 amino a...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
Given the structure of the genetic code, synonymous codons differ in their capacity to minimize the ...
BackgroundDo species use codons that reduce the impact of errors in translation or replication? The ...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
The average e¡ect of errors acting on a genetic code (the change in amino-acid meaning resulting fro...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The genetic code is redundant, with most amino acids coded by multiple codons. In many organisms, co...
Abstract Background The standard genetic code is redundant and has a highly non-random structure. Co...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The genetic code encodes the same amino acid with multiple codon choices, but in a biased fashion. T...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
The genetic code encodes 20 amino acids using 64 nucleotide triplets or codons. 18 of the 20 amino a...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
Given the structure of the genetic code, synonymous codons differ in their capacity to minimize the ...
BackgroundDo species use codons that reduce the impact of errors in translation or replication? The ...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
The average e¡ect of errors acting on a genetic code (the change in amino-acid meaning resulting fro...
Synonymous codon usage can be influenced by mutations and/or selection, e.g., for speed of protein t...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The genetic code is redundant, with most amino acids coded by multiple codons. In many organisms, co...
Abstract Background The standard genetic code is redundant and has a highly non-random structure. Co...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The genetic code encodes the same amino acid with multiple codon choices, but in a biased fashion. T...
Frequencies of synonymous codons are typically non-uniform, despite the fact that such codons corres...
The genetic code encodes 20 amino acids using 64 nucleotide triplets or codons. 18 of the 20 amino a...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...