Many biological systems are typically examined from the point of view of adaptation to certain conditions or requirements. One such system is the standard genetic code (SGC), which generally minimizes the cost of amino acid replacements resulting from mutations or mistranslations. However, no full consensus has been reached on the factors that caused the evolution of this feature. One of the hypotheses suggests that code optimality was directly selected as an advantage to preserve information about encoded proteins. An important feature that should be considered when studying the SGC is the different roles of the three codon positions. Therefore, we investigated the robustness of this code regarding the cost of amino acid replacements resul...
Abstract Background The standard genetic code is a recipe for assigning unambiguously 21 labels, i.e...
The average e¡ect of errors acting on a genetic code (the change in amino-acid meaning resulting fro...
<p>The <i>GD</i> measure calculated under four models of the genetic code (DEG, BLO, NUM, and GEN) w...
Abstract Background The standard genetic code (SGC) is a unique set of rules which assign amino acid...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The genetic code has a high level of error robustness. Using values of hydrophobicity scales as a pr...
The genetic code has a high level of error robustness. Using values of hydrophobicity scales as a pr...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
International audienceThe standard genetic code (SGC) describes how 64 trinucleotides (codons) encod...
Abstract Background The standard genetic code is redundant and has a highly non-random structure. Co...
In this work, computational tools are used to investigate three issues in evolutionary biochemistry....
Abstract The genetic code has a high level of error robustness. Using values of hydrophobicity scale...
<p><b>Copyright information:</b></p><p>Taken from "Evolution of the genetic code: partial optimizati...
Abstract Background The standard genetic code is a recipe for assigning unambiguously 21 labels, i.e...
The average e¡ect of errors acting on a genetic code (the change in amino-acid meaning resulting fro...
<p>The <i>GD</i> measure calculated under four models of the genetic code (DEG, BLO, NUM, and GEN) w...
Abstract Background The standard genetic code (SGC) is a unique set of rules which assign amino acid...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The genetic code has a high level of error robustness. Using values of hydrophobicity scales as a pr...
The genetic code has a high level of error robustness. Using values of hydrophobicity scales as a pr...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
International audienceThe standard genetic code (SGC) describes how 64 trinucleotides (codons) encod...
Abstract Background The standard genetic code is redundant and has a highly non-random structure. Co...
In this work, computational tools are used to investigate three issues in evolutionary biochemistry....
Abstract The genetic code has a high level of error robustness. Using values of hydrophobicity scale...
<p><b>Copyright information:</b></p><p>Taken from "Evolution of the genetic code: partial optimizati...
Abstract Background The standard genetic code is a recipe for assigning unambiguously 21 labels, i.e...
The average e¡ect of errors acting on a genetic code (the change in amino-acid meaning resulting fro...
<p>The <i>GD</i> measure calculated under four models of the genetic code (DEG, BLO, NUM, and GEN) w...