Genomic sequencing projects are an abundant source of information for biological studies ranging from the molecular to the ecological in scale; however, much of the information present may yet be hidden from casual analysis. One such information domain, trends in codon usage, can provide a wealth of information about an organism\u27s genes and their expression. Degeneracy in the genetic code allows more than one triplet codon to code for the same amino acid, and usage of these codons is often biased such that one or more of these synonymous codons is preferred. Detection of this bias is an important tool in the analysis of genomic data, particularly as a predictor of gene expressivity. Methods for identifying codon usage bias in genomic dat...
ABSTRACT Prokaryote genomes exhibit a wide range of GC contents and codon usages, both resulting fro...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
Genomic sequencing projects are an abundant source of information for biological studies ranging fro...
While genomic sequencing projects are an abundant source of information for biological studies rangi...
While genomic sequencing projects have proved an abundant source of information for biological studi...
Background: In spite of extensive research on the effect of mutation and selection on codon usage, a...
Unequal use of synonymous codons has been found in several prokaryotic and eukaryotic genomes. This ...
In spite of extensive research on the effect of mutation and selection on codon usage, a general mod...
Organisms construct proteins out of individual amino acids using instructions encoded in the nucleot...
International audienceBecause of the degeneracy of the genetic code, multiple codons are translated ...
International audienceWe propose a simple algorithm to detect dominating synonymous codon usage bias...
Abstract Background Genetic mutation, selective pressure for translational efficiency and accuracy, ...
The study of codon usage bias is an important research area that contributes to our understanding of...
<p>In GC-rich genomes 3<sup>rd</sup> codon positions are even more GC-rich than intergenic regions, ...
ABSTRACT Prokaryote genomes exhibit a wide range of GC contents and codon usages, both resulting fro...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...
Genomic sequencing projects are an abundant source of information for biological studies ranging fro...
While genomic sequencing projects are an abundant source of information for biological studies rangi...
While genomic sequencing projects have proved an abundant source of information for biological studi...
Background: In spite of extensive research on the effect of mutation and selection on codon usage, a...
Unequal use of synonymous codons has been found in several prokaryotic and eukaryotic genomes. This ...
In spite of extensive research on the effect of mutation and selection on codon usage, a general mod...
Organisms construct proteins out of individual amino acids using instructions encoded in the nucleot...
International audienceBecause of the degeneracy of the genetic code, multiple codons are translated ...
International audienceWe propose a simple algorithm to detect dominating synonymous codon usage bias...
Abstract Background Genetic mutation, selective pressure for translational efficiency and accuracy, ...
The study of codon usage bias is an important research area that contributes to our understanding of...
<p>In GC-rich genomes 3<sup>rd</sup> codon positions are even more GC-rich than intergenic regions, ...
ABSTRACT Prokaryote genomes exhibit a wide range of GC contents and codon usages, both resulting fro...
The genetic code is degenerate-most amino acids can be encoded by from two to as many as six differe...
The genetic codes have degeneracy; that is, most amino acids (18 out of 20 in the universal genetic ...