Abstract. Genes are often classified into biologically related groups so that inferences on their functions can be made. This paper demonstrates that the di-codon usage is a useful feature for gene classification and gives better classification accuracy than the codon usage.
Genes are often classified into biologically related groups so that inferences on their functions can be made. This paper demonstrates that the di-codon ...
Classification of genes into biologically related groups facilitates inference of their functions. Codon usage bias has been described previously as a ...
Abstract. Classification of genes into biologically related groups facil- itates inference of their functions. Codon usage bias has been described.
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Classification of genes into biologically related groups facilitates inference of their functions. Codon usage bias has been described previously as a ...
Jun 12, 2023 · AbstractMotivation. Codon usage preference patterns have been associated with modulation of translation efficiency, protein folding, ...
PDF | Genes are often classified into biologically related groups so that inferences on their functions can be made. This paper demonstrates that the.
Jan 13, 2021 · Codon usage bias, the preference for certain synonymous codons, is found in all genomes. Although synonymous mutations were previously ...
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In this paper, we demonstrate that di-codon usage can further improve classification of genes. By using both codon and di-codon features, we achieve near ...
Sep 2, 2017 · Due to the degeneracy of the genetic code, most amino acids can be encoded by multiple synonymous codons. Synonymous codons naturally occur ...