Abstract
Synonymous codon usage bias is a universal characteristic of genomes across various organisms. Autophagy-related gene 13 (atg13) is one essential gene for autophagy initiation, yet the evolutionary trends of the atg13 gene at the usages of nucleotide and synonymous codon remains unexplored. According to phylogenetic analyses for the atg13 gene of 226 eukaryotic organisms at the nucleotide and amino acid levels, it is clear that their nucleotide usages exhibit more genetic information than their amino acid usages. Specifically, the overall nucleotide usage bias quantified by information entropy reflected that the usage biases at the first and second codon positions were stronger than those at the third position of the atg13 genes. Furthermore, the bias level of nucleotide ‘G’ usage is highest, while that of nucleotide ‘C’ usage is lowest in the atg13 genes. On top of that, genetic features represented by synonymous codon usage exhibits a species-specific pattern on the evolution of the atg13 genes to some extent. Interestingly, the codon usages of atg13 genes in the ancestor animals (Latimeria chalumnae, Petromyzon marinus, and Rhinatrema bivittatum) are strongly influenced by mutation pressure from nucleotide composition constraint. However, the distributions of nucleotide composition at different codon positions in the atg13 gene display that natural selection still dominates atg13 codon usages during organisms’ evolution.
Highlights
Autophagy is an intracellular protein-degradation process that is conserved from yeast to mammalian cells
Some exhibit strongly stable usage patterns, including TTT for Phe (Vs=0.158), GTG for Val (Vs=0.196), TCT for Ser (Vs=0.188), CCT for Pro (Vs=0.180), CAG for Gln (Vs=0.159), AAG for Lys (Vs=0.183), GAC for Asp (Vs=0.162), and GAG for Glu (Vs=0.197). These results prove the existence of the strong selective forces acting on synonymous codon usage patterns in the atg13 gene with the specific species
According to genetic characterizations reflected by synonymous codon usages (Table S2) and the overall codon usage bias (Figure 5), we investigated the genetic diversity illustrated by 59 synonymous codon usages for these species in this study
Summary
Autophagy (or macroautophagy) is an intracellular protein-degradation process that is conserved from yeast to mammalian cells. While it has been believed that ATG proteins are mainly involved in autophagy, some of them were identified to display non-autophagic functions, such as antiviral responses, cell proliferation, and development assistance (Kroemer and Levine, 2008; Radoshevich et al, 2010; Fan et al, 2017; Ma et al, 2020). Such diverse dynamics of the ATG proteins attract deeper investigations at a genetic level
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