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Codon Usage Bias and Cluster Analysis of the <i>MMP-2</i> and <i>MMP-9</i> Genes in Seven Mammals.

Tanliang OuyangJin-Cheng ZhongZhixin ChaiJiabo WangMing ZhangZhijuan WuJinwei Xin
Published in: Genetics research (2022)
Matrix metalloproteinase (MMP)-2 and MMP-9 are a family of Zn<sup>2+</sup> and Ca<sup>2+</sup>-dependent gelatinase MMPs that regulate muscle development and disease treatment, and they are highly conservative during biological evolution. Despite increasing knowledge of <i>MMP</i> genes, their evolutionary mechanism for functional adaption remains unclear. Moreover, analysis of codon usage bias (CUB) is reliable to understand evolutionary associations. However, the distribution of CUB of <i>MMP-2</i> and <i>MMP-9</i> genes in mammals has not been revealed clearly. Multiple analytical software was used to study the genetic evolution, phylogeny, and codon usage pattern of these two genes in seven species of mammals. Results showed that the <i>MMP-2</i> and <i>MMP-9</i> genes have CUB. By comparing the content of synonymous codon bases amongst seven mammals, we found that <i>MMP-2</i> and <i>MMP-9</i> were low-expression genes in mammals with high codon conservation, and their third codon preferred the G/C base. RSCU analysis revealed that these two genes preferred codons encoding delicious amino acids. Analysing what factors influence CUB showed that the third base distributors of these two genes were C/A and C/T, and GC<sub>3S</sub> had a wide distribution range on the ENC plot reference curve under no selection or mutational pressure. Thus, mutational pressure is an important factor in CUB. This study revealed the usage characteristics of the <i>MMP-2</i> and <i>MMP-9</i> gene codons in different mammals and provided basic data for further study towards enhancing meat flavour, treating muscle disease, and optimizing codons.
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