A given amino acid sequence can be encoded by a huge number of different nucleic acid sequences. These sequences, however, prove not to be equally useful. The choice of sequence can significantly impact the expression of an encoded protein. As regards the importance of protein-coding sequence and promising industrial and medicinal applications of Clostridium histolyticum collagenase, this study examined the codon optimization of the Col H gene so as to enhance collagenase expression in Escherichia coli (E. coli). The coding region of mature Col H gene was optimized according to the codon usage of E. coli using Gene Designer software (DNA 2.0). The results revealed that relative frequency of codon usage in Col H gene was adapted to the most preferred triplets in E. coli in such a way that codon usage bias in E. coli was enhanced after codon optimization. Similarly, the higher level of collagenase expression was more likely the result of substituting rare codons with optimal codons. As has been reported elsewhere, the findings from this study suggest that codon optimization provides a theoretical improvement in Col H gene expression in E. coli. In spite of that, experimental research is needed to confirm the improvement.
Inhibitors of Clostridium histolyticum colagenase
