Journal
MOLECULAR GENETICS AND GENOMICS
Volume 274, Issue 1, Pages 40-50Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s00438-005-1156-3
Keywords
actinomycete; evolution; gene cluster; glycopeptide antibiotics; Streptomyces
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The bal, cep, dbv, sta and tcp gene clusters specify the biosynthesis of the glycopeptide antibiotics balhimycin, chloroeremomycin, A40926, A47934 and teicoplanin, respectively. These structurally related compounds share a similar mechanism of action in their inhibition of bacterial cell wall formation. Comparative sequence analysis was performed on the five gene clusters. Extensive conserved synteny was observed between the bal and cep clusters, which direct the synthesis of very similar compounds but originate from two different species of the genus Amycolatopsis. All other cluster pairs show a limited degree of conserved synteny, involving biosynthetically functional gene cassettes: these include those involved in the synthesis of the carbon backbone of two non-proteinogenic amino acids; in the linkage of amino acids 1-3 and 4-7 in the heptapeptide; and in the formation of the aromatic cross-links. Furthermore, these segments of conserved synteny are often preceded by conserved intergenic regions. Phylogenetic analysis of protein families shows several instances in which relatedness in the chemical structure of the glycopeptides is not reflected in the extent of the relationship of the corresponding polypeptides. Coherent branchings are observed for all polypeptides encoded by the syntenous gene cassettes. These results suggest that the acquisition of distinct, functional genetic elements has played a significant role in the evolution of glycopeptide gene clusters, giving them a mosaic structure. In addition, the synthesis of the structurally similar compounds A40926 and teicoplanin appears as the result of convergent evolution.
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