Abstract
As the mobile cassette carrier of the methicillin resistance gene mecA that is transported across staphylococci species, the evolution and origin of Staphylococcal Cassette Chromosome mec (SCCmec)-and in particular, the composition of mecA and SCCmec-have been extensively discussed in the scientific literature; however, information regarding its dissemination across geographical limits and evolution over decades remains limited. In addition, whole-genome sequencing-based macro-analysis was unable to provide sufficiently detailed evolutionary information on SCCmec. Herein, the cassette chromosome recombinase genes ccrAB/C, as essential components of SCCmec, were employed to explore the evolution of SCCmec. This work established the basic taxonomy of 33 staphylococci species. The CUB of mecA, ccrAB/C of 12 SCCmec types and core genome of 33 staphylococci species were subsequently compared; the phylogenetic relationship of ccrAB/C was observed via SCCmec typing on a temporal and geographical scale; and the duplicate appearance of ccrAB/C was illustrated by comparing SCCmec compositions. The results highlighted a deviation in the CUB of mecA and ccrAB/C, which evidenced their exogenous characteristics to staphylococci, and provided theological support for the phylogenetic analysis of ccrAB/C as representative of SCCmec. Importantly, the phylogenetic relationship of ccrAB/C did not exhibit centralization over time; instead, similarly to mecA, ccrAB/C with similar identities had close clades across decades and geographical limits and different SCCmec types, which enabled us to discriminate SCCmec based on the sequence identity of ccrAB/C. In addition, the duplicate appearance of ccrAB/C and fixed composition of the ccrAB/C complex among different strains were indicative of more complicated transmission mechanisms than targeting direct repeats of SCCmec.