Clostridium perfringens is ubiquitous in the environment and the intestinal tracts of most mammals, but this organism also causes gas gangrene and enteritis in human and animal hosts. While expression of specific toxins correlates with specific disease in certain hosts, the other factors involved in commensalism and host pathogenesis have not been clearly identified. A multilocus sequence typing (MLST) scheme was developed for C. perfringens with the aim of grouping isolates with respect to disease presentation and/or host preference. Sequence data were obtained from one virulence and seven housekeeping genes for 132 C. perfringens isolates that comprised all five toxin types and were isolated from 10 host species. Eighty sequence types (STs) were identified, with the majority (75%) containing only one isolate. eBURST analysis identified three clonal complexes, which contained 59.1% of the isolates. Clonal complex (CC) 1 contained 31, predominantly type A isolates from diverse host species. Clonal complex 2 contained 75% of the bovine type E isolates examined in this study. Clonal complex 3 consisted predominantly of porcine type A and type C isolates. Interestingly, these porcine isolates (n=32) all carried consensus cpb2 and cna genes, encoding beta2 toxin and CpCna, a collagen binding protein, respectively. This compares to carriage of both these genes by only 3.6% of porcine isolates not present in clonal complex 3 (n=28). The data obtained indicates that MLST may be used to identify host species relationships with respect to these C. perfringens isolates.