We identified a~30-kb genomic island (named GI8) carrying the binary toxin gene operon binA/binB on both the chromosome and large pBsph plasmid in the mosquitocidal Lysinibacillus sphaericus C3-41 strain. We found that GI8 is related to the occurrence of binA/binB within L. sphaericus and displays excision and integration capability by recognizing the attB region, which consists of a 2-nt target site (AT) flanked by an 11-nt imperfect inverted repeat. pBsph and two pBsph-like plasmids (p2362 and p1593) were found to carry a type IV secretion system (T4SS) and displayed transmissibility within a narrow host range specific to L. sphaericus. GI8 can be co-transferred with pBsph as a composite element by integration into its attB site, then excised from pBsph and re-integrated into the chromosomal attB site in the new host. The potential hosts of GI8, regardless of whether they are toxic or non-toxic to mosquito larvae, share good collinearity at the chromosomal level. Data indicated that the appearance of the mosquitocidal L. sphaericus lineage was driven by horizontal transfer of the T4SS-type conjugative plasmid and GI8 with excision and specific integration capability.