[Background] As foodborne pathogens, Cronobacter spp. often appear in the reports of neonatal illness. So far, there has been no report of Cronobacter spp. in forest musk deer. [Objective] We identified and sequenced a strain of Cronobacter malonaticus isolated from the kidney of forest musk deer, aiming to lay a foundation for the prevention and treatment of related diseases in forest musk deer. [Methods] After the pathogen was isolated, biochemical tests, drug susceptibility tests, pathogenicity test in mice, and whole genome sequencing were conducted. Based on the sequencing results, the population evolution analysis, species typing, and gene function annotation were performed. [Results] The pathogen was identified as C. malonaticus based on the average nucleotide identity (ANI) and phylogenetic tree, with the biochemical test results consistent with the general characteristics of C. malonaticus. The strain, named Dcc0527, was sensitive to some quinolones, amphenicols, aminoglycosides, and β-lactams and resistant to some sulfonamides and macrolides. The results of whole genome sequencing showed that the strain contained one ring chromosome and four ring plasmids, with the whole genome size of 1 257 547 026 bp and the G+C content of 57.08%. The multilocus sequence typing showed that the strain presented the sequence type ST211. The genome of strain Dcc0527 carried the genes conferring resistance to several antibiotics, such as elfamycin, fluoroquinolone, and tetracycline and several virulence genes, such as Type IV pili, kpsD, and iroN. In addition, there were three complete phage regions in the chromosome and plasmids of strain Dcc0527. [Conclusion] We isolated a strain of C. malonaticus from the kidney of forest musk deer and obtained the whole genome sequence of this strain (ST211). The findings provide reference for the prevention and control of bacterial diseases in forest musk deer.