Abstract
Sporothrix species are commonly isolated from environmental and clinical samples. As common causes of zoonotic mycosis, Sporothrix species may result in localized or disseminated infections, posing considerable threat to animal and human health. However, the pathogenic profiles of different Sporothrix species varied, in virulence, geographic location and host ranges, which have yet to be explored. Analysing the genomes of Sporothrix species are useful for understanding their pathogenicity. In this study, we analyzed the whole genome of 12 Sporothrix species and six S. globosa isolates from different clinical samples in China. By combining comparative analyses with Kyoto Encyclopedia of Genes and Genomes (KEGG), Carbohydrate-Active enZymes (CAZy), antiSMASH, Pfam, and PHI annotations, Sporothrix species showed exuberant primary and secondary metabolism processes. The genome sizes of four main clinical species, i.e., S. brasiliensis, S. schenckii, S. globosa, and S. luriei were significantly smaller than other environmental and clinical Sporothrix species. The contracted genes included mostly CAZymes and peptidases genes that were usually associated with the decay of plants, as well as the genes that were associated with the loss of pathogenicity and the reduced virulence. Our results could, to some extent, explain a habitat shift of Sporothrix species from a saprobic life in plant materials to a pathogenic life in mammals and the increased pathogenicity during the evolution. Gene clusters of melanin and clavaric acid were identified in this study, which improved our understanding on their pathogenicity and possible antitumor effects. Moreover, our analyses revealed no significant genomic variations among different clinical isolates of S. globosa from different regions in China.
Highlights
Sporothrix species distribute all over the world, in tropical and subtropical areas
Six Sporothrix strains isolated from the skin lesions of patients in China and 10 ex-type strains obtained from the CBS-KNAW Fungal Biodiversity Centre, including S. globosa, S. schenckii luriei, S. mexicana, S. pallida, S. brunneoviolacea, S. dimorphospora, S. humicola, S. inflata, S. lignivora, and S. variecibatus were included in the study (Table 1)
The genomic analyses of the environmental and clinical Sporothrix strains might serve as a basis for the understanding their pathogenicity and evolution
Summary
Sporothrix species distribute all over the world, in tropical and subtropical areas. Sporothrix includes about 51 species, commonly isolated from environmental and clinical samples (de Beer et al, 2016). Some Sporothrix species are associated with plants, decaying wood and organics in soil as environmental saprobes, while some are agents of Sporotrichosis on animals and humans (Rodrigues et al, 2016). Evolution of Pathogenicity in Sporothrix Strain Name Source Origin. LC 2460 LC 2454 LC 2445 LC 2433 LC 2405 LC 2404 CBS 120340 CBS 937.72 CBS 131.56 CBS 120341 CBS 118129 CBS 553.74 CBS 239.68 CBS 121961 CBS 124561 CBS 119148. S. globosa S. globosa S. globosa S. globosa S. globosa S. globosa S. globosa. S. luriei S. pallida S. mexixcana S. humicola S. dimorphospora S. inflata S. variecibatus S. brunneoviolacea S. lignivora. Soil Soil Soil Wheatfield soil Protea infructescences Soil Eucalyptus wood pole
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