Toxigenic diversity of two different RAPD groups of Stachybotrys chartarum isolates analyzed by potential for trichothecene production and for boar sperm cell motility inhibition

Thirty-one isolates of Stachybotrys chartarum from indoor and outdoor environments were analyzed for the presence of the trichodiene synthase (Tri5) gene, trichothecenes, boar sperm cell motility inhibition, and randomly amplified polymorphic DNA banding patterns (RAPDs). Twenty-two S. chartarum isolates tested positive for the Tri5 gene and nine were negative when tested using novel Tri5 gene-specific PCR primer pair.

The Tri5 gene positive isolates contained satratoxins (five isolates) or the simple trichothecene, trichodermol (11 isolates). The Tri5 gene negative isolates did not produce satratoxins or trichodermol. Nineteen S. chartarum isolates, distributed among the Tri5 gene negative and positive groups, inhibited boar spermatozoan motility at concentrations of less than or equal to60 mug of crude cell extract/mL.

The inhibition of motility was independent of satratoxins or atranones. Unweighted pair group method of arithmetic averages (UPGMA) cluster analysis of RAPID fragments clustered the 31 S. chartarum isolates in two distinct groups designated as RAPD groups 1 and 2. The grouping of S. chartarum isolates obtained by UPGMA cluster analysis of RAPID fragments was identical to the grouping obtained by Tri5 gene-specific PCR.

This indicates that the S. chartarum isolates belonging to different groups were genetically distinct in a much wider area than just the Tri5 gene.