Molecular differentiation of sibling species in the Galactomyces geotrichum complex.

PCR-analysis, multilocus enzyme electrophoresis and molecular karyotyping were used to characterize 52 strains belonging to the genus Galactomyces. The resultant data revealed that a PCR method employing the universal primer N21 and microsatellite primer (CAC)5 is appropriate for the distinction of four Ga. geotrichum sibling species, Ga. citri-aurantii and Ga. reessii. Better separation was achieved with the UP primer N21; each species displayed a specific pattern with very low intraspecific variation. We propose to use the primer N21 for the differentiation of the six taxa composing the genus Galactomyces. Multilocus enzyme electrophoresis revealed genetic homogeneity of each sibling species within the Ga. geotrichum complex. On the other hand, the four sibling species, having from 41 to 59% of nDNA homology and similar phenotypic characteristics, are clearly distinguished based on their electrophoretic profiles using two enzymes: mannose-6-phosphate isomerase (MPI) and phosphoglucomutase (PGM). Despite the same number of chromosomal bands, different karyotype patterns were found in Ga. geotrichum sensu stricto and its two sibling species A and B. Within each sibling species, chromosome length polymorphism was observed, in particular for small bands, allowing discrimination to the strain level.