Meiotic instability of Pythium sylvaticum as demonstrated by inheritance of nuclear markers and karyotype analysis.

Progeny from a sexual outcross between opposite mating types of Pythium sylvaticum were analyzed for inheritance of RFLP and random amplified polymorphic DNA (RAPD) markers. Although most were inherited in expected Mendelian frequencies, several were not. Pulsed field gel electrophoresis was employed to examine these unexpected patterns of marker inheritance at a karyotypic level. Parental oogonial and antheridial isolates had different electrophoretic karyotypes and minimum number of chromosome-sized DNAs (13 and 12, respectively), however, summation of the sizes of all chromosomal bands for each isolate was similar at approximately 37 Mb. Progeny karyotypes differed significantly from each other and the parental isolates, ranging in estimated minimum number of chromosome-sized DNAs from 9 to 13 and the summation of band sizes within each isolate from 28.1 to 39.0 Mb. For the eight isolates most extensively analyzed, 80% of the progeny chromosome-sized DNAs were nonparental in size or hybridization grouping of cDNA clones and isolated RAPD markers. Based on the results of Southern analysis it appears that length mutations and perhaps aneuploidy and translocations have contributed to generation of karyotypic polymorphisms. Nineteen field isolates of P. sylvaticum collected from the same location also exhibited significantly different karyotypes, suggesting that the meiotic instability observed in the laboratory also is occurring in field populations.