NONPARENTAL PROGENY RESULTING FROM PROTOPLAST FUSION IN TRICHODERMA IN THE ABSENCE OF PARASEXUALITY

The purpose of this study was to characterize a number of progeny from intra- and interstrain protoplast fusion within the genusTrichoderma. We wished to determine whether parasexuality or other genetic mechanisms occur in these fungi. When two different auxotrophs of the same strain were fused, rapidly growing prototrophic progeny were obtained in high frequencies. When single spore isolates of these strains were prepared, equal numbers of strains indistinguishable from the two parental auxotrophic strains were obtained, even though 109-1010 conidia were tested per strain. Thus, progeny from intrastrain fusions all appeared to be balanced heterokaryons, and no evidence of recombination between the two parental strains was obtained. When 16 separate interstrain fusions were conducted, very different results were obtained, regardless of whether fusions were within or between species. Following interstrain fusions, presumptive somatic hybrids developed very slowly and in low numbers as compared with hybrids from intrastrain fusions. Most were weakly prototrophic. These slow-growing progeny were unstable and sectors developed from them. Such sectors themselves were unstable and gave rise to other progeny. Usually sectors were more strongly prototrophic and more rapid growing than the original progeny strain. Sectoring gave rise to a very wide range of morphotypes. Most of these morphotype variants were stable through conidiation; thus, these types did not occur as a consequence of heterokaryosis. Isozyme analysis was conducted on over 1000 progeny strains. Nearly all progeny were identical to one or the other parental isozyme phenotypes. A few progeny, when tested as soon as possible after fusion, exhibited the isozyme phenotypes of both parents, but such biparental banding patterns were rapidly lost upon subsequent reculturing. Isozyme banding patterns of multimeric enzymes never gave band patterns indicative of heterokaryosis or heterozygosis. Banding patterns indicative of heterozygous diploids or recombinants were never detected. Despite the extreme variation in morphotype and nutritional requirements among progeny, isozyme banding patterns of derived progeny from any fusion were invariably identical to one or the other parental strains. From these results, we conclude that protoplast fusion in the genusTrichoderma gives rise to great variability, but that the classical parasexual cycle is not required for variation to occur. © 1990 Academic Press, Inc.