Isolation of Glomerella musae [teleomorph of Colletotrichum musae (Berk. & Curt.) Arx.] and segregation analysis of ascospore progeny

Abstract

The sexual stage of Colletotrichum musae has been obtained under controlled laboratory conditions. Development of the sexual stage required light and suboptimal growth temperature. Meiosis was apparent as judged by the formation of perithecia typical of ascomycetes classified as Glomerella. Perithecia contained as many as 50–80 asci, each of which contained up to eight ascospores. The ascospores were larger than conidia and were easily dissected for segregation analysis of either random spores or tetrads. In order to determine if this meiotic system was homothallic or heterothallic, chlorate-resistant mutants were isolated and crossed with wild type. Chlorate resistance and susceptibility segregated in a 1:1 ratio, indicating that this system was heterothallic. Sexual recombination was observed by analyzing the segregation of several DNA markers identified by amplification of polymorphic fragments of genomic DNA using single oligonucleotide primers and Taq DNA polymerase. Segregation consistent with mendelian inheritance and sexual recombination of genetic markers indicated that it is feasible to construct a genetic map for this species. The complexity of sexual compatibility was analyzed by crossing several ascospore progeny which identified four distinct mating types.