Segregation distortion at marker loci: variation during microspore embryogenesis in maize

Abstract

In the present study, we analyzed the segregation distortions of markers during in vitro androgenesis in maize. This was based on four segregating populations derived from the A188×DH7 one-way-cross. These populations consisted of very young androgenetic embryos, well-developed calluses, haploid regenerated plantlets and spontaneous diploid plantlets. These structures all represented different developmental stages, from that of microspores to the regenerated plantlets. This study complemented a previous one by Murigneux et al. 1994, where distorted segregations of RFLP markers were detected in a single-seed-descent population and in a doubled-haploid population derived from the same cross. The weakly biased SSD maize genetic map was used as a reference to locate 145 AFLP loci whose allelic segregations were also analyzed in the androgenetic segregating populations. Segregation distortions were determined based on chi-square analysis (P<0.01 and P<0.001). Regions on chromosomes 2 and 8 showed distortions from the beginning of embryo formation, with large effects throughout the process. Regions on chromosomes 3, 4, 6 and 10 could control callus formation from microspores. Other deviations of marker genotypes on chromosomes 1, 4, 6 and 10 could be associated with the regeneration phase. Moreover, the statistical method of Cheng et al. for mapping a lethal factor locus inside segments of linked distorted markers was used to estimate the position of seven partial lethal androgenetic factors on chromosomes 1, 2, 8 and 10. These factors could represent selective genes actively involved in maize androgenesis.