Mapping genes conditioning in vitro androgenesis in maize using RFLP analysis.

This research was designed to map the genes in maize which condition a high response to anther culture using RFLP analysis. A set of 98 S1 families were developed from the cross of B73 × 139/39-05. In vitro-cultured anthers of 139/39-05 produce numerous embryolike structures while anthers cultured from B73 produce none. Plants from each of the families were grown in the greenhouse. Tassels were harvested from ten individual plants within each family and pretreated prior to culture. Up to three Petri dishes with 60 anthers each were cultured from each tassel. Response was measured as the number of embryo-like structures per 100 anthers cultured. In excess of 105 RFLP clones were screened to detect polymorphism among the parents. A subset of 75 widely distributed clones were scored in the 98 families. Based on the analysis of the resulting genetic data set, the high anther culture response observed in 139/39-05 is conditioned by two major recessive genes, which are epistatic, and two minor genes. One of the two major loci resides in the proximal region of the long arm of chromosome 3 near the indeterminate gametophyte (ig1) gene. The second major locus maps to the centromeric region of chromosome 9. The minor genes reside on chromosomes 1 and 10. Fifty seven percent of the variability among the 98 family means is explained by a genetic model which includes these four chromosomal regions. Moreover, segregation at these loci explains much of the variability observed within the families.