Abstract: | Morphogenesis of the maize embryo is controlled by many genes. A group of 51 embryo-specific (emb) mutations representing at least 45 independent mutation events and many different gene loci have been isolated from active Robertson's Mutator stocks. The authors have reported previously that the embryo phenotype of 27 of these mutations, characterized by examining mature embryos in fresh dissection. The maximal development capacity of the 24 emb mutations are reported here which have not been reported previously. All result in retarded embryos that are morphologically abnormal. Three of the mutants are blocked during the first phase of morphogenesis, the period in which the basal-apical asymmetry is established and the embryo is regionalized into suspensor and embryo proper. Nineteen mutants are blocked during the second phase, the period in which radial asymmetry appears, the embryonic axis is established at a different angle than the original basal-apical axis of the zygote and the vegetative organ primordia of the adult plant make their first appearance. Two mutants are blocked or altered during the third phase, the period in which vegetative structures are elaborated. Some of the mutants affected in the first phase of morphogenesis may have defective mechanisms for establishing basal-apical asymmetry, including possibly the asymmetric distribution of morphogenic determinants. Similarly, some of the mutants affected in the second phase may be altered in the mechanisms establishing radial asymmetry and the origin of the meristems. Mutations of the first type may act as early as the first cell division when the zygote undergoes a transverse division, while mutations of the second type are likely to act during the proembryo and transition stages. Both types include mutations affecting embryo pattern formation. Mutations affecting the third phase of morphogenesis may identify genes regulating reiterative morphogenic processes of vegetative plant development and events of embryo maturation. This group of 24 mutations is like that reported previously in representing genes that are crucial to embryo morphogenesis. |