Floral development of the model legume Medicago truncatula:: ontogeny studies as a tool to better characterize homeotic mutations

This work provides new evidence of the complex genetic regulation necessary to accomplish flower development in legumes. Using scanning electron microscopy (SEM) analysis, we have characterized the early developmental events of the wild type Medicago truncatula flower and selected morphological characters as markers to break it down into eight different developmental stages. The order of floral organ initiation in M. truncatula and pea (Pisum sativum L.), in contrast to Arabidopsis and Antirrhinum, is unidirectional in all whorls starting from the abaxial position of the flower with a high degree of overlap. Another main difference is the existence of four common primordia from which petals and stamens differentiate. The formation of common primordia, as opposed to discrete petal and stamen primordia, has been described in many legume and non-legume plants. The main differences between pea and M. truncatula floral ontogeny are-in carpel and fruit development. We also used these morphological markers as tools to characterize early alterations in the flower development of a male-sterile M. truncatula floral homeotic mutant named mtapetala. This mutant displays a phenotype resembling those of weak class B mutants with homeotic conversions of floral organ whorls 2 and 3 into sepaloid and carpelloid structures, respectively. Ontogeny studies of the mtapetala mutant flowers showed similarities with the effects of previously described loss-of-B-function mutations. Differences between ontogeny of wild type and mtapetala flowers could not be detected during the first stages (1-5) of flower development. In late stage 5, abnormal-shaped petals with acute lobes and trichomes as well as abnormal-shaped stamens were visible in whorls 2 and 3. At stage 6, the morphology of petals began to change, developing enlarged sepaloid structures bearing trichomes and first the antesepalous stamens and then the antepetalous stamens began to differentiate carpelloid anthers from filaments. Third whorl organs presented different degrees of carpelloidy. The present study should provide tools for the characterization and comparative analyses of new Medicago floral homeotic mutants and could be useful in elucidating how floral organ identity functions work in legumes.