Phenotypic complementation of ms45 maize requires tapetal expression of MS45

A mutation in the maize Ms45 gene results in a male-sterile phenotype due t o the absence of pollen. Cytological examination of microspores in ms45 mut ant plants reveals that the cell wall of the developing male gametophyte is poorly formed, while genetic analysis indicates that mutations at Ms45 are sporophytic. The Ms45 gene has been isolated by transposon tagging and tra nscription was shown by RNA hybridization analysis to be tassel-specific. I n this report, an efficient system for molecular complementation is describ ed and used to confirm that a transformed copy of the wild-type gene was ab le to fully restore fertility to ms45 mutant maize and to characterize MS45 protein expression in maize anthers. The MS45 protein was localized to the tapetum and expressed maximally during the early-vacuolate microspore stag e of development. Based on these observations, phenotypic complementation o f ms45 was used as an assay to determine tapetal cell-layer activity of oth er anther-specific and constitutive promoters.