Unique actin and microtubule arrays co-ordinate the differentiation of microspores to mature pollen in Nicotiana tabacum

Abstract

The complex cellular events that occur during development of the male gametophyte of higher plants suggest a role for the cytoskeleton. This investigation has revealed that unique microtubule arrays mediate events that occur during microspore development; both actin and microtubule arrays have important roles during the asymmetrical microspore mitosis and unique actin arrays mediate events that occur during early pollen development. Migration of the nucleus to the generative pole during cellular polarization of the microspore is mediated by a microtubule cage that encloses the nucleus. Nuclear position at the generative pole is maintained by an actin net that tethers it to the pole prior to the asymmetrical mitosis. During entry into mitosis, the microtubule cage becomes modified and transforms into the asymmetrical mitotic spindle. Actin is localized within the region of the mitotic spindle and in the phragmoplast. Following mitosis, actin networks enclose first the generative cell and then the vegetative nucleus. These actin networks function during migration of the generative cell and vegetative nucleus toward the centre of the pollen grain. Mature pollen contains a dense cortical actin meshwork and a disc-shaped microtubule array enclosing the generative cell. The functional importance of the unique actin and microtubule arrays is verified by their targeted disruption with specific cytoskeletal inhibitors, which disrupt normal development and cellular morphology. In summary, these data provide evidence that the co-ordinated reorganization of unique actin and microtubule arrays is an essential determinant of microspore and pollen development.