Early tapetal degeneration and meiotic defects are involved in the male sterility of Solanum commersonii (+) S. tuberosum somatic hybrids

Abstract

Somatic hybridization between Solanum commersonii and S. tuberosum resulted in the production of male-sterile hybrid plants, except for one fully male-fertile hybrid. The male-sterile hybrids exhibited a“pollen-less” phenotype, with rare pollen grains which were abnormal in shape and exine sculpture. Microsporogenesis and tapetal development were investigated both in male-sterile and male-fertile somatic hybrids to assess the cytological events that were involved in male sterility. The pattern of male sterility was complex, arising through mechanisms expressed at both sporophytic and gametophytic levels. Various abnormalities occurred first in the tapetum, and later during meiosis-II and cytokinesis. These caused the degeneration of the sporads and of the microspores when they were released. In the male-fertile hybrid, normal development of the tapetum and pollen mother cells was restored. The hypothesis that tapetal breakdown, meiosis-II and cytokinesis defects are related to each other, and depend on nuclear-mitochondrial interactions, is discussed. Because of the formation of multivalent chromosome configurations, it is likely that gene exchange between S. commersonii and S. tuberosum can occur in somatic hybrids, offering potential perspectives for the introgression of useful traits from S. commersonii into S. tuberosum.