Female sterility associated with the presence of callose in the nucellus at anthesis was studied in an F1 progeny of two alfalfa plants displaying 5 and 81% ovule sterility. Transgressive segregation was observed and 100% sterile plants were obtained. Two of the sterile plants were used for cytological analyses on sectioned and stain-cleared whole ovules, in comparison to a 100% fertile full sib plant. The first sign of sterility was callose deposition in the nucellus cell walls surrounding the sporogenous cells of the young ovules. At the same stage, no trace of callose was present in ovule primordia of the fertile plant. Megaspore mother cells differentiated in both fertile and sterile ovules and meiosis was initiated, as indicated by chromatin patterning typical of a zygotene stage. However, meiosis was never completed in the sterile plants. In the control, callose was deposited around the meiocyte and as sects between the cells of the dyads and tetrads during meiosis, and disappeared after the completion of meiosis; an embryo sac developed and female fertility was normal. In the sterile ovules, some nucellus cells enlarged and callose accumulation continued forming thick deposits. At anthesis, the sterile ovules lacked an embryo sac and showed massive callose accumulation in the nucellus. Male fertility was normal in female-sterile plants, thus a female-specific arrest of sporogenesis appears to be the cause of sterility. Pistil development was aberrant in some sterile genotypes, even with arrested pistil growth in early flower buds.
Expression of female sterility in alfalfa (Medicago sativa L.)
ROSELLINI, Daniele;FERRANTI, Francesco;VERONESI, Fabio;
2003
Abstract
Female sterility associated with the presence of callose in the nucellus at anthesis was studied in an F1 progeny of two alfalfa plants displaying 5 and 81% ovule sterility. Transgressive segregation was observed and 100% sterile plants were obtained. Two of the sterile plants were used for cytological analyses on sectioned and stain-cleared whole ovules, in comparison to a 100% fertile full sib plant. The first sign of sterility was callose deposition in the nucellus cell walls surrounding the sporogenous cells of the young ovules. At the same stage, no trace of callose was present in ovule primordia of the fertile plant. Megaspore mother cells differentiated in both fertile and sterile ovules and meiosis was initiated, as indicated by chromatin patterning typical of a zygotene stage. However, meiosis was never completed in the sterile plants. In the control, callose was deposited around the meiocyte and as sects between the cells of the dyads and tetrads during meiosis, and disappeared after the completion of meiosis; an embryo sac developed and female fertility was normal. In the sterile ovules, some nucellus cells enlarged and callose accumulation continued forming thick deposits. At anthesis, the sterile ovules lacked an embryo sac and showed massive callose accumulation in the nucellus. Male fertility was normal in female-sterile plants, thus a female-specific arrest of sporogenesis appears to be the cause of sterility. Pistil development was aberrant in some sterile genotypes, even with arrested pistil growth in early flower buds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.