Correlation of stages of microsporogenesis with bud and anther morphology in pepper genotypes through DAPI staining with different levels of mordant in cytological fixative.

Abstract

The haploid and doubled haploid plants serve as valuable tools for breeders due to their ability to expedite the mapping of genes of agronomic importance, as well as accelerate the breeding cycle for generation of novel hybrids and improved homogenous varieties. Successful anther/microspore culture largely depends on the use of microspores at appropriate developmental stages at the time of culture, which can be specific for each plant species and genotype. In the present study, we described the visible morphological characteristics of flower buds and anthers at different developmental stages to identify the optimal microspore stage within the anther/buds of two pepper hybrids, Indra and Lakshmi. This information enabled us to predict the suitable microspore stage for successful haploid production. To enhance the visualization of nuclei in the pepper microspores, different concentrations of FeCl3 were employed as a mordant to Carnoy's fixative I, followed by DAPI staining. A clear and distinct nucleus was observed using DAPI staining procedures in the pepper microspores when fixed in Carnoy's solution containing ferric chloride (40-90µl) as mordant. The use of mordant thus facilitated the efficient cytological analysis of the pepper microspores. Present results indicate that, to achieve efficient haploid production, flower buds with an average length of 4.4 to 5.02mm for the hybrid Indra and 5.15 to 5.40mm for the hybrid Lakshmi should be utilized. Additionally, these buds should have a calyx covering approximately 80-90% of the total bud length. We observed that in such buds, microspores are in the late-uninucleate and early binucleate stage which has been reported to be the most conducive stage for androgenesis induction in pepper.