Abstract
Anther and pollen development are crucial processes of plant male reproduction. Although a number of genes involved in these processes have been identified, the regulatory networks of pollen and anther development are still unclear. EMBRYONIC FLOWER 2b (OsEMF2b) is important for rice development. Its biological function in floral organ, flowering time and meristem determinacy have been well-studied, but its role, if only, on male reproduction is still unknown, because null mutants of OsEMF2b barely have anthers. In this study, we identified a weak allele of OsEMF2b, osemf2b-4. The T-DNA insertion was located in the promoter region of OsEMF2b, and OsEMF2b expression was significantly decreased in osemf2b-4. The osemf2b-4 mutant exhibited much more normal anthers than null mutants of OsEMF2b, and also showed defective floret development similar to null mutants. Cytological analysis showed various defects of anther wall and pollen development in osemf2b-4, such as slightly or extremely enlarged tapetum, irregular or normal morphology microspores, and partial or complete sterility. OsEMF2b was highly expressed in tapetum and microspores, and the protein was localized in the nucleus. The expression of 15 genes essential for anther and pollen development was investigated in both WT and osemf2b-4. Fourteen genes including GAMYB was up-regulated, and only PTC1 was down-regulated in osemf2b-4. This suggests that up-regulated GAMYB and down-regulated PTC1 might contribute to the defective anther and pollen development in osemf2b-4. Overall, our work suggests that OsEMF2b plays an essential role during post-meiotic anther and pollen development.
Highlights
Male reproductive development in plants is a complex biological process involving coordinated differentiation of anthers and the generation of gametophytes, anther dehiscence and subsequently pollination
RTqPCR analysis revealed that the expression of OsEMF2b was significantly decreased in leaves of osemf2b-4 (Figure 1A), indicating that it was a weaker allele than the three null mutant alleles (Kim et al, 2010)
These results suggested that OsEMF2b plays an important role in anther and pollen development
Summary
Male reproductive development in plants is a complex biological process involving coordinated differentiation of anthers and the generation of gametophytes, anther dehiscence and subsequently pollination. Down-Regulation of OsEMF2b Caused Semi-sterility cell death (PCD) of the tapetum, and of the anther wall layers to release mature pollen. These highly coordinated processes require precise fine-tuning of gene regulatory networks such as transcriptional and epigenetic regulation. SDG2 mediates H3K4me deposition at SPOROCYTELESS/NOZZLE (SPL/NZZ) and MALE STERILITY1 (MS1) for transcriptional activation, which are essential for differentiation of anther walls and pollen development in Arabidopsis (Berr et al, 2010). The molecular mechanisms regulating gene expression with histone methylations in gametophyte development remain elusive
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