Abstract
Oryza longistaminata is an African wild rice species that possesses special traits for breeding applications. Self-incompatibility is the main cause of sterility in O. longistaminata, but here we demonstrated that its pollen vitality are normal. Lipid and carbohydrate metabolism were active throughout pollen development. In this study, we used I2-KI staining and TTC staining to investigate pollen viability. Aniline-blue-stained semithin sections were used to investigate important stages of pollen development. Tandem mass tags (TMT)-based quantitative analysis was used to investigate the profiles of proteins related to lipid and carbohydrate metabolism in 4-, 6-, and 8.5-mm O. longistaminata spikelets before flowering. Pollen was found to germinate normally in vitro and in vivo. We documented cytological changes throughout important stages of anther development, including changes in reproductive cells as they formed mature pollen grains through meiosis and mitosis. A total of 31,987 RNA transcripts and 8,753 proteins were identified, and 6,842 of the proteins could be quantified. RNA-seq and proteome association analysis indicated that fatty acids were converted to sucrose after the 6-mm spikelet stage, based on the abundance of most key enzymes of the glyoxylate cycle and gluconeogenesis. The abundance of proteins involved in pollen energy metabolism was further confirmed by combining quantitative real-time PCR with parallel reaction monitoring (PRM) analyses. In conclusion, our study provides novel insights into the pollen viability of O. longistaminata at the proteome level, which can be used to improve the efficiency of male parent pollination in hybrid rice breeding applications.
Highlights
The genus Oryza consists of 24 species: two cultivated species (O. sativa and O. glaberrima) and 22 wild rice species with different ecological adaptations and 10 identifiable genomes (AA, BB, CC, EE, FF, GG, BBCC, CCDD, HHJJ, and HKK; Ge et al, 1999; Zhang et al, 2001)
The proteome data were much smaller than the transcriptome data, which may be due to the existence of many unanalyzed proteins in O. longistaminata (Zhang et al, 2015)
Some proteins that were detected by proteomics analysis were not detected in the mRNA analysis in rice, which was attributed to mRNA half-life and stability (Chen et al, 2019)
Summary
The genus Oryza consists of 24 species: two cultivated species (O. sativa and O. glaberrima) and 22 wild rice species with different ecological adaptations and 10 identifiable genomes (AA, BB, CC, EE, FF, GG, BBCC, CCDD, HHJJ, and HKK; Ge et al, 1999; Zhang et al, 2001). Proteomics Related With Pollen Development in Oryza longistaminata species with long anthers (Rout et al, 1989), self-incompatibility (Ghesquiere, 1986), strong resistance to biotic and abiotic stresses (Song et al, 1995), and strong rhizomes (Hu et al, 2003). Previous studies have focused mainly on the development of perennial rice (Sacks and Roxas, 2003) and the breeding of blight-resistant varieties, and genes such as Rhz, Rhz (Hu et al, 2003), and Xa21 (Song et al, 1995) have been identified. Further study of O. longistaminata pollen must be based on cytological analysis (Zhang et al, 2015)
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