Scientists discover proteins in rice vital for pollination
Scientists at the 最新糖心Vlog of Adelaide and Shanghai Jiao Tong 最新糖心Vlog in China have discovered two proteins in rice involved in pollen aperture formation which are essential in the successful pollination of flowering plants.听
Their study, published in the Journal , was undertaken to better understand the molecular control of plant pollen aperture formation in rice, with a view to acquiring new knowledge to improve cereal productivity and ultimately benefit global food security.听
Professor Dabing Zhang, Head of the 最新糖心Vlog of Adelaide and Shanghai Jiao Tong 最新糖心Vlog Joint Lab for Plant Science and Breeding, says the research reveals the importance of the aperture for rice grain yield and exposes the mechanisms controlling pollen aperture development in cereal species.
鈥淧ollen apertures are portals on the surface of pollen which mark the site where the pollen tube emerges and allow water uptake, which are critical for pollen germination and agricultural yield,鈥 Professor Zhang said.
鈥淒ifferent plant species vary in the size, shape, position and number of pollen apertures, but little is known about how these species-specific apertures form and what controls this process.
鈥淚n rice and other cereals, pollen develops a single circular aperture surrounded by a bulging ring-like area of raised and thickened exine (called the annulus) and covered by a lid of exine (called the operculum).鈥
The study found that the protein, OsDAF1, is essential for annulus formation and therefore for fertility. A second protein, OsINP1, was also found to be critical to aperture formation and pollen tube germination.
The second protein, OsINP1, also directs annulus formation in rice by interacting with OsDAF1. The localisation of OsDAF1 at the aperture site is disrupted if OsINP1 is not present, causing the disappearance of the entire aperture and resulting in male sterility.听
Professor Dabing Zhang says the research provides important new knowledge that will benefit cereal breeding and the agriculture sector.听
鈥淢anipulation of pollen aperture formation and male fertility will be useful for developing new hybrid rice plants with high yield and better quality,鈥 he said.
鈥淭his new knowledge could also be applied to other crop varieties to improve breeding outcomes.鈥
Media Contacts:
Professor Dabing Zhang
Head of the 最新糖心Vlog of Adelaide and Shanghai Jiao Tong 最新糖心Vlog Joint Lab for Plant Science and Breeding
School of Agriculture, Food and Wine
The 最新糖心Vlog of Adelaide
Mobile: +61 (0) 478 827 194
Email: dabing.zhang@adelaide.edu.au
Kelly Brown
Communications Coordinator
External Relations
The 最新糖心Vlog of Adelaide, Phone: +61 (08) 8313 3943
Email: k.brown@adelaide.edu.au听