Genes and Their Molecular Functions Determining Seed Structure, Components, and Quality of Rice

• Published in: Rice (New York, N.Y.) Vol. 15; no. 1; p. 18
• Main Authors: Li, Pei, Chen, Yu-Hao, Lu, Jun, Zhang, Chang-Quan, Liu, Qiao-Quan, Li, Qian-Feng
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.12.2022; Springer Nature B.V; SpringerOpen
• Subjects: Agriculture; Aleurone layer; Biomedical and Life Sciences; Cloning; Composition; Cooking; Crop yield; Eating quality; Endosperm; Genes; Grain component; grain quality; Grain size; Grain Size and Quality; growth and development; Life Sciences; Lipids; Minerals; Molecular structure; Nutritive value; Physicochemical properties; phytochemicals; Plant breeding; Plant Breeding/Biotechnology; Plant Ecology; Plant Genetics and Genomics; Plant Sciences; Protein; Proteins; Review; Rice; Rice grain quality; seed coat; seed growth; Seed size; Seed structure; Seeds; spikelets; Starch; supply balance; Vitamins; Rice grain quality; Seed structure; Starch; Gene cloning; Seed size; Grain component; Molecular function; Protein; Regulatory network
• ISSN: 1939-8425; 1939-8433; 1934-8037
• DOI: 10.1186/s12284-022-00562-8

With the improvement of people's living standards and rice trade worldwide, the demand for high-quality rice is increasing. Therefore, breeding high quality rice is critical to meet the market demand. However, progress in improving rice grain quality lags far behind that of rice yield. This might be because of the complexity of rice grain quality research, and the lack of consensus definition and evaluation standards for high quality rice. In general, the main components of rice grain quality are milling quality (MQ), appearance quality (AQ), eating and cooking quality (ECQ), and nutritional quality (NQ). Importantly, all these quality traits are determined directly or indirectly by the structure and composition of the rice seeds. Structurally, rice seeds mainly comprise the spikelet hull, seed coat, aleurone layer, embryo, and endosperm. Among them, the size of spikelet hull is the key determinant of rice grain size, which usually affects rice AQ, MQ, and ECQ. The endosperm, mainly composed of starch and protein, is the major edible part of the rice seed. Therefore, the content, constitution, and physicochemical properties of starch and protein are crucial for multiple rice grain quality traits. Moreover, the other substances, such as lipids, minerals, vitamins, and phytochemicals, included in different parts of the rice seed, also contribute significantly to rice grain quality, especially the NQ. Rice seed growth and development are precisely controlled by many genes; therefore, cloning and dissecting these quality-related genes will enhance our knowledge of rice grain quality and will assist with the breeding of high quality rice. This review focuses on summarizing the recent progress on cloning key genes and their functions in regulating rice seed structure and composition, and their corresponding contributions to rice grain quality. This information will facilitate and advance future high quality rice breeding programs.