Abstract
Rice (Oryza sativa L.) is one of the most important cereal crops in the world. The identification of sd1 mutants in rice resulted in a semi-dwarf phenotype that was used by breeders to improve yields. Investigations of sd1 mutants initiated the “green revolution” for rice and staved off famine for many people in the 1960s. The smaller plant height conferred by sd1 allele gives the plants lodging resistance even with a high amount of nitrogen fertilizer. Guang-chang-ai-carrying sd1 was the first high-yielding rice variety that capitalized on the semi-dwarf trait, aiming to significantly improve the rice yield in China. IR8, known as the miracle rice, was also bred by using sd1. The green revolution gene sd1 in rice has been used for decades, but was not identified for a long time. The SD1 gene encodes the rice Gibberellin 20 oxidase-2 (GA20ox2). As such, the SD1 gene is instrumental in uncovering the molecular mechanisms underlying gibberellin biosynthesis There are ten different alleles of SD1. These alleles are identified by genome sequencing within several donor lines in breeding for semi-dwarf rice. Apart from breeding applications and the molecular mechanism of GA biosynthesis, the SD1 gene is also involved in the molecular regulation of other important agronomic traits, like nitrogen fertilizer utilization. The dentification of new alleles of SD1 can be obtained by mutagenesis and genome editing. These new alleles will play an important role in improving the resource diversity of semi-dwarf breeding in the future.
Highlights
Rice (Oryza sativa L.) is a cultivated cereal crop whose breeding species provide 35–60% of dietary calories to about 50% of the world’s population [1]
This review aims to introduce the history of applying semi-dwarf gene sd1 in rice breeding and the impact of semi-dwarf phenotype in higher yield during the green revolution in rice
After the OsGA20ox2 (SD1) mutation, the concentration of GA53 increased while the content of main product GA19, GA20 and active gibberellin GA1 decreased significantly
Summary
Rice (Oryza sativa L.) is a cultivated cereal crop whose breeding species provide 35–60% of dietary calories to about 50% of the world’s population [1]. The semi-dwarf varieties respond to fertilizer inputs properly with an increased yield because of their lodging resistance even under high nitrogen fertilization This is the major reason why the green revolution can tremendously increase the yield in semi-dwarf wheat and rice [4,5]. This green revolution change in rice was caused in large part by introduction of semi-dwarf mutations, which led to a shortened culm with improved lodging resistance and a greater harvest index [5,6]. After explaining why sd is used widely with a huge impact, and how to use sd to achieve a new era of rice breeding, it can be seen that the semi-dwarf gene sd still has tremendous vitality in rice breeding
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
