Low Glycemic Index and High Protein Rice to Transform Food and Nutritional Security
in Asia
Abstract: In line with intensified efforts to combat the multifaceted impacts of malnutrition, there is a pressing need to develop diabetic-friendly, healthier rice varieties to tackle the escalating global prevalence of diabetes. In this study, we developed recombinant inbred lines with milled rice exhibiting ultralow to low glycemic index (GI) and high protein content (PC) from the cross between Samba Mahsuri and IR36 amylose extender. We performed comprehensive genomics and metabolomics complemented with modeling analyses emphasizing the importance of OsSBEIIb along with additional candidate genes whose variations allowed us to produce target rice lines with lower GI and high PC (14-16%) in a high-yielding background. By integrating genetic techniques with classification models, this comprehensive approach identified candidate genes on chromosome 2 (qGI2.1/qAC2.1 spanning the region from 18.62 Mb to 19.95 Mb), exerting influence on low GI and high amylose. Notably, the phenotypic variant with high value was associated with the recessive allele of the starch branching enzyme 2b (sbeIIb). The genome-edited sbeIIb line confirmed low GI phenotype in milled rice grains. Further, combinations of alleles created by the highly significant SNPs from the targeted associations and epistatically interacting genes showed ultralow GI phenotypes with high amylose and high protein. Metabolomics analysis of rice with varying AC, PC, and GI revealed that the superior lines of high AC and PC, and low GI were preferentially enriched in glycolytic and amino acid metabolisms, whereas the inferior lines of low AC and PC and high GI were enriched with fatty acid metabolism. The high amylose high protein recombinant inbred line (HAHP_101) was enriched in essential amino acids like lysine. These lines represent an important breeding resource to address food and nutritional security and are highly relevant for food product development to address diabetes and malnutrition.
rice, low gi