Genotypic Variation and Genetic Control of Phenolic Compounds and Antioxidant Activity in Shanlan Upland Rice Landrace
Lin Zhang, Jing Yu, Bowen Deng, Yi Peng, Yafang Shao, Jinsong Bao

TL;DR
This study explores the genetic basis of antioxidant properties in Shanlan rice, identifying key genes and traits that could help breed healthier, drought-tolerant rice varieties.
Contribution
The study identifies the Rc gene as a major genetic factor influencing antioxidant activity in rice through genome-wide association analysis.
Findings
Colored Shanlan rice accessions have significantly higher total phenolic content and antioxidant capacity than white-grained varieties.
The Rc gene on chromosome 7 is a major QTL associated with multiple phenolic and antioxidant traits.
Haplotype H002 of the Rc gene is linked to the highest antioxidant capacity in Shanlan rice.
Abstract
Shanlan rice, a unique drought-resistant rice germplasm resource in Hainan Province, China, holds significant potential for rice genetic improvement and breeding innovation. However, its genetic diversity and significance in rice breeding remain inadequately explored. This study conducted a comprehensive analysis of phenolic acid profiles and antioxidant properties in the brown rice of 84 Shanlan rice accessions. It was revealed that colored Shanlan rice accessions exhibited significantly higher total phenolic content (249.00–2408.33 mg gallic acid equivalents per 100 g of rice flour (mg GAE/100 g)) and antioxidant capacity (DPPH: 680.39–809.63 micromoles of Trolox equivalent per 100 g (μmol TE/100 g); ABTS: 529.93–1917.77 μmol TE/100 g) compared to white-grained varieties. High-performance liquid chromatography (HPLC) analysis identified eight phenolic acids in the bound fractions,…
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Taxonomy
TopicsGABA and Rice Research · Microbial Metabolism and Applications · Biochemical and biochemical processes
