<i>Hd1</i> Allele Types and Their Associations with Major Agronomic Traits in Korean Rice Cultivars

<i>Hd1</i> Allele Types and Their Associations with Major Agronomic Traits in Korean Rice Cultivars

Optimizing flowering time in crop plants is critical for maximizing yield and quality under target environments. While there is a wide range of heading date variation in Korean rice cultivars, the underlying gene mechanisms are unclear. Here, we sequenced the protein coding regions of <i>Hd1&l...

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Autores principales: Youngjun Mo, Chang-Min Lee, Hyang-Mi Park, Su-Kyung Ha, Mi-Jung Kim, Jieun Kwak, Hyun-Sook Lee, Jeong-Heui Lee, Ji-Ung Jeung
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
rice
<i>Hd1</i>
days to heading
culm length
amylose content
protein content
Botany
QK1-989
Acceso en línea:https://doaj.org/article/c86eded4253b432b8af0b20f9085d184
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Sumario:Optimizing flowering time in crop plants is critical for maximizing yield and quality under target environments. While there is a wide range of heading date variation in Korean rice cultivars, the underlying gene mechanisms are unclear. Here, we sequenced the protein coding regions of <i>Hd1</i>, the major rice heading date gene, from 293 Korean rice cultivars and investigated the associations between <i>Hd1</i> allele types and major agronomic traits under four different environments. There were four functional <i>Hd1</i> and five nonfunctional <i>hd1</i> alleles distributed among the 293 Korean rice cultivars. The effects of the <i>Hd1</i> allele types were highly significant for days to heading in all four environments, explaining 51.4–65.8% of the phenotypic variation. On average, cultivars carrying nonfunctional <i>hd1</i> headed 13.7 days earlier than those carrying functional <i>Hd1</i>. While the <i>Hd1</i> allele types exhibited highly significant effects on culm length and protein content under all four environments, the differences between cultivars carrying <i>Hd1</i> and <i>hd1</i> were minimal. The effects of the <i>Hd1</i> allele types on amylose content were significant in only one of the four environments. Our results provide useful information for fine-tuning rice heading dates by utilizing different <i>Hd1</i> alleles in rice breeding programs.

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