Grain γ-oryzanol and its constituent compounds show high genetic variability, diversity and significant site x genotype interactions in rice

Swarnadip  Ghosh; Haritha  Bollinedi; S. Gopala  Krishnan; Sourav  Kumar; Prolay K.  Bhowmick; Nagarajan . M; K. K.  Vinod; Ranjith K.  Ellur; Ashok K.  Singh

doi:10.31742/ISGPB.83.2.1

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Published: Jul 27, 2023

DOI: https://doi.org/10.31742/ISGPB.83.2.1

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Keywords:

AMMI, antioxidants, GGE biplot, g-oryzanol, rice, stability

Swarnadip Ghosh

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

Haritha Bollinedi

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

S. Gopala Krishnan

ICAR-Indian Agricultural Research Institute, Rice Breeding and Genetics Research Centre, Aduthurai 612 101, Tamil Nadu, India

Sourav Kumar

IARI-Collaborative Out-station Research Centre (CORC), Rakhra 147 201, Patiala, Punjab, India

Prolay K. Bhowmick

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

Nagarajan . M

ICAR-Indian Agricultural Research Institute, Rice Breeding and Genetics Research Centre, Aduthurai 612 101, Tamil Nadu, India

K. K. Vinod

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

Ranjith K. Ellur

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

Ashok K. Singh

Division of Genetics, ICAR-Indian Agricultural Research Institute, New Delhi 110 012, India

Abstract

Among the dietary antioxidants that counteract oxidative stress to avert the incidence of non-communicable diseases (NCDs), g-oryzanol, a unique antioxidant in rice shows potential health benefits. Although rice germplasm exhibits significant variation for g-oryzanol content, much less is studied on the influence of environment (E) and genotype-environment interaction (GEI) on the g-oryzanol content in rice bran. Evaluated under three sites, in a combined analysis of variance, a set of 18 genotypes showed significant effect of environment, genotype, and GEI on the g-oryzanol and its constituent compounds. A large proportion of total phenotypic variance was found due to genotype, indicating high heritability of the trait. GEI is the second major contributor to the phenotypic variance of g-oryzanol and its components, while the contribution of environment was found to be the least. CSR 23 was the superior genotype for g-oryzanol content and stability based on AMMI, GGE biplot and WAASB stability models analyzed. Besides CSR 23, genotypes such as DHMAS-70G-164-29, Chittimutyalu and HUR-200-57-1 were identified as stable and high g-oryzanol producing lines. These superior, stable lines can be used as potential donors for improving g-oryzanol content in rice. The present study assumes importance as the first report of GEI for total g-oryzanol and its five components.

How to Cite

Ghosh, S. ., Bollinedi, H. ., Krishnan, S. G. ., Kumar, S. ., Bhowmick, P. K. ., M, N. ., Vinod, K. K. ., Ellur, R. K. ., & Singh, A. K. . (2023). Grain γ-oryzanol and its constituent compounds show high genetic variability, diversity and significant site x genotype interactions in rice. INDIAN JOURNAL OF GENETICS AND PLANT BREEDING, 83(02), 157–167. https://doi.org/10.31742/ISGPB.83.2.1

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Vol. 83 No. 02 (2023): Indian Journal of Genetics and Plant Breeding

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Research Article

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Grain γ-oryzanol and its constituent compounds show high genetic variability, diversity and significant site x genotype interactions in rice

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