Does improved oleic acid content due to marker-assisted introgression of ahFAD2 mutant alleles in peanuts alter its mineral and vitamin composition?

J.H. Kamdar; M.D. Jasani; A.B. Chandrashekar; P. Janila; M.K. Pandey; J.J. Georrge; R.K. Varshney; S.K. Bera

doi:10.3389/fpls.2022.942617

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Does improved oleic acid content due to marker-assisted introgression of ahFAD2 mutant alleles in peanuts alter its mineral and vitamin composition?

Journal article

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Does improved oleic acid content due to marker-assisted introgression of ahFAD2 mutant alleles in peanuts alter its mineral and vitamin composition?

J.H. Kamdar, M.D. Jasani, A.B. Chandrashekar, P. Janila, M.K. Pandey, J.J. Georrge, R.K. Varshney and S.K. Bera

Frontiers in Plant Science, Vol.13, 942617

2022

DOI: https://doi.org/10.3389/fpls.2022.942617

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Abstract

Peanuts (Arachis hypogaea L.) with high oleic acid content have extended shelf life and several health benefits. Oleic, linoleic, and palmitic acid contents in peanuts are regulated by ahFAD2A and ahFAD2B mutant alleles. In the present study, ahFAD2A and ahFAD2B mutant alleles from SunOleic 95R were introgressed into two popular peanut cultivars, GG-7 and TKG19A, followed by markers-assisted selection (MAS) and backcrossing (MABC). A total of 22 MAS and three MABC derived lines were developed with increased oleic acid (78–80%) compared to those of GG 7 (40%) and TKG 19A (50%). Peanut kernel mineral and vitamin composition remained unchanged, while potassium content was altered in high oleic ingression lines. Two introgression lines, HOMS Nos. 37 and 113 had over 10% higher pooled pod yield than respective best check varieties. More than 70% recurrent parent genome recovery was observed in HOMS-37 and HOMS-113 through recombination breeding. However, the absence of recombination in the vicinity of the target locus resulted in its precise introgression along with ample background genome recovery. Selected introgression lines could be released for commercial cultivation based on potential pod yield and oleic acid content.

Details

Title: Does improved oleic acid content due to marker-assisted introgression of ahFAD2 mutant alleles in peanuts alter its mineral and vitamin composition?
Authors/Creators: J.H. Kamdar (Author/Creator) - Directorate of Groundnut Research
M.D. Jasani (Author/Creator)
A.B. Chandrashekar (Author/Creator)
P. Janila (Author/Creator)
M.K. Pandey (Author/Creator)
J.J. Georrge (Author/Creator)
R.K. Varshney (Author/Creator)
S.K. Bera (Author/Creator)
Publication Details: Frontiers in Plant Science, Vol.13, 942617
Publisher: Frontiers Media SA
Identifiers: 991005542753007891
Copyright: © 2022 Kamdar et al.
Murdoch Affiliation: Centre for Crop and Food Innovation; State Agricultural Biotechnology Centre
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 1 Clinical & Life Sciences; 1.68 Lipids; 1.68.1167 Lipid Biosynthesis Mechanisms
Web Of Science research areas: Plant Sciences
ESI research areas: Plant & Animal Science