Deciphering the genetic variability for biochemical parameters influencing rancidity of pearl millet (Pennisetum glaucum L. R. Br.) flour in a set of highly diverse lines and their categorization using rancidity matrix

Pearl millet is renowned for its exceptional nutritional value due to its high concentration of essential nutrients. However, a substantial hurdle hindering its global adoption is the issue of rancidity, which manifests as the development of undesirable odours and flavors in millet flour. The presen...

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Bibliographic Details
Published in:Journal of food composition and analysis 2024-04, Vol.128, p.106035, Article 106035
Main Authors: Bhargavi, H.A., Singh, Sumer Pal, Goswami, Suneha, Yadav, Sunaina, Aavula, Naveen, Shashikumara, P., Singhal, Tripti, Sankar, S. Mukesh, Danakumara, Thippeswamy, S, Hemanth, Kapoor, Chandan, Singh, Nirupma
Format: Article
Language:English
Subjects:
Comprehensive acid value (CAV)
Comprehensive peroxide value (CPV)
Lipase
Lipoxygenase (LOX)
Pearl millet
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Summary:Pearl millet is renowned for its exceptional nutritional value due to its high concentration of essential nutrients. However, a substantial hurdle hindering its global adoption is the issue of rancidity, which manifests as the development of undesirable odours and flavors in millet flour. The present work aims to evaluate a set of highly diverse 255 accessions for exploring genotypic variations related to biochemical parameters influencing rancidity and their categorization using a rancidity matrix. These parameters include comprehensive acid value (CAV), comprehensive peroxide value (CPV), as well as lipase and lipoxygenase (LOX) enzyme activities under both fresh and stored conditions. High heritability and genetic advance for CPV and LOX under both fresh and stored conditions indicated the presence of additive genetic effects. Positive associations were noted among all the rancidity-related biochemical parameters. Principal component analysis (PCA) further illustrated the positive correlation between CAV and lipase activity, and between CPV and LOX activity. Based on lower values of CAV under fresh conditions and all other biochemical parameters under fresh and stored conditions, lines IP 5695 and IP 19334 were identified as low rancid lines. Additionally, genotypes were categorized into low, medium, and high rancidity groups based on CAV and CPV, providing valuable insights into trait variability. These findings hold significant promise for the development of breeding material, variety and hybrids of pearl millet with longer shelf life and wider utilization. [Display omitted] •Storage duration impacts pearl millet flour rancidity.•Lipase_0 exhibited the strongest positive correlation with CAV_10 (0.92).•Biochemical parameters related to rancidity showed high heritability (>98%).•Genotypes IP 5695 and IP 19334 shows lower values for rancidity parameters.•255 genotypes were grouped into low, medium, high based on CAV and CPV values.
ISSN:0889-1575
1096-0481
DOI:10.1016/j.jfca.2024.106035