Hydrothermal infra-red (HT-IR): the most effective technology for enhancing the shelf-life of pearl millet flour without compromising with the nutrient density and flour quality

Pearl millet, considered as nutri-cereal, has better nutritional composition and quality, as compared to other cereals. Though, it is less popular due to low shelf-life of the flour. Here, we characterize the rancid behavior of three diverse genotypes of pearl millet—WGI-100 (White), Purple, and for...

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Published in:Journal of plant biochemistry and biotechnology 2024-09, Vol.33 (3), p.326-340
Main Authors: Kumar, Ranjeet R., Singh, Neha, Goswami, Suneha, Vinutha, T., Singh, Sumer P., Mishra, Gyan P., Kumar, Atul, Jha, Girish K., Satyavathi, C. Tara, Praveen, Shelly, Tyagi, Aruna
Format: Article
Language:English
Subjects:
aluminum
amylopectin
amylose
Biomedical and Life Sciences
carboxylic ester hydrolases
Cell Biology
Cenchrus americanus
cost effectiveness
heat
hydrolysis
Life Sciences
lipids
lipoxygenases
millet flour
nutrient content
nutrient density
Original Article
oxidation
phytic acid
Plant Biochemistry
Protein Science
rancidity
Receptors
shelf life
steam
wavelengths
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Summary:Pearl millet, considered as nutri-cereal, has better nutritional composition and quality, as compared to other cereals. Though, it is less popular due to low shelf-life of the flour. Here, we characterize the rancid behavior of three diverse genotypes of pearl millet—WGI-100 (White), Purple, and fortified Dhanshakti (complete grains and decorticated) using different quality determinants linked with shelf-life. Starch, amylose, resistant and non-resistant starch content was observed maximum in Dhanshakti, whereas amylopectin was observed maximum in cv . purple. The activities of carbohydrate degrading enzyme (α-/β-Amylases) were observed maximum on 6th days after milling (DAM) in cv . Dhanshakti. Phytic acid and micronutrients (Fe and Zn) were observed more stabilized in flour during storage. We observed gradual decrease in the storage proteins and total lipid with increase in DAM due to oxidation. Evaluation of physicochemical treatments [salt (1%), lime (1%, grains soaked for overnight), hydrothermal-infrared (HT-IR, grains steamed for 5 min followed by quick drying using IR bulbs with wavelength of 0.7–2.0 µm), kilning (live steam, quick heating), near infra-red (NIR, short wave for 5 min) and air tight aluminum pouches (50 µm thickness)] showed HT-IR to be most effective treatment in arresting the lipid hydrolysis by denaturating/aggregating the rancidity causing enzymes (lipase and lipoxygenase). We observed Dhanshakti to be better in flour quality and nutrient density, as compared to other cvs . HT-IR was observed to be most cost-effective and promising technology in enhancing the shelf-life of pearl millet flour.
ISSN:0971-7811
0974-1275
DOI:10.1007/s13562-024-00893-1