Molecular interactome and starch–protein matrix, functional properties, phytochemical constituents, and antioxidant activity of foxtail millet (<i>Setaria italica</i>) flour as influenced during gaseous ozonation

Journal of Food Science

Bhandari

et al. 2023

Self Cite

In the current investigation, white and red sorghum grains were exposed to bioprocessing techniques, such as soaking, germination, fermentation, and dual processing (both germination and fermentation). Germination and fermentation resulted in improved bioactive profile attributing to better antioxidant activity, whereas a reduction in antinutrient components was observed. On the other hand, soaking had decreased phenolic components and anti‐nutritional factors attributing to their leaching in the soaking water. A significant change in the functional properties and color profile was also observed on bioprocessing. It also caused alterations in the morphological structure of the starch–protein matrix and molecular interactions of certain functional groups that reveal the synthesis of certain new bioactive compounds in the flour. The alterations in the bioprocessed flours occurred due to the structural breakdown attributing to the activity of hydrolytic enzymes that were activated during the processing treatments. Bioprocessing was also responsible for the degradation of the starch granules and unfolding of the protein matrix, thus altering the in vitro nutrient digestibility of the flours. Principal component analysis was used to authenticate the differences between different treatments and observations recorded. These bioprocessed flours could be potential ingredients for several valorized cereal products.

Section: Resultsmentioning

confidence: 99%

“…Further, diluted anisaldehyde (0.5 mL anisaldehyde with 99.5 mL of ethyl acetate) and concentrated sulfuric acid (1 mL each) were added to it and incubated for 10 min followed by measurement of absorbance at 430 nm. Saponins were expressed as mg saponins/100 g of dry flour (Sharma et al., 2022).…”

Section: Methodsmentioning

confidence: 99%

Characterization of bioprocessed white and red sorghum flours: Anti‐nutritional and bioactive compounds, functional properties, molecular, and morphological features

Journal of Food Science

Bhandari

et al. 2023

Self Cite

“…Then form the strong bond after the addition of carbonyl and carboxyl groups in starch molecules. [ 27 ] The result of Sharma et al., [ 17 ] who illustrated increase in GC, attributed to the high viscosity of ozonated foxtail millet flour.…”

Section: Resultsmentioning

confidence: 99%

Characterization of Ozonated Pearl Millet and Sorghum Starches: Pasting Profile, Functional Properties, In Vitro‐Digestibility, Molecular Interactions, and Morphology

Thakur

et al. 2023

Starch Stärke

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The present research was undertaken to study the effect of ozone treatment on isolated pearl millet starch (PMS) and sorghum starch (SS). Ozone treatment was done at various concentrations (0.06, 0.08, and 0.1L/min) for 60 minutes and their effect was evaluated on the techno‐functional properties, in vitro starch digestibility, pasting properties, morphological characteristics, X‐ray diffraction, and FTIR interactions. Functional properties such as water and oil absorption capacity and solubility increased significantly (p≤0.05) with ozone treatment. However, swelling power increased for all the ozonated starches with the rise in temperature (60o‐100°C) but a reverse trend was observed with an increase in ozone treatment. The significant increment in paste clarity (PC), gel consistency (GC), and freeze‐thawing stability (FTS) were observed for all ozone‐treated starches. Although, a reduction in vitro starch digestibility for PMS, i.e., 44.59 to 29.20 g/100 g maltose and 30.80 – 28.76 g/100 g maltose was observed. No significant effect was observed for the color values except for L* and chroma after the ozone treatment. Higher values of peak viscosity, final viscosity and lower breakdown viscosity, setback viscosity were observed on ozonation treatment (p<0.05). A‐type crystalline pattern of PMS and SS remained unaffected with ozone treatment, whereas relative crystallinity (RC) decreased with ozone dose (i.e., 23.89% for PMSO‐3 and 22.5% for SSO‐3). SEM images confirmed indentations, and enlargement of surface pores for ozonated starches were clearly observed. While FTIR spectroscopy revealed a slight decrease in the peak intensity. The ratio of absorbance (RA) at 1047/1022 cm−1 slightly reduced after ozone treatment.This article is protected by copyright. All rights reserved

“…[54,57] Ozone also increases starches enzymatic sensitivity, resulting in improved in vitro digestibility. [58] Furthermore, Sharma et al, [59] studied the effect of ozone treatment on technofunctional properties of foxtail millet flour, and observed increment in swelling power, paste clarity, oil absorption, water absorption, and solubility significantly.…”

Section: Ozonationmentioning

confidence: 99%

Morphological and Functional Properties of Millet Starches as Influenced by Different Modification Techniques: A Review

Thakur

2022

Starch Stärke

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The growing need for new starches has sparked interest in the expansion of novel starch sources for the food sector. Millets are popular due to various health benefits and sustainability. Similar to the majority of cereals, the major constituent and quality factor of millet grain is its starch, which contributes 60-70% of the whole grain. Utilization of starch is reliant on its structural and functional properties. Starch in its native form does not possess all the required properties such as low temperature and shear stability. The desired properties for food products can achieved by modifying the starch functionality and morphology via physical, chemical, enzymatic, and dual methods. At present, research for potential application of native as well as modified millet starch is limited. The objective of this review is to focus on the techno-functional and morphological properties, various modification techniques, and applications of the millet starches. The review paper also summaries the applications of modified millet starch in the food industry.