Shifting archetype to nature's hidden gems: from sources, purification to uncover the nutritional potential of bioactive peptides.

Contemporary scientific findings revealed that our daily food stuffs are enriched by encrypted bioactive peptides (BPs), evolved by peptide linkage of amino acids or encrypted from the native protein structures. Remarkable to these BPs lies in their potential health benefiting biological activities to serve as nutraceuticals or a lead addition to the development of functional foods. The biological activities of BPs vary depending on the sequence as well as amino acid composition. Existing database records approximately 3000 peptide sequences which possess potential biological activities such as antioxidants, antihypertensive, antithrombotic, anti-adipogenics, anti-microbials, anti-inflammatory, and anti-cancerous. The growing evidences suggest that BPs have very low toxicity, higher accuracy, less tissue accretion, and are easily degraded in the disposed environment. BPs are nowadays evolved as biologically active molecules with potential scope to reduce microbial contamination as well as ward off oxidation of foods, amend diverse range of human diseases to enhance the overall quality of human life. Against the clinical and health perspectives of BPs, this review aimed to elaborate current evolution of nutritional potential of BPs, studies pertaining to overcome limitations with respect to special focus on emerging extraction, protection and delivery tools of BPs. In addition, the nano-delivery mechanism of BP and its clinical significance is detailed. The aim of current review is to augment the research in the field of BPs production, identification, characterisation and to speed up the investigation of the incredible potentials of BPs as potential nutritional and functional food ingredient.

Nutritional and bioactive characteristics of buckwheat, and its potential for developing gluten-free products: An updated overview.

In the present era, food scientists are concerned about exploiting functional crops with nutraceutical properties. Buckwheat is one of the functional pseudocereals with nutraceutical components used in the treatment of health-related diseases, malnutrition, and celiac diseases. As a preferred diet as a gluten-free product for celiac diseases, buckwheat is a good source of nutrients, bioactive components, phytochemicals, and antioxidants. The general characteristics and better nutritional profile of buckwheat than other cereal family crops were highlighted by previous investigations. In buckwheats, bioactive components like peptides, flavonoids, phenolic acids, d-fagomine, fagopyritols, and fagopyrins are posing significant health benefits. This study highlights the current knowledge about buckwheat and its characteristics, nutritional constituents, bioactive components, and their potential for developing gluten-free products to target celiac people (1.4% of the world population) and other health-related diseases.

Impact of germination on structural, physicochemical, techno-functional, and digestion properties of desi chickpea (Cicer arietinum L.) flour.

Germination significantly increased the nutrient composition, total phenolic content, and antioxidant activity of the chickpea flour cultivars studied (GNG-469 and GNG-1581). Protein and starch digestibilities were significantly improved in germinated chickpea flour. Germinated chickpea flour formed gels that had a shear modulus about 60% that of the non-germinated ones. X-ray diffraction analysis indicated that both A and B type polymorphs were present in the chickpea flour cultivars. Germination significantly reduced the relative crystallinity of the chickpea flour cultivars, from around 33 to 27% for GNG 469 and around 30 to 25% for GNG 1581. Protein secondary structures showed increase in ß-sheets and random coils content in chickpea cultivars during germination. Phenolic acid profiling showed a decrease in the concentration of ellagic, p-coumaric, p-hydroxybenzoic, and caffeic acids but an increase in gallic, p-coumaric, and ferulic acids after germination.

Insight about the biochemical composition, postharvest processing, therapeutic potential of Indian gooseberry (amla), and its utilization in development of functional foods-A comprehensive review.

Indian gooseberry/Amla (Emblica officinalis Gaertn. syn. Phyllanthus emblica L) has an amazing nutritional profile and is a reservoir of biologically active compounds which have potential health benefits and are regarded as a remedy for lethal diseases. The unique features of amla, conferred by their bioactive components, have extended future prospects about their usage for useful effects on human nutrition and health globally. With the rapidly growing popularity of this unique therapeutic fruit, it is important to have comprehensive knowledge of this fruit. The current review article presents the nutritional profile, bioactive components, antioxidant and antimicrobial properties, and postharvest processing of amla fruit. Moreover, studies related to therapeutic properties of amla and its utilization in development of functional foods have been presented in this review. E. officinalis is a promising source of bioactive compounds which showed varied potential in the management of a number of human ailments which has been proven through various studies. Therefore, amla should be taken in the regular diet, thereby utilizing its potential health benefits. PRACTICAL APPLICATIONS: Amla (Indian gooseberry), as source of natural bioactive compounds, has a great potential application in improving the status of human nutrition and health. The utilization of amla extract has various biological effects, like antimicrobial, antioxidant, gastroprotective, anticancer, hepatoprotective, cardioprotective, radioprotective, anti-inflammatory, antidiabetic, neuroprotective, and immunomodulatory effect, owing to its bioactive components. The use of amla extract has recently increased in food, pharmaceutical, and cosmetic products to replace synthetic antioxidants which have inherent harmful health effects. The review report will provide information on bioactive components, therapeutic properties, utilization of amla in the development of future functional foods, and postharvest processing of amla, which will provide critical information to researchers all over the world.

Application of new technologies in decontamination of mycotoxins in cereal grains: Challenges, and perspectives.

Emerging decontamination technologies have been attracted considerable attention to address the consumers' demand for high quality and safe food products. As one of the important foods in the human diet, cereals are usually stored for long periods, resulting in an increased risk of contamination by different hazards. Mycotoxins comprise one of the significant contaminants of cereals that lead to enormous economic losses to the industry and threats to human health. While prevention is the primary approach towards reducing human exposure to mycotoxins, decontamination methods have also been developed as complementary measures. However, some conventional methods (chemical treatments) do not fulfill industries' expectations due to limitations like safety, efficiency, and the destruction of food quality attributes. In this regard, novel techniques have been proposed to food to comply with the industry's demand and overcome conventional methods' limitations. Novel techniques have different efficiencies for removing or reducing mycotoxins depending on processing conditions, type of mycotoxin, and the food matrix. Therefore, this review provides an overview of novel mycotoxin decontamination technologies such as cold plasma, irradiation, and pulse light, which can be efficient for reducing mycotoxins with minimum adverse effects on the quality and nutritional properties of produce.

Bioactive compounds of Aegle marmelos L., medicinal values and its food applications: A critical review.

Aegle marmelos L. (bael) is a fruit tree of Rutaceae family, widely grown all over the world. This plant is gaining popularity because of its nutrient-rich fruits and immense traditional medicinal usage and pharmacological properties. The health promotive and protective effect of bael fruit is accounted by fibers, carotenoids, phenolics, terpenoids, coumarins, flavonoids, and alkaloids. The curative relevance of these compounds has been assessed by various in vivo and in vitro studies. Fruit shows numerous possible health benefits, namely, radio-protective effects, peroxidation, antibacterial, inhibition of lipid, antidiarrheal, gastroprotective, antiviral, antidiabetic, anti-ulcerative colitis, cardioprotective, free-radical scavenging (antioxidant) and hepatoprotective effects. The health benefits of bael are not only limited to edible portion (fruit), but it also extends to nonedible portion (root, trunk, bark, leaf, flower and seed) having comparable biologically active compounds. Increasing awareness about the role of diet among health-conscious consumers for human well-being has increased the interest in functional foods thereby exploration of the functional attributes of various underutilized plants is being reaffirmed and various sources are emerged out as suitable food material for processing industry. The various scientific reports collected from different bibliometric sources suggested that A. marmelos and its bioactive constituents could play a vital role in the prevention of several chronic and degenerative diseases associated with oxidation stress. This review emphasis on recent scientific evidences on nutrition and bioactive profile of A. marmelos, health benefits along with clinical and nonclinical trials of various phytoconstituents and A. marmelos potential in food processing industry for various food products. Our study suggests that this plant does indeed have pharmacological properties of interest, however, further extensive research is needed to establish a potential strategy that can balance the pharmacological and toxic effects of bael.