Towards an understanding of inequity.

Protein hydrolysate was prepared from Acetes indicus which is a major bycatch among non-penaeid prawn landings of India. Hydrolysis conditions (enzyme to substrate ratio and time) for preparing protein hydrolysates using alcalase enzyme were optimized by response surface methodology using central composite design. The optimum conditions for enzyme-substrate ratio (mL/100 g) of 1.57, 1.69, 1.60, 1.56, and 1.50 and for hydrolysis time of 97.18, 96.5, 98.15 min, 102.48, and 88.44 min were established for attaining maximum yield, degree of hydrolysis, 2,2-diphenyl-1-picrylhydrazyl, angiotensin I-converting enzyme-inhibiting activity, and metal-chelating activity, respectively. ABTS radical scavenging activity and reducing power assay of optimized protein hydrolysate were found to be increased with the increase in concentration. The higher value of 7.04 (μM Trolox/g), 87.95, and 77.24%, respectively for DPPH, ACE, and metal-chelating activity indicated that the A. indicus protein hydrolysates have beneficial biological properties that could be well-utilized in the application of functional foods and nutraceuticals. Graphical abstract ᅟ.

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Characterization of carotenoprotein from different shrimp shell waste for possible use as supplementary nutritive feed ingredient in animal diets

Pattanaik

Sawant

Xavier

et al. 2020

Aquaculture

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Development of functional extruded snacks by utilizing paste shrimp (Acetes spp.): process optimization and quality evaluation

et al. 2017

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Characterization of chitin extracted from enzymatically deproteinized Acetes shell residue with varying degree of hydrolysis

Dhanabalan

Xavier

Eppen

et al. 2021

Carbohydrate Polymers

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Evaluation of physicochemical and functional properties of spray‐dried protein hydrolysate from non‐penaeid shrimp (Acetes indicus)

et al. 2019

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BACKGROUND: Protein hydrolysate powder was prepared from non-penaeid shrimp (Acetes indicus) by enzymatic hydrolysis using Alcalase enzyme. Extraction conditions such as pH (6.5, 7.5 and 8.5), enzyme to substrate ratio (1.0, 1.5 and 2.0) and temperature (40, 50 and 60 ∘ C) were optimized against the degree of hydrolysis using response surface methodology. RESULTS: Protein hydrolysate comprised of 740 g kg −1 protein, 150 g kg −1 ash and 90 g kg −1 fat contents. The amino acid score showed superior attributes with 56% essential amino acids. Furthermore, the functional properties of spray-dried protein hydrolysates were evaluated. Protein solubility was found to be the 90.20% at pH 2 and 96.92% at pH 12. Emulsifying properties were found to vary with the concentration of protein hydrolysates and the highest emulsifying capacity (26.67%) and emulsion stability (23.33%) were found at a concentration of 20 mg mL −1 . The highest and the lowest foaming capacity were observed at pH 6 and pH 10 with a concentration of 20 mg mL −1 . The water holding capacity of protein hydrolysate was found to increase with concentration, with a value of 5.4 mL g −1 at a concentration of 20 mg mL −1 . CONCLUSION:The results of the present study indicate that the use of A. indicus for the production of protein hydrolysate has good functional properties and nutritional value, rendering it suitable for broad industrial food applications.DH (%) = amino nitrogen Total protein nitrogen × 100 J Sci Food Agric 2020; 100: 50-58

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Vignaesh Dhanabalan

Effect of processing conditions on degree of hydrolysis, ACE inhibition, and antioxidant activities of protein hydrolysate from Acetes indicus

Characterization of carotenoprotein from different shrimp shell waste for possible use as supplementary nutritive feed ingredient in animal diets

Development of functional extruded snacks by utilizing paste shrimp (Acetes spp.): process optimization and quality evaluation

Characterization of chitin extracted from enzymatically deproteinized Acetes shell residue with varying degree of hydrolysis

Evaluation of physicochemical and functional properties of spray‐dried protein hydrolysate from non‐penaeid shrimp (Acetes indicus)

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