Joy Sareen, Dai Shi, Andrea K. Stone, Caishuang Xu, Brittany Polley, James D. House, Pankaj Bhowmik, Nandhakishore Rajagopalan, Takuji Tanaka, Michael T. Nickerson
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The foaming capacity of FBPI was significantly lowered by hydrolysis, while in the case of PPI, it increased at pH 4.5 and was unaffected at 7.0. The foaming stability increased for both pulses at pH 4.5 but was reduced at pH 7.0. At pH 4.5, hydrolysis enhanced the emulsion activity index of FBPI, while it decreased the index of PPI. The indices increased for both pulses at pH 7.0. The emulsion stability index was generally reduced for FBPI but improved for PPI after hydrolysis. All samples were limiting in tryptophan and the sulfur-containing amino acids, and in vitro protein digestibility decreased after hydrolysis for both pulses. As the results of these changes, overall protein quality improved for FBPI but not PPI. The degree of protein hydrolysis was an important factor in determining the functional and nutritional attributes of modified pulse proteins along with pH and pulse type.</p></div>","PeriodicalId":549,"journal":{"name":"European Food Research and Technology","volume":"249 12","pages":"3175 - 3190"},"PeriodicalIF":3.0000,"publicationDate":"2023-09-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effect of enzyme hydrolysis on the physicochemical, functional, and nutritional properties of pea and faba bean protein isolates\",\"authors\":\"Joy Sareen, Dai Shi, Andrea K. Stone, Caishuang Xu, Brittany Polley, James D. House, Pankaj Bhowmik, Nandhakishore Rajagopalan, Takuji Tanaka, Michael T. Nickerson\",\"doi\":\"10.1007/s00217-023-04358-y\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>This research examined the physicochemical, functional, and nutritional aspects of pea (PPI) and faba bean protein isolates (FBPI) modified using trypsin at varying levels of hydrolysis. Enzyme hydrolysis decreased the protein content for both pulse protein isolates and increased the lipid content for pea. The surface charge became more negative, and the surface hydrophobicity was enhanced. The surface and interfacial tension, in general, decreased upon hydrolysis. The oil holding capacity for both pulses increased while the water holding capacity decreased. The foaming capacity of FBPI was significantly lowered by hydrolysis, while in the case of PPI, it increased at pH 4.5 and was unaffected at 7.0. The foaming stability increased for both pulses at pH 4.5 but was reduced at pH 7.0. At pH 4.5, hydrolysis enhanced the emulsion activity index of FBPI, while it decreased the index of PPI. The indices increased for both pulses at pH 7.0. The emulsion stability index was generally reduced for FBPI but improved for PPI after hydrolysis. All samples were limiting in tryptophan and the sulfur-containing amino acids, and in vitro protein digestibility decreased after hydrolysis for both pulses. As the results of these changes, overall protein quality improved for FBPI but not PPI. 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Effect of enzyme hydrolysis on the physicochemical, functional, and nutritional properties of pea and faba bean protein isolates
This research examined the physicochemical, functional, and nutritional aspects of pea (PPI) and faba bean protein isolates (FBPI) modified using trypsin at varying levels of hydrolysis. Enzyme hydrolysis decreased the protein content for both pulse protein isolates and increased the lipid content for pea. The surface charge became more negative, and the surface hydrophobicity was enhanced. The surface and interfacial tension, in general, decreased upon hydrolysis. The oil holding capacity for both pulses increased while the water holding capacity decreased. The foaming capacity of FBPI was significantly lowered by hydrolysis, while in the case of PPI, it increased at pH 4.5 and was unaffected at 7.0. The foaming stability increased for both pulses at pH 4.5 but was reduced at pH 7.0. At pH 4.5, hydrolysis enhanced the emulsion activity index of FBPI, while it decreased the index of PPI. The indices increased for both pulses at pH 7.0. The emulsion stability index was generally reduced for FBPI but improved for PPI after hydrolysis. All samples were limiting in tryptophan and the sulfur-containing amino acids, and in vitro protein digestibility decreased after hydrolysis for both pulses. As the results of these changes, overall protein quality improved for FBPI but not PPI. The degree of protein hydrolysis was an important factor in determining the functional and nutritional attributes of modified pulse proteins along with pH and pulse type.
期刊介绍:
The journal European Food Research and Technology publishes state-of-the-art research papers and review articles on fundamental and applied food research. The journal''s mission is the fast publication of high quality papers on front-line research, newest techniques and on developing trends in the following sections:
-chemistry and biochemistry-
technology and molecular biotechnology-
nutritional chemistry and toxicology-
analytical and sensory methodologies-
food physics.
Out of the scope of the journal are:
- contributions which are not of international interest or do not have a substantial impact on food sciences,
- submissions which comprise merely data collections, based on the use of routine analytical or bacteriological methods,
- contributions reporting biological or functional effects without profound chemical and/or physical structure characterization of the compound(s) under research.
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