Background: Protease is one of the most important industrial enzymes. The importance of protease bioproduction comes from meeting the increasing demand for this enzyme especially in the cheese industry. Rhizomucor miehei protease is the preferred substitute for the traditional rennet. Solid-state fermentation (SSF) shows promising results in enzyme production. An optimization strategy was applied to optimize the production of Rhizomucor miehei protease in a solid medium. The components of the fermentation medium were screened by using the one-factor-at-a-time (OFAT) approach. The optimization process then was performed by using the response surface methodology (RSM) approach based on five factors (fermentation time, temperature, pH, moisture content, nitrogen concentration) at five levels. Specific milk clotting activity and milk clotting activity/proteolytic activity ratio were considered as response variables in the optimization process.
Results: Among several combinations, wheat bran was selected as the best substrate. Casein was selected based on preliminary screening of nitrogen sources. The optimal conditions identified by RSM analysis were found to be 81.21 h, 41.11°C, 6.31, 80%, and 1.33% for fermentation time, temperature, pH, moisture content, and casein concentration, respectively. The performed fermentation process under the optimized conditions gave an enzymatic extract with the values of 5.11 mg/mL, 2258.13 Soxhlet unit/mL, 441.90 Soxhlet unit/mg, 1.14 protease unit/mg, and 388.66 for protein content, milk clotting activity, specific clotting activity, specific proteolytic activity, and milk clotting activity/proteolytic activity ratio, respectively. The aforementioned values were close to the predicted values.
Conclusion: The high milk clotting activity and the relatively low proteolytic activity signify higher specificity of the produced enzyme, which is favorable in cheese making. The observed results reveal the efficiency of the applied statistical approaches in obtaining desired values of response variables and minimizing experimental runs, as well as achieving good predictions for response variables.
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http://dx.doi.org/10.1186/s43141-022-00358-9 | DOI Listing |
J Sci Food Agric
December 2024
Microbiology Department, The Institute of Science, Dr. Homi Bhabha State University, Mumbai, India.
Background: Bacillus subtilis AU-2, isolated from the gut of Tribolium castaneum, was used for protease production. The purified protease was evaluated for its potential in food-related applications including meat tenderization, milk coagulation, and the preparation of enzymatic soybean hydrolysates. Enzymatic hydrolysis of soy protein is an effective method for producing protein hydrolysates with optimal techno-functional properties.
View Article and Find Full Text PDFFoods
November 2024
Biological Research Institute, National Scientific and Technical Research Council (CONICET), University of Mar del Plata (UNMDP), Mar del Plata 7600, Argentina.
Food Res Int
December 2024
Danone Research & Innovation, Utrecht, The Netherlands. Electronic address:
Enteral Nutrition (EN) is used for the dietary management of patients requiring tube feed and who are at risk of disease related malnutrition. Previously, EN with a dairy-dominant p4 protein blend (DD-P4: 20% soy, 20% pea, 25% casein and 35% whey) was shown to not coagulate in the stomach, increase gastric emptying rate and reduce gastric residual volume compared to EN with casein-dominant protein blends (CD; 80% casein and 20% whey), which is relevant for upper gastrointestinal tolerance. In line with the EAT-Lancet report, a new plant-dominant protein blend (PD-P4: 46% soy, 32% pea, 16% casein and 6% whey) was developed.
View Article and Find Full Text PDFVopr Pitan
November 2024
Lomonosov Moscow State University, 119991, Moscow, Russian Federation.
Vitamin K comes in several forms in foods. Phylloquinone (vitamin K1) is found in plant foods. Menaquinones (vitamin K2) are a class of vitamin K compounds found in animal products and fermented foods.
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