Method for continuously preparing silkworm chrysalis protein antioxidant peptides by using enzyme membrane reactor

A technology of enzyme membrane reactor and silkworm chrysalis protein, which is applied in the field of food biochemistry, can solve the problems of high labor intensity, long production cycle, and low utilization rate of protease, and achieve the effects of reducing labor intensity, avoiding activity reduction, and improving utilization efficiency

Active Publication Date: 2013-08-07
JIANGSU UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Existing studies all use intermittent enzymatic hydrolysis to prepare silkworm chrysalis protein antioxidant peptides. This method has disadvantages such as low utilization rate of protease, long production cycle, unstable product quality and high labor intensity, and is not suitable for industrial production.
Enzyme-membrane reactors can solve these problems very well. There are not many reports about the use of enzyme-membrane reactors to prepare antioxidant peptides. (Application No.: 201010188410.5)" and "A Method for Preparing Oat Antioxidant Peptides Using an Enzyme Membrane Reactor (Application No.: 201110112515.7) have been publicly reported. There is no report on the continuous preparation of silkworm chrysalis protein antioxidant peptides using an enzyme membrane reactor.

Method used

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  • Method for continuously preparing silkworm chrysalis protein antioxidant peptides by using enzyme membrane reactor
  • Method for continuously preparing silkworm chrysalis protein antioxidant peptides by using enzyme membrane reactor
  • Method for continuously preparing silkworm chrysalis protein antioxidant peptides by using enzyme membrane reactor

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Experimental program
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Effect test

Embodiment 1

[0035] Prepare silkworm chrysalis protein into a 1.0% (w / v, g / mL) solution with distilled water, adjust its pH to 6.0 after homogenization, heat to 40°C and add it into the reaction tank together with neutral protease, stir evenly and carry out enzyme Membrane reaction, the amount of enzyme added is 2000U / g, the pH is 6.0, the temperature is 40°C, the molecular weight cut-off of the ultrafiltration membrane is 3kDa, and the ultrafiltration pressure is 0.6kg / cm 2 , the peptide output rate is 6mL / min; the enzymatic hydrolysis product solution passes through the ultrafiltration membrane, the incompletely reacted silkworm chrysalis protein and neutral protease are intercepted and flow back to the reaction tank to continue the reaction, and the enzymatic hydrolysis product passing through the ultrafiltration membrane The permeate is collected; at the same time, according to the concentration of the peptide in the permeate of the enzymatic hydrolysis product during the enzyme membran...

Embodiment 2

[0037] Prepare silkworm chrysalis protein into a 2.0% (w / v, g / mL) solution with distilled water, adjust its pH to 6.5 after homogenization, add it into the reaction tank together with neutral protease after heating to 50°C, and perform enzyme Membrane reaction, the amount of enzyme added is 4000U / g, the pH is 6.5, the temperature is 50°C, the molecular weight cut-off of the ultrafiltration membrane is 5kDa, and the ultrafiltration pressure is 0.8kg / cm 2 , the peptide output rate is 5mL / min; the enzymatic hydrolysis product solution passes through the ultrafiltration membrane, the incompletely reacted silkworm chrysalis protein and neutral protease are intercepted and flow back to the reaction tank to continue the reaction, and the enzymatic hydrolysis product passing through the ultrafiltration membrane The permeate is collected; at the same time, according to the concentration of peptide in the permeate of the enzymolysis product during the enzyme membrane reaction, the same c...

Embodiment 3

[0039] Prepare silkworm chrysalis protein into a 4.0% (w / v, g / mL) solution with distilled water, adjust its pH to 7.5 after homogenization, add it into the reaction tank together with neutral protease after heating to 60°C, stir evenly, and perform enzyme Membrane reaction, the amount of enzyme added is 6000U / g, the pH is 7.5, the temperature is 60°C, the molecular weight cut-off of the ultrafiltration membrane is 10kDa, and the ultrafiltration pressure is 0.9kg / cm 2 , the peptide output rate is 4mL / min; the enzymatic hydrolysis product solution passes through the ultrafiltration membrane, the incompletely reacted silkworm chrysalis protein and neutral protease are intercepted and flow back to the reaction tank to continue the reaction, and the enzymatic hydrolysis product passing through the ultrafiltration membrane The permeate is collected; at the same time, according to the concentration of peptide in the permeate of the enzymolysis product during the enzyme membrane reacti...

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PUM

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Abstract

The invention relates to a method for continuously preparing silkworm chrysalis protein antioxidant peptides by using an enzyme membrane reactor. The method comprises the following steps of: firstly, preparing silkworm chrysalis protein into a suspension by using distilled water; secondly, homogenizing the suspension by using a homogenizer, and then adding the suspension together with incision enzyme into the enzyme membrane reactor for continuously preparing antioxidant peptides; thirdly, penetrating the enzymolysis product solution through an ultrafiltration membrane to ensure that the silkworm chrysalis protein which is not fully reacted and the incision enzyme are captured and then reflow into a reaction tank for continuous reaction; and finally, collecting the enzymolysis product penetrating fluid penetrating through the ultrafiltration membrane, and concentrating and then carrying out spray drying to obtain a powdered silkworm chrysalis protein antioxidant peptide product. The silkworm chrysalis protein antioxidant peptide prepared by the method is good in activity, the IC50 for clearing DPPH (1,1-Diphenyl-2-picrylhydrazyl radical 2,2-Diphenyl-1-(2,4,6-trinitrophenyl)hydrazyl) free radical is 0.9-1.6mg / mL, the IC50 of the capacity of clearing hydroxy radical is 0.2-0.6mg / mL, and the IC50 of the capacity of chelating Fe<2+> is 1.4-2.7mg / mL.

Description

technical field [0001] The invention relates to the field of food biochemistry and can be used as a functional additive in food, cosmetics and medicines, in particular to a method for continuously preparing silkworm chrysalis protein antioxidant peptides using an enzyme membrane reactor. Background technique [0002] Free radicals are related to many chronic human diseases such as cancer, coronary heart disease, and Alzheimer's disease. Therefore, eliminating free radicals in the body can improve the body's resistance and preventive capabilities against diseases, and has attracted widespread attention from all walks of life. Synthetic antioxidants such as butyl hydroxyanisole (BHA) and 2,6-di-tert-butyl-p-methylphenol (BHT) are often used as food additives for preservation, but synthetic antioxidants have harmful effects on human health. Therefore, the development of highly efficient and safe antioxidants has become a research hotspot. As a kind of biologically active pepti...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12P21/06C07K1/34
Inventor 贾俊强吴琼英桂仲争颜辉
Owner JIANGSU UNIV OF SCI & TECH
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