applications of enzymes in food industry
TRANSCRIPT
Applications of Enzymes in Food Industry
Prepared by:Abhishek
Enzyme technology is concerned with the application of enzymes as tools of industry, agriculture and medicine.
Enzymes are biological catalysts that fulfil their role by binding specific substrates at their active sites.
This specificity is one property of enzymes that makes them useful for industrial applications.
The value of using enzymes over inorganic catalysts in the technological field is their efficiency, selectivity and specificity.
Enzymes are able to operate at room temperature, atmospheric pressure and within normal pH ranges (around 7) – all of which create
energy savings for industry.Enzymes possess specifically shaped active sites for reacting with one
specific substrate thereby generating pure products free from unwanted by-products.
Enzymes are biodegradable and, unlike many inorganic catalysts, cause less damage to the environment.
Enzyme Technology
The micro-organisms(such as yeast) are really used as a source of enzymes during the manufacture of these products of biotechnology
Many industrial processes now make use of pure sources of enzymes, i.e. the enzymes have been ISOLATED from the micro-organisms before use
Micro-organisms have beenused for thousands of yearsfor making products such aswine, beer, vinegar, soy sauce,bread and cheese
Products of Enzyme Technology
MODIFICATION – possibleapplication of genetic engineering to improve
the microbial strain
LABORATORY SCALE PILOT – to determine the optimumconditions for growth of the
Micro-organism
PILOT PLANT – small scalefermenter to clarify optimum
operating conditions
SCREENING – choosing anappropriate micro-organism
for the desired enzymeINDUSTRIAL SCALE
FERMENTATION
The Biotechnological Process of Enzyme Production
Pectin is an insoluble substance found in the cell walls of plants
In the drinks industry, juice extracted from fruitsappears cloudy due to the presence of pectin
PRODUCTION OF PECTINASE
Pectinase is an enzyme that is used in the industry to break down the pectin
The effect of pectinase is to clarify the fruit juice and to make it flow more freely
Pectinase is obtained from the fungus Aspergillus niger
Aspergillus niger produces pectinase as an extracellular enzyme
Commercial Enzyme Production - An Example
Use of enzymes in Food industry
Enzymes in Dairy IndustrySerial no.
Enzyme Purpose/Function1. Rennet (protease) Coagulant in cheese production
2. Lactase Hydrolysis of lactose to give lactose-free milk products
3. Protease Hydrolysis of whey proteins
4 Catalases Removal of hydrogen peroxide
Fruit & VegetableEnzymes break down specific components within fruit & vegetables such as pectin, starch, proteins and cellulose which results in increased yields, shortening of processing time and improving sensory characteristics. Some examples:Pectinases and Cellulases are used to break down cell walls in fruit and vegetables, resulting in improved extraction and increase in yield. They can also be used to decrease the viscosity of purees or nectars, and to provide ‘cloud stability’ and texture in juices.
Brewing & Alcohol ProductionSerial no. Enzyme Purpose/Function
1. Cellulases, beta-glucanases, alpha amylases, proteases, maltogenic amylases
For liquefaction, clarification and to supplement malt enzymes
2. Amyloglucosidase Conversion of starch to sugar
BrewingFood enzymes aid brewers in cutting down production time and cost while still delivering the quality product that consumers have come to expect. Such enzymes are specifically selected to perform highly specific tasks and improve the overall effectiveness of the process.
Key benefits include: • Malt separation• Better extraction yield• Efficient fermentation• Beer filtration and stabilization• Utilization of local raw materials
BakingSerial no. Enzyme Purpose/Function1. Alpha-amylases Breakdown of starch, maltose production
2. Amyloglycosidases Saccharification
3. Maltogen amylase (Novamyl)
Delays process by which bread becomes stale
4. Protease Breakdown of proteins
5. Pentosanase Breakdown of pentosan, leading to reduced gluten production
6. Glucose oxidase Stability of dough
Some other ProductsSr. no. Industry Enzyme Purpose/Function1. Wine &
fruit JuicePectinase
Glucose oxidase
Increase of yield and juice clarificationOxygen removal
2. Meat Protease Meat tenderising3. Protein Proteass, trypsin,
aminopeptidasesBreakdown of various components
4. Starch Alpha amylase, glucoamylases, hemicellulases, amylases,
Modification and conversion (eg to dextrose or high fructose syrups)
5. Insulin Inulinases Production of fructose syrup
Starch ProcessingDuring starch processing, enzymes help to separate raw milled cereals into polysaccharides, gluten and fibres. Enzymes are also used to further break down the long chains of sugars (polysaccharides) into multiple sugars (e.g. glucose, fructose, sucrose, maltose, maltotriose, raffinose). Benefits for the starch processors:- Efficient and better starch conversion into valuable products: glucose, maltose, high fructose and other syrups- Increased capacity utilisation during conversion, due to rapid viscosity reduction and low fouling frequency of process equipment such as evaporators- Improved starch purity due to greater extraction yield from raw materials, and efficient removal of fibres and proteins- Energy savings due to less use of process water, lower evaporator costs and decreased production time.
DescriptionAlpha-amylase: Converts starch to dextrins in producing corn syrup. Solubilizes carbohydrates found in barley and other cereals used in brewing.Glucoamylase: Conversion of dextrins to glucose in the production of corn syrup. Conversion of residual dextrins to fermentable sugar in brewing for the production of "light" beer.Beta-glucanase: Breakdown of glucans in malt and and other materials to aid in filtration after mashing in brewing.Lipase: Enhancing flavor development and shortening the time for cheese ripening. Production of specialty fats with improved qualities. Production of enzyme-modified cheese/butter from cheese curd or butterfat.
Papain: Used as meat tenderizer. Used in brewing to prevent chill-haze formation by digesting proteins that otherwise react with tannins to form insoluble colloids.Chymosin: Curdling of milk by breaking down kappa-caseins in cheese making.
Microbial proteases: Processing of raw plant and animal protein. Production of fish meals, meat extracts, texturized proteins, and meat extenders.Pectinase: Treatment of fruit pulp to facilitate juice extraction and for clarification and filtration of fruit juice.
Continue…Lactase: Additive for dairy products for individuals lacking lactase. Breakdown of lactose in whey products for manufacturing polyactide.
Acetolactate decarboxylase: Reduction of maturation time in wine making by converting acetolactate to acetoin.
Glucose oxidase: Conversion of glucose to gluconic acid to prevent Maillard reaction in products caused by high heat used in dehydration.
Cellulase: Conversion of cellulose waste to fermentable feedstock for ethanol or single-cell protein production. Degradation of cell walls of grains, allowing better extraction of cell contents and release of nutrients.
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