1.1.1.8	glycerol-3-phosphate dehydrogenase (NAD+)	food industry	potential use of Saccharomyces cerevisiae-Saccharomyces kudriavzevii hybrids in the wine industry where glycerol content is an important quality parameter	
1.1.1.25	shikimate dehydrogenase (NADP+)	food industry	the biosynthesis of anthocyanins (ATs) and hydrolysable tannins (HTs) competes for the same substrate, 3-DHS, and SDH activity is regulated not only by the NADPH/NADP+ ratio, but also by the expression of the pomegranate shikimate dehydrogenases, PgSDHs. Since the outer peel affects the customer's decision regarding fruit consumption, such knowledge can be utilized for the development of genetic markers for breeding pomegranates having higher levels of both ATs and HTs	
1.1.1.69	gluconate 5-dehydrogenase	food industry	production of 5-keto-D-gluconic acid that can be converted effectively into L-(+)-tartaric acid	
1.1.1.102	3-dehydrosphinganine reductase	food industry	naturally occuring missense mutation A175T is linked to animals with bovine spinal muscular atrophy. Protein exhibits no detectable in vitro catalytic activity, but the mutated gene complements the growth defect of a homologous yeast knock-out strain as well as the healthy variant	
1.1.1.149	20alpha-hydroxysteroid dehydrogenase	food industry	the enzyme can alter glucocorticoid metabolism in the gut and thereby serves as potential probiotics for the management of androgen-dependent diseases	
1.1.1.184	carbonyl reductase (NADPH)	food industry	mequindox, inhibitor of several Gram-positive and Gram-negative bacteria, is reduced by carbonyl reductase CBR1	
1.1.3.2	L-lactate oxidase	food industry	L-lactate oxidase based lactate sensors are widely used for clinical diagnostics, sports medicine, and food quality control. Rational engineering of Aerococcus viridans L-lactate oxidase for the mediator modification to achieve quasi-direct electron transfer type lactate sensor	
1.1.3.4	glucose oxidase	food industry	food and beverage additive, used for low alcohol wine production, used for glucose removal from dried egg, improvement of color, flavor, and shelf life of food materials, oxygen removal from fruit juices, canned beverages, and from mayonnaise to prevent rancidity, used as ingredient of toothpaste, for the production of gluconic acid, and as a food preservative	
1.1.3.4	glucose oxidase	food industry	food processing-additive, used for bread making (GOX is an effective oxidant to produce bread with improved texture and increased loaf volume), and in dry egg powder, used as preservative in packaged food and for reduced alcohol wine production	
1.1.3.4	glucose oxidase	food industry	the enzyme is used as food preservative and color stabilizer	
1.1.3.4	glucose oxidase	food industry	Horseradish peroxidase, glucose oxidase, and glucose can be applied efficiently to modify several physicochemical properties (especially rheological and emulsifying properties) of soybean protein isolate. Soybean protein products are widely applied in processed foods as important ingredients, due to their higher nutritive values and desirable functional properties. Physical, chemical, and enzymatic modifications can be used to treat food proteins for property improvement	
1.1.3.4	glucose oxidase	food industry	mutant enzyme Y169C/A211C is a good candidate for the bread baking industry. It has a significant effect on bread volume. Its improved thermostability, pH stability, and catalytic activity, its resistance to SDS, maximal enzymatic activity at low temperatures, and high activity under alkaline conditions are valuable properties that in addition to the bread baking industry	
1.1.3.4	glucose oxidase	food industry	potentially useful in food biopreservation, application for the preservation of aquatic products at low-temperatures, good antimicrobial effect against common fish pathogenic bacteria (Listeria monocytogenes and Vibrio parahaemolyticus), excellent freshness preserving agent in the context of the grass carp	
1.1.3.4	glucose oxidase	food industry	the enzyme is used in clinical, pharmaceutical, food and chemical industries	
1.1.3.5	hexose oxidase	food industry	the enzyme is useful for improving the rheological and bread making properties of flour and the quality of the bread, overview	
1.1.3.10	pyranose oxidase	food industry	the enzyme improves dough stability and bread quality	
1.1.5.14	fructose 5-dehydrogenase	food industry	the enzyme can be used as biosensor to quantify D-fructose in commercial beverages and honey	
1.1.99.12	sorbose dehydrogenase	food industry	L-sorbose can be catalyzed into L-ascorbic acid by Ketogulonicigenium vulgare, vitamin C industry	
1.2.1.8	betaine-aldehyde dehydrogenase	food industry	the BADH2 could play a role in the improvement of rice fragrance, which could lead to an enhancement in rice quality and market price	
1.3.1.27	2-hexadecenal reductase	food industry	use of enzyme to improve beer quality by conversion of trans-2-nonenal, the major contributor to the cardboard-like taste of aged beer	
1.4.1.2	glutamate dehydrogenase	food industry	plays an essential role during postharvest senescence, its expression most likely is controlled by multigenes and regulated either transcriptionally or posttranscriptionally	
1.4.1.2	glutamate dehydrogenase	food industry	Lactococcus lactis IFPL 953 shows the highest NAD-GDH activity among wild isolates from raw milk cheeses. L. lactis IFPL 953 also demonstrates a remarkable 2-oxoisovalerate decarboxylase activity, which along with its high GDH activity makes the strain particularly useful in enhancing cheese flavour formation	
1.4.1.4	glutamate dehydrogenase (NADP+)	food industry	is responsible for the capacity of Lactococcus lactis strains to catabolize amino acids to aroma compounds, pGdh442 can be naturally transmitted to other Lactococcus lactis strains by using cadmium or zinc resistance as a selectable marker, new prospects to intensify and diversify the production of aroma compounds in cheese	
1.4.3.10	putrescine oxidase	food industry	the immobilized enzyme may be used as a sensor for analysis of beer samples	
1.4.3.11	L-glutamate oxidase	food industry	development of a polarographic biosensor for monosodium glutamate by immobilizing L-GLOD on polycarbonate membrane and attached with oxygen electrode with a push cap system, usage of the membrane for over 20 measurements, showing stability	
1.4.3.22	diamine oxidase	food industry	degradation of biogenic amines	
1.8.2.1	sulfite dehydrogenase (cytochrome)	food industry	an electrochemical sulfite biosensor with SDH can be applied to the determination of sulfite in beer and wine samples	
1.8.2.1	sulfite dehydrogenase (cytochrome)	food industry	the enzyme is used in biosensors for sulfite determination in wine samples	
1.8.3.1	sulfite oxidase	food industry	artificial ETC composed of cytochrome c and sulfite oxidase formed by the layer-by-layer technique using a polyelectrolyte. The multilayer technology, e.g. sulfite oxidase-cyt c multilayer electrode may act as an anode in a bio-fuel cell and furthermore such multilayers may be exploited as a biosensor for the detection of sulfite, which is used as a preservative in wine and other foodstuffs	
1.8.3.1	sulfite oxidase	food industry	biosensor for detection of sulfite in food and beverages	
1.8.3.1	sulfite oxidase	food industry	useful for establishing biosensor systems for detection of sulfite in food and beverages considering the high sensitivity of biosensors and the increasing demand for such biosensor devices	
1.8.3.2	thiol oxidase	food industry	application in flour-processing industry. Supplementation with recombinant rice quiescin sulfhydryl oxidase (rQSOX) improves the farinograph properties of dough, indicated by the increased dough stability time and decreases degree of softening, and enhanced viscoelastic properties of the dough. Addition of rQSOX (10 IU/g flour) provides remarkable improvement in specific volume (37%) and springiness (17%) of the steamed bread, and significantly reduces the hardness by half, which is attributed to the strengthened gluten network	
1.10.3.1	catechol oxidase	food industry	PPO functions as an essential factor in the quality development of semi-finished tea products, especially black tea and Oolong tea	
1.10.3.1	catechol oxidase	food industry	inhibition of catechol oxidase diminishes browning in Ataulfo mango and elevates food quality	
1.10.3.1	catechol oxidase	food industry	inhibition of catechol oxidase diminishes browning in white radish and elevates food quality	
1.10.3.1	catechol oxidase	food industry	inhibition of enzyme PPO is important in the food industry, due its role in browning	
1.10.3.2	laccase	food industry	both laccase and tyrosinase increase the dough strength and improved the bread-making quality of white wheat flour breads, especially when used in combination with xylanase	
1.10.3.2	laccase	food industry	potential for bioconversion of lignin rich agricultural byproducts into animal feed and cellulosic ethanol. The enzyme effectively improves in vitro digestibility of maize straw	
1.10.3.3	L-ascorbate oxidase	food industry	the food enzyme is intended to be used in baking processes and cereal-based processes. It does not raise safety concerns under the intended conditions of use	
1.11.1.7	peroxidase	food industry	preservation of raw milk, yoghurt, and cheese	
1.11.1.7	peroxidase	food industry	study of kinetic characterization, thermal stability and synergistic effect of temperature and pH for peroxidase (POD) and pectin methylesterase (PME) in tomato puree. Inactivation of both enzymes is very important, since these enzymes can have very negative effects on the color, odor, flavor and texture of juices and vegetable beverages during storage. The browning and loss of stability in juices and vegetable beverages, such as tomato puree, can be controlled by applying temperature and pH combinations capable of inactivating these enzymes in a total or partial way, but while respecting the limits organoleptic and legal for juices and vegetable beverages	
1.13.11.12	linoleate 13S-lipoxygenase	food industry	lipoxygenase is widely used in food industry to improve aroma, rheological, or baking properties of foods	
1.13.11.12	linoleate 13S-lipoxygenase	food industry	addition of LOX1 and LOX2 altered the elasticity as well as viscosity of dough prepared from bleached wheat flour, LOX improves the dough rheology	
1.14.18.1	tyrosinase	food industry	browning in fruits and vegetables is recognized as a serious problem in the food industry. Further studies are warranted to understand the PPO inhibitor in relation to the browning reaction of fruit during storage and processing	
1.14.18.1	tyrosinase	food industry	inhibitors have good potential as antibrowning agents to be applied in real food systems	
1.14.18.1	tyrosinase	food industry	PPO is a very important enzyme in the food industry because during the processing of fruits and vegetables any wounding may cause cell disruption and lead to the formation of quinones, and their interaction with amino acids and proteins will enhance the brown color produced	
1.14.18.1	tyrosinase	food industry	the presence of this enzyme has a large impact in the food industry because it is the main enzyme involved in the undesirable browning of fruits and vegetables during processing and storage	
1.14.18.1	tyrosinase	food industry	the enzymatic properties of PPO probably provide practical application in inhibiting the PPO activity and preventing enzymatic browning in the process of picking, transportation, processing and storage of fresh lotus seeds	
1.14.19.47	acyl-lipid (9-3)-desaturase	food industry	product yields are markedly enhanced by codon optimization of the Pythium gene. The redundancy in substrate utilization of the enzyme the codon-optimized gene can be exploited as potential genetic tool for production of nutritionally important polyunsaturated fatty acids by reconstituting fatty acid profile in biological systems of commercial interest through n-3 or n-6 pathway	
2.1.1.5	betaine-homocysteine S-methyltransferase	food industry	compared with the prepartum level, overall BHMT expression and enzyme activity increases 0.7-fold and 1.7-fold, respectively, soon after parturition. There is no overall effect of methionine or choline supplementation for BHMT expression or BHMT enzyme activity	
2.1.1.159	theobromine synthase	food industry	large-scale production of transgenic enzyme-deficient Coffea arabica and Camellia sinensis plants are a practical possibilty for production of decaffeinated coffee or tea	
2.1.1.159	theobromine synthase	food industry	treatment of endosperms with 0.05 mM salicylic acid leads to 11.8% increase in theobromine content. Caffeine shows an increase in both methyl jasmonate (14.4% increase) and salicylic acid (50 microM, 14.8% increase) treatments	
2.1.1.160	caffeine synthase	food industry	large-scale production of transgenic enzyme-deficient Coffea arabica and Camellia sinensis plants are a practical possibilty for production of decaffeinated coffee or tea	
2.1.1.160	caffeine synthase	food industry	producing low-caffeine tea through post-transcriptional silencing of caffeine synthase mRNA	
2.1.1.160	caffeine synthase	food industry	treatment of endosperms with 0.05 mM salicylic acid leads to 11.8% increase in theobromine content. Caffeine shows an increase in both methyl jasmonate (14.4% increase) and salicylic acid (50 microM, 14.8% increase) treatments	
2.3.1.7	carnitine O-acetyltransferase	food industry	modulating aroma compounds during wine fermentation by manipulating carnitine acetyltransferases in Saccharomyces cerevisiae	
2.3.1.84	alcohol O-acetyltransferase	food industry	after 5 days of fermentation, the concentrations of ethyl acetate, isoamyl acetate, and isobutyl acetate in yellow rice wines fermented with yeasts overexpressing isoform ATF2 increase to 137.79 mg/L (an approximate 4.9fold increase relative to the parent cell), 26.68 mg/L, and 7.60 mg/L, respectively	
2.3.1.165	6-methylsalicylic-acid synthase	food industry	the identified genes can be used as a target for PCR-based methodologies to detect the fungi responsible for producing patulin in the foodstuffs	
2.3.2.2	gamma-glutamyltransferase	food industry	development of an enzymatic method involving Bacillus licheniformis GGT (BlGGT) for the synthesis of gamma-glutamyl-L-leucine (gamma-Glu-Leu) from glutamine and leucine, since the mass production of Kokumi peptides from natural resources in high purity generally involves several tedious and inefficient operation processes. Parameter optimization of the BlGGT-catalyzed reaction for the biocatalytic synthesis of this Kokumi-imparting molecule	
2.3.2.2	gamma-glutamyltransferase	food industry	GGT has gained importance as a biotechnologically important catalyst in food sector. In food sector, GGT enzyme finds application in soy sauce industry, debittering of amino acids, synthesis of flavor enhancer, and nutraceutical peptides such as L-theanine	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	enzyme-catalyzed cross-linking is effective in improving functional properties of stirred yak yoghurt (treated yoghurt produces a strong acid gel, higher consistency, cohesiveness, index of viscosity, and creamier mouth feel than the untreated product). Furtermore, enzyme-treated yak yoghurt presents lower wet yak hair or sweat odor, or both.	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	gelatin is a soluble protein prepared by partial hydrolysis of collagen with widespread utility in food industry, and TGase has been used to enzymatically modify gelatin by forming cross-links to enhance its rheological properties. Gelatin can set to elastic gel on cooling below 35°C from disordered molecules to ordered network predominantly by hydrogen bonds, where TGase introduces additional covalent cross-linkages to improve gelation. Addition of TGase from Euphausia superba at 0.1 U/mg increases the gel strength, setting temperature, setting time, and melting temperature of cold-set gelatin gel. Properties of gelatin with addition of TGase purified from Antarctic krill, overview	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	microbial transglutaminase (MTG) is an enzyme widely used in the food industry	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	potential application of AcTG-1 as a biological cross-linker in the food industry, once binding occurs, fish fillets withstand further processing such as frying, boiling, freeze-thawing and chilling. The low-temperature activity and enzymatic properties of AcTG-1 appear to offer advantages over commercially available enzymatic glues in the food industry, overview	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	recombinant enzyme TGZo from Zea mays is suitable for food processing. Cross-linking in proteins by TGase leads to the change of protein functionalities such as water-holding capacity, solubility, gelation property, emulsifying capacity, and nutritional value. TGZo from Zea mays is tested for cow milk yoghurt production, method evaluation, overview. Plackett-Burman design and response surface methodolog. Texture analysis of cow milk yogurts cross-linked by different concentrations of TGZo	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	the enzyme is important in the food industry	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	the enzyme is widely exploited in the meat processing industries. Enzyme mTGase is also widely applied in other food and textile industries by catalysing the formation of isopeptide bonds between peptides or protein substrates	
2.3.2.13	protein-glutamine gamma-glutamyltransferase	food industry	transglutaminase MTG-TX can be used in food-related applications in salty environment, e.g. bacon or seafood	
2.3.3.10	hydroxymethylglutaryl-CoA synthase	food industry	overexpression of Brassica juncea wild-type and mutant (S359A) 3-hydroxy-3-methylglutaryl-coenzyme A synthase in Solanum lycopersicum, causes an accumulation of mevalonate-derived squalene and phytosterols, as well as methylerythritol phosphate (methylerythritol phosphate)-derived alpha-tocopherol (vitamin E) and carotenoids. Genes associated with the biosyntheses of C10, C15 and C20 universal precursors of isoprenoids, phytosterols, brassino-steroids, dolichols, methylerythritol phosphate, carotenoid and vitamin E are upregulated. In S359A tomato fruits, increased squalene and phytosterol contents over wild-type fruits are attributed to heightened SlHMGR2, SlFPS1, SlSQS and SlCYP710A11 expression. In both tomato wild-type and S359A fruits, the up-regulation of SlGPS and SlGGPPS1 in the mevalonate pathway that leads to alpha-tocopherol and carotenoid accumulation indicates cross-talk between the mevalonate and methylerythritol phosphate pathways. The manipulation of Brassica juncea 3-hydroxy-3-methylglutaryl-coenzyme A synthase 1 (HMGS1) represents a promising strategy to simultaneously elevate health-promoting squalene, phytosterols, alpha-tocopherol and carotenoids in tomato, an edible fruit	
2.3.3.13	2-isopropylmalate synthase	food industry	in mutant strain T25 with L-leucine accumulation, a hetero allelic mutation in the LEU4 gene encoding the Gly516Ser variant alpha-isopropylmalate synthase is found. alpha-Isopropylmalate synthase activity of the Gly516Ser variant is less sensitive to feedback inhibition by L-leucine, leading to intracellular L-leucine accumulation. In a laboratory-scale test, awamori (a distilled alcoholic beverage made from steamed rice,) brewed with strain T25 shows higher concentrations of isoamyl alcohol and isoamyl acetate than that brewed with strain HC02-5-2. Such a combinatorial approach to yeast isolation, with whole genome analysis and metabolism-focused breeding, has the potentials to vary the quality of alcoholic beverages	
2.4.1.4	amylosucrase	food industry	amylosucrase has great potential in the biotechnology and food industries, due to its multifunctional enzyme activities. It can synthesize alpha-1,4-glucans, like amylose, from sucrose as a sole substrate. It can also utilize various other molecules as acceptors. In addition, amylosucrase produces sucrose isomers such as turanose and trehalulose. It also efficiently synthesizes modified starch with increased ratios of slow digestive starch and resistant starch, and glucosylated functional compounds with increased water solubility and stability. It produces turnaose more efficiently than other carbohydrate-active enzymes. Amylose synthesized by amylosucrase forms microparticles and these can be utilized as biocompatible materials with various bio-applications, including drug delivery, chromatography, and bioanalytical sciences	
2.4.1.4	amylosucrase	food industry	cyclodextrins are frequently utilized chemical substances in the food, pharmaceutical, cosmetics, and chemical industries. An enzymatic process for cyclodextrin production is developed by utilizing sucrose as raw material instead of corn starch. Cyclodextrin glucanotransferase from Paenibacillus macerans is applied to produce the cyclodextrins from linear alpha-(1,4)-glucans, which are obtained by Neisseria polysaccharea amylosucrase treatment on sucrose. The greatest cyclodextrin yield (21.1%, w/w) is achieved from a one-pot dual enzyme reaction at 40°C for 24 h. The maximum level of cyclodextrin production (15.1 mg/ml) is achieved with 0.5 M sucrose in a simultaneous mode of dual enzyme reaction, whereas the reaction with 0.1 M sucrose is the most efficient with regard to conversion yield. Dual enzyme synthesis of cyclodextrins is successfully carried out with no need of starch material. Efficient bioconversion process that does not require the high temperature necessary for starch liquefaction by thermostable alpha-amylase in conventional industrial processing	
2.4.1.4	amylosucrase	food industry	the enzyme be a promising candidate for food industrial production of linear alpha-(1,4)-glucans and turanose as a next generation sweetener	
2.4.1.4	amylosucrase	food industry	the study investigates the differences in structural and physicochemical properties, especially contents of resistant starch, between native and acid-thinned waxy corn starches treated with amylosucrase from Neisseria polysaccharea. The enzyme exhibits similar catalytic efficiency for both forms of starch. The modified starches have higher proportions of long (DP > 33) and intermediate chains (DP 13-33), and X-ray diffraction showesa B-type crystalline structure for all modified starches. With increasing reaction time, the relative crystallinity and endothermic enthalpy of the modified starches gradually decreases, whereas the melting peak temperatures and resistant starch contents increases. Slight differences are observed in thermal parameters, relative crystallinity, and branch chain length distribution between the modified native and acid-thinned starches. The digestibility of the modified starches is not affected by acid hydrolysis pretreatment, but is affected by the percentage of intermediate and long chains	
2.4.1.5	dextransucrase	food industry	the enzyme is used to produce kimchi in a fermentation process, which is improved by addition of Ca2+ salts that reduce lactic acid and elevate the pH for optimal activity of Leuconostoc bacteria	
2.4.1.5	dextransucrase	food industry	the dextransucrase is responsible for production of dextran with predominant alpha-(1->6) linkages that might find applications as food hydrocolloids	
2.4.1.5	dextransucrase	food industry	the enzyme from Weissella confusa strain VTT E-90392 is useful in dextran production during sour dough production. The hydrocolloidal properties of dextran can facilitate a more substantial use of wheat bran and counter the negative effects of bran on bread quality, optimization of enzymatic dextran production in wheat bran	
2.4.1.5	dextransucrase	food industry	the enzyme is a good food additive for improving the textures of dairy products due to dextran synthesis, e.g. solidification of sucrose-supplemented milk by the enzyme	
2.4.1.5	dextransucrase	food industry	the exopolysaccharides of Lactobacillus animalis TMW 1.971 improve the quality of gluten-free breads, they can be produced in situ to levels enabling baking applications	
2.4.1.5	dextransucrase	food industry	the exopolysaccharides of Lactobacillus curvatus TMW 1.624 improve the quality of gluten-free breads, they can be produced in situ to levels enabling baking applications	
2.4.1.5	dextransucrase	food industry	the exopolysaccharides of Lactobacillus reuteri TMW 1.106 improve the quality of gluten-free breads, they can be produced in situ to levels enabling baking applications	
2.4.1.5	dextransucrase	food industry	biocatalytic conversion of sucrose into highly porous dextran. Response surface methodology is performed to optimize production conditions. Enhanced biocatalytic efficiency of 4.62fold is observed. The biopolymer produced under the optimized model can be utilized as an emulsifying, gelling, stabilizing and thickening agent in food industry	
2.4.1.5	dextransucrase	food industry	efficient production of prebiotic glucooligosaccharides in orange juice using immobilized and co-immobilized dextransucrase. Immobilization enhances the operational and storage stability of dextransucrase. Two hundred milligrammes (2.4 IU/mg) of alginate beads (immobilized and co-immobilized) are found to be optimum for the production of glucooligosaccharides (GOS) in orange juice with a high degree of polymerization. The pulp of the orange juice does not interfere in the reaction. In the batch process, coimmobilized dextransucrase (41 g/l) produced a significantly higher amount of GOS than immobilized dextransucrase (37 g/l). Alginate entrapment enhances the thermal stability of dextransucrase for up to 3 days in orange juice at 30°C. The production of GOS in semicontinuous process is 39 g/l in coimmobilized dextransucrase and 33 g/l in immobilized dextransucrase	
2.4.1.5	dextransucrase	food industry	immobilized enzyme is used successfully in synthesis of dextran and maltooligosaccharide with good prebiotic and fibrinolytic activities. Dextran 38397 and 125471 Da are yielded at enzyme protein concentration 4.78 and 5.78 mg, respectively. Proper dextrans (73378 and 117521 Da) demanded in pharmaceutical applications are achieved at 6% and 12% sucrose concentrations and at 4.78 and 5.78 mg enzyme protein concentration, respectively. Optimum temperature for conversion of glucose to dextran is 30°C (73% and 80% at 5.78 and 4.78 mg enzyme protein concentration, respectively). Varieties of maltooligosaccharides are yielded by synergistic cooperation between sucrose and maltose. Six maltooligosaccharide and three dextrans samples in vitro have prebiotic effect on Lactobacillus casei with degree of variation. Two samples of maltooligosaccharide with different degree of polymerization (DP) and three samples of dextran with different molecular weight (MW) reported different fibrinolytic activity	
2.4.1.5	dextransucrase	food industry	important enzyme in food industry. Ultrasound is a tool for increasing the activity, thermal stability and rate of catalysis of dextransucrase and supplies a potential method for expanding the application of dextransucrase	
2.4.1.5	dextransucrase	food industry	synthesis of caffeic acid-3-O-alpha-D-glucopyranoside. The production of caffeic acid-3-O-alpha-D-glucopyranoside at a concentration of 153 mM is optimized using 325 mM caffeic acid, 355 mM sucrose, and 650 mU/ml dextransucrase in the synthesis reaction. In comparison with the caffeic acid, the caffeic acid-3-O-alpha-D-glucopyranoside displays 3fold higher water solubility, 1.66fold higher antilipid peroxidation effect, 15% stronger inhibition of colon cancer cell growth, and 11.5fold higher browning resistance. These results indicate that caffeic acid-3-O-alpha-D-glucopyranoside may be a suitable functional component of food and pharmaceutical products	
2.4.1.5	dextransucrase	food industry	synthesis of chlorogenic acid-4'-O-alpha-D-glucopyranoside, which is a functional component that may be used in the food or pharmaceutical industry. It displays greater physical properties, anti-lipid peroxidation effect, and growth inhibition of colon cancer cell than those of chlorogenic acid	
2.4.1.5	dextransucrase	food industry	synthesis of glucosylated steviosides, which are more stable at pH 2, 60°C for 48 h than stevioside	
2.4.1.5	dextransucrase	food industry	the enzyme catalzes the in vitro synthesis of prebiotic oligosaccharides in mango and pineapple juices. Sucrose content of the juices is eliminated resulting in its lower calorific value. Potential of dextransucrase for production of functional foods	
2.4.1.5	dextransucrase	food industry	the enzyme synthesizes dextran and oligosaccharides, which act as prebiotics and are popularly used in such industries as food and medicine	
2.4.1.10	levansucrase	food industry	lactosucrose, a rare trisaccharide formed from sucrose and lactose by enzymatic transglycosylation, is a type of indigestible carbohydrate with a good prebiotic effect. Lactosucrose biosynthesis is efficiently carried out by a purified levansucrase from Leuconostoc mesenteroides B-512	
2.4.1.10	levansucrase	food industry	the enzyme is interesting in food and pharmaceutical industries for synthesis of diverse sucrose analogues, hetero-oligosaccharides (especially lactosucrose), and interesting fructosides from a wide range of substrates, i.e. monosaccharides, disaccharides, and aromatic and alkyl alcohols	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	involved in the synthesis of highly-branched cyclic dextrin, a dextrin food ingredient	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	production of food ingredients	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	starch processiong to synthesize a food ingredient, highly branched cyclic dextrin	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	analyzation and characterization of reaction products of branching enzymes from different sources for starch processing to synthesize the food ingredient, highly branched cyclic dextrin	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	analyzation and characterization of reaction products of branching enzymes from different sources for starch processing to synthesize the food ingredient, highly branched cyclic dextrin. The amount of short chains with a degree of polymerization of 6-8 is signifi cantly increased in the product of Bacillus cereus	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	analyzation and characterization of reaction products of branching enzymes from different sources for starch processing to synthesize the food ingredient, highly branched cyclic dextrin. The amount of short chains with a degree of polymerization of 6-8 is significantly increased in the product of Phaseolus vulgaris	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	addition of RmGBE to wheat bread results in a 26% increase in specific volume and a 38% decrease in crumb firmness in comparison with the control. Besides, the retrogradation of bread is significantly retarded along with the enzyme reaction. These properties make RmGBE highly useful in the food and starch industries	
2.4.1.18	1,4-alpha-glucan branching enzyme	food industry	addition of enzyme to wheat bread increases specific volume and decreases crumb firmness during bread storage. In addition, the enzyme can significantly retard the retrogradation and improve the quality of bread