2.4.1.140: alternansucrase
This is an abbreviated version!
For detailed information about alternansucrase, go to the full flat file.
Word Map on EC 2.4.1.140
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2.4.1.140
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leuconostoc
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mesenteroides
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lactobacillus
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dextrans
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glucosylated
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dextransucrase
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prebiotic
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citreum
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gluco-oligosaccharides
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reuteransucrase
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reuteran
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glucosyltransferases
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weissella
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confusa
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levansucrase
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cibaria
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alpha-d-glucans
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glucan-binding
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downei
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homopolysaccharide
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fructansucrase
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transglucosylation
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alpha-1,6
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synthesis
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drug development
- 2.4.1.140
- leuconostoc
- mesenteroides
- lactobacillus
- dextrans
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glucosylated
- dextransucrase
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prebiotic
- citreum
- gluco-oligosaccharides
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reuteransucrase
-
reuteran
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glucosyltransferases
- weissella
- confusa
- levansucrase
- cibaria
- alpha-d-glucans
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glucan-binding
- downei
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homopolysaccharide
- fructansucrase
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transglucosylation
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alpha-1,6
- synthesis
- drug development
Reaction
+ 2 sucrose = + 2 beta-D-fructofuranose
Synonyms
alternansucrase, ASR, glucansucrase, glucosyltransferase, sucrose-1,6(3)-alpha-glucan 6(3)-alpha-, Lcalt, sucrose:1,6-, 1,3-alpha-D-glucan 3-alpha- and 6-alpha-D-glucosyltransferase
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Application
Application on EC 2.4.1.140 - alternansucrase
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drug development
synthesis
additional information
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formation of oligosaccharides by alternansucrase may serve as prebiotics
drug development
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formation of oligosaccharides by alternansucrase may serve as prebiotics
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modification of bacterial cellulose using sucrose, dextransucrase from Leuconostoc mesenteroides B-742CMB and alternansucrase from Leuconostoc B-1355C. This modification method produces a new bacterial cellulose that has a unique structure and probably new property
synthesis
alternan polymer is more water soluble and less viscous than dextrans, making it a good substitute for Arabic gum. Nanoparticles and films have been obtained with alternan produced by Leuconostoc citreum ABK-1 alternansucrase, thereby opening up other potential applications in nanotechnology
synthesis
alternansucrase enzyme from Leuconostoc citreum SK24.002 is used to produce di-glycosyl-stevioside through acceptor reaction, optimized method, overview
synthesis
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alternansucrase enzyme from Leuconostoc citreum SK24.002 is used to produce di-glycosyl-stevioside through acceptor reaction, optimized method, overview
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synthesis
Leuconostoc citreum NRRL B-1355
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alternan polymer is more water soluble and less viscous than dextrans, making it a good substitute for Arabic gum. Nanoparticles and films have been obtained with alternan produced by Leuconostoc citreum ABK-1 alternansucrase, thereby opening up other potential applications in nanotechnology
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the enzyme is utilised in the biotransformation of stevioside to fully or partially remove the bitter taste of the stevioside, 13-O-beta-sophorosyl-19-O-beta-D-glucosyl-steviol, a non-cariogenic and low-calorigenic diterpenoid glycoside with a bitter taste and a bad aftertaste, from the leaves of Stevia rebaudiana, commercially used as a low calorie and a non-cariogenic sweetener. Effects of reaction condition and enzyme concentration on biotransformation, overview
additional information
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the enzyme is utilised in the biotransformation of stevioside to fully or partially remove the bitter taste of the stevioside, 13-O-beta-sophorosyl-19-O-beta-D-glucosyl-steviol, a non-cariogenic and low-calorigenic diterpenoid glycoside with a bitter taste and a bad aftertaste, from the leaves of Stevia rebaudiana, commercially used as a low calorie and a non-cariogenic sweetener. Effects of reaction condition and enzyme concentration on biotransformation, overview
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