2.4.1.B77: alpha-(1->2) branching sucrase
This is an abbreviated version!
For detailed information about alpha-(1->2) branching sucrase, go to the full flat file.
Word Map on EC 2.4.1.B77
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2.4.1.B77
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mesenteroides
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leuconostoc
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alpha-1,2
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dextrans
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u-shape
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glucansucrases
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gorge
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transglucosylation
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dextransucrase
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transglucosidase
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regiospecific
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synthesis
- 2.4.1.B77
-
mesenteroides
-
leuconostoc
-
alpha-1,2
- dextrans
-
u-shape
- glucansucrases
-
gorge
-
transglucosylation
- dextransucrase
- transglucosidase
-
regiospecific
- synthesis
Reaction
Synonyms
BRS-A, DSR-E
ECTree
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General Information
General Information on EC 2.4.1.B77 - alpha-(1->2) branching sucrase
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evolution
additional information
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a distinct subgroup of sucrose-active enzymes is included in the GH70 family, corresponding to enzymes that display no polymerase activity, but efficiently transfer the glucosyl residue from sucrose to linear alpha(1->6) dextrans through the specific formation of single alpha(1->2) or alpha(1->3) linked glucosyl units. They are named branching sucrases (BRSs)
evolution
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a distinct subgroup of sucrose-active enzymes is included in the GH70 family, corresponding to enzymes that display no polymerase activity, but efficiently transfer the glucosyl residue from sucrose to linear alpha(1->6) dextrans through the specific formation of single alpha(1->2) or alpha(1->3) linked glucosyl units. They are named branching sucrases (BRSs)
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evolution
Leuconostoc citreum NRRL B-1299
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a distinct subgroup of sucrose-active enzymes is included in the GH70 family, corresponding to enzymes that display no polymerase activity, but efficiently transfer the glucosyl residue from sucrose to linear alpha(1->6) dextrans through the specific formation of single alpha(1->2) or alpha(1->3) linked glucosyl units. They are named branching sucrases (BRSs)
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branching induces a glass transition (Tg) depression (-10/-20°C) for amylopectin vs amylose and (-5/-10°C) for phytoglycogen vs amylopectin, which can be interpreted in terms of internal plasticization
additional information
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branching induces a glass transition (Tg) depression (-10/-20°C) for amylopectin vs amylose and (-5/-10°C) for phytoglycogen vs amylopectin, which can be interpreted in terms of internal plasticization
-
additional information
Leuconostoc citreum NRRL B-1299
-
branching induces a glass transition (Tg) depression (-10/-20°C) for amylopectin vs amylose and (-5/-10°C) for phytoglycogen vs amylopectin, which can be interpreted in terms of internal plasticization
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