2.4.1.20: cellobiose phosphorylase
This is an abbreviated version!
For detailed information about cellobiose phosphorylase, go to the full flat file.
Word Map on EC 2.4.1.20
-
2.4.1.20
-
phosphorolysis
-
cellodextrins
-
phosphorylases
-
cellvibrio
-
gilvus
-
cellulolytic
-
thermocellum
-
cellulomonas
-
synthesis
-
alpha-d-glucose
-
laminaribiose
-
cellobiose-grown
-
cellotriose
-
alpha-d-glucose-1-phosphate
-
phosphorolyzed
-
6-deoxy-d-glucose
-
analysis
- 2.4.1.20
-
phosphorolysis
- cellodextrins
- phosphorylases
-
cellvibrio
- gilvus
-
cellulolytic
- thermocellum
-
cellulomonas
- synthesis
- alpha-d-glucose
- laminaribiose
-
cellobiose-grown
- cellotriose
- alpha-d-glucose-1-phosphate
-
phosphorolyzed
- 6-deoxy-d-glucose
- analysis
Reaction
Synonyms
Cbp, CbpA, cellobiose phosphorylase A, cellobiose:orthophosphate alpha-D-glucosyltransferase, CPase, CuCbP, GH94 cellobiose phosphorylase, lactose phosphorylase, ra2122, THA_1941, Tm_1848
ECTree
Advanced search results
Organism
Organism on EC 2.4.1.20 - cellobiose phosphorylase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
strain YM4 (AB013109). To convert cellobiose into amylose: the cellobiose phosphorylase catalyzes phosphorolysis of cellobiose into G1-P and glucose, then alpha-glucan phosphorylase catalyses the polymerization of alpha-1,4-glucan, using G1-P as a carbohydrate donor and maltotetraose as the initial carbohydrate acceptor. Thus, glucosyl moieties of cellobiose molecules are successively transferred to the non-reducing ends of glucan to elongate the chain. The optimal conditions are: thirty milligrams per milliliters (87.7 mM) cellobiose, 30 mM sodium phosphate (pH 7.0), 30 microg/ml cellobiose phosphorylase, 30 microg/ml alpha-glucan phosphorylase, and 75 microM maltotetraose are incubated at 45°C
-
-
strain YM4 (AB013109). To convert cellobiose into amylose: the cellobiose phosphorylase catalyzes phosphorolysis of cellobiose into G1-P and glucose, then alpha-glucan phosphorylase catalyses the polymerization of alpha-1,4-glucan, using G1-P as a carbohydrate donor and maltotetraose as the initial carbohydrate acceptor. Thus, glucosyl moieties of cellobiose molecules are successively transferred to the non-reducing ends of glucan to elongate the chain. The optimal conditions are: thirty milligrams per milliliters (87.7 mM) cellobiose, 30 mM sodium phosphate (pH 7.0), 30 microg/ml cellobiose phosphorylase, 30 microg/ml alpha-glucan phosphorylase, and 75 microM maltotetraose are incubated at 45°C
-
-
-
-
-