EC Number |
Natural Substrates |
---|
3.2.1.33 | alpha-(1-6)-glucosyl cyclohexaamylose + H2O |
- |
3.2.1.33 | amylopectin + H2O |
- |
3.2.1.33 | glycogen + H2O |
total degradation of glycogen requires combined actions of glycogen phosphorylase and glucosidase/transferase. Glucosidase/transferase: regulatory role of glycogen metabolism in liver |
3.2.1.33 | glycogen phosphorylase-limit dextrin + H2O |
- |
3.2.1.33 | glycogen phosphorylase-limit dextrin + H2O |
symmetric dextrin |
3.2.1.33 | glycogen phosphorylase-limit dextrin + H2O |
phi-dextrin |
3.2.1.33 | glycogen phosphorylase-limit dextrin + H2O |
total degradation of glycogen is accomplished by the combined action of glycogen phosphorylase and glycogen debranching enzyme |
3.2.1.33 | more |
glycogen debranching enzyme might play an important role in the structure of glycogen particles, or the control of its metabolism |
3.2.1.33 | more |
glycogen debranching system may be regarded as an integral part of the overall phosphorolytic pathway for the degradation of glycogen |
3.2.1.33 | more |
glycogen debranching system, indirect debranching enzymes, is the dominant type of glycogen debranching mechanism, where glycogen is stored |