| Process of glycolysis | Enzyme |
|---|
| This enzyme relocates the phosphate group in each substrate. | |
| This enzyme particpates in substrate-level phosphorylation by transferring a phosphate group from each phosphoenolpyruvate molecule to 2 ADP molecules, yielding 2 ATP molecules. | |
| This enzyme cleaves the sugar molecule into 2 different three-carbon sugars, glyceraldehyde-3-phosphate and dihydroxyacetone phosphate) | |
| Glucose enters the cell and is phosphorylated by _______. | |
| This enzyme catalyzes the reversible reaction between G-3-P and dihydroxyacetone phosphate | |
| This enzyme uses the released energy from a previous redox reaction to attach 2 phosphate groups to the substrate sugar, making a product of very high potential energy. | |
| This enzyme catalyzes the oxidation of 2 G-3-P molecules by the transfer of 2 electrons and 2H+ ions to 2NAD+, forming 2NADH and 2H+ ions. | |
| Glucose-6-phosphate is converted to its isomer, fructose-6-phosphate by ______ | |
| This enzyme extracts a water molecule from each substrate, causing double bonds to form and increasing potential energy of each substrate. | |
| This enzyme participates in substrate-level phosphorylation by transferring 2 phosphate groups to 2 ADP molecules, yielding 2 ATP molecules. | |
| ______ transfers a phosphate group to fructose-6-phosphate | |
Periodic Table
Multiplication Table
Minute Math (Addition)
