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... electrons through +/- charges These effects reduce G(ES*): covalent bonds, acidbase catalysis, low-barrier hydrogen bonds, and metal ion catalysis Different classes of enzymes may use different mechanisms: 1. Oxidoreductases (oxidation-reduction reactions) 2. Transferases (transfer of functional gro ...
... electrons through +/- charges These effects reduce G(ES*): covalent bonds, acidbase catalysis, low-barrier hydrogen bonds, and metal ion catalysis Different classes of enzymes may use different mechanisms: 1. Oxidoreductases (oxidation-reduction reactions) 2. Transferases (transfer of functional gro ...
Slide 1 - Ommbid.com
... Major pathways in human erythrocytes. The Embden-Meyerhof pathway (glycolytic pathway) converts one molecule of glucose to two molecules of lactate generating two net molecules of ATP. Rapoport-Luebering shunt is a unique pathway to generate 2,3-bisphosphoglycerate. Human erythrocyte hexose monophos ...
... Major pathways in human erythrocytes. The Embden-Meyerhof pathway (glycolytic pathway) converts one molecule of glucose to two molecules of lactate generating two net molecules of ATP. Rapoport-Luebering shunt is a unique pathway to generate 2,3-bisphosphoglycerate. Human erythrocyte hexose monophos ...
Enzyme_Classificn
... ENZYME CLASSIFICATION ANSWERS TO IN-CLASS EXERCISE (1) TRANSFERASE (HEXOKINASE) (2) OXIDOREDUCTASE (ALCOHOL DEHYDROGENASE) (3) HYDROLASE (ATPase) (4) LYASE (PYRUVATE DECARBOXYLASE) (5) LIGASE (PYRUVATE CARBOXYLASE) (6) ISOMERASE (MALEATE ISOMERASE) (7) HYDROLASE (PHOSPHOENOLPYRUVATE ...
... ENZYME CLASSIFICATION ANSWERS TO IN-CLASS EXERCISE (1) TRANSFERASE (HEXOKINASE) (2) OXIDOREDUCTASE (ALCOHOL DEHYDROGENASE) (3) HYDROLASE (ATPase) (4) LYASE (PYRUVATE DECARBOXYLASE) (5) LIGASE (PYRUVATE CARBOXYLASE) (6) ISOMERASE (MALEATE ISOMERASE) (7) HYDROLASE (PHOSPHOENOLPYRUVATE ...
Isomerase
Isomerases are a general class of enzymes which convert a molecule from one isomer to another. Isomerases can either facilitate intramolecular rearrangements in which bonds are broken and formed or they can catalyze conformational changes. The general form of such a reaction is as follows:A–B → B–AThere is only one substrate yielding one product. This product has the same molecular formula as the substrate but differs in bond connectivity or spatial arrangements. Isomerases catalyze reactions across many biological processes, such as in glycolysis and carbohydrate metabolism.