A. | Cellular respiration is the breaking of C-C bonds of complex organic molecules by oxidation. |
B. | The entire cellular respiration takes place in mitochondria. |
C. | Fermentation takes place under anaerobic conditions in germinating seeds. |
D. | The fate of pyruvate formed during glycolysis depends on the type of organism also. |
E. | \(O_2\) accepting electrons and getting reduced. | Water is formed during respiration as a result of
List I | List II | ||
A. | Oxidative decarboxylation | I. | Citrate synthase |
B. | Glycolysis | II. | Pyruvate dehydrogenase |
C. | Oxidative phosphorylation | III. | Electron transport system |
D. | Tricarboxylic acid cycle | IV. | EMP pathway |
Options: | A | B | C | D |
1. | II | IV | III | I |
2. | III | IV | II | I |
3. | II | IV | I | III |
4. | III | I | II | IV |
Pyruvate dehydrogenase activity during aerobic respiration requires:
1. Calcium
2. Iron
3. Cobalt
4. Magnesium
1. | It functions as an enzyme |
2. | It functions as an electron carrier |
3. | It is a nucleotide source for ATP synthesis |
4. | It is the final electron acceptor for anaerobic respiration |
How many ATP molecules are produced by the Aerobic oxidation of one molecule of glucose:
1. 2
2. 4
3. 38
4. 34
Which of the following yield maximum energy?
1. By glycolysis in a sprinter
2. Aerobic respiration in germinating seeds
3. Fermentation by yeast
4. Anaerobic respiration