1. Glucose
2. Cytochrome
3. Acetyl Co A
4. Pyruvic acid
Acetyl Co A
1. O2 and ethyl alcohol
2. O2 and acetaldehyde
3. CO2 and ethyl alcohol
4. CO2 and acetaldehyde
CO2 and ethyl alcohol
1. 20 ATP
2. 36 ATP
3. 38 ATP
4. 56 ATP
36 ATP
1. Cyt a
2. Cyt b
3. Cyt b6
4. Cyt a3
Cyt a3
1. Starch
2. Protein
3. Glucose
4. Sucrose
Glucose
1. Incomplete reduction
2. Complete reduction
3. Incomplete oxidation
4. Complete oxidation
Incomplete oxidation
1. NADPH2 in respiration
2. ATP in respiration
3. NADPH2 in photosynthesis
4. ATP in photosynthesis
ATP in respiration
1. Same as in glycolysis
2. Less than glycolysis
3. More than glycolysis
4. Much lesser than glycolysis
More than glycolysis
1. A contractile protein capable of utilizing ATP has been obtained from mitochondria
2. Mitochondria have a highly folded inner wall
3. Disruption of mitochondria yields membrane fragments which are able to synthesize ATP
4. Mitochondria in animal embryos have a tendency to concentrate in cells which are to become part of locomotory structures
Disruption of mitochondria yields membrane fragments which are able to synthesize ATP
1. Glycolysis in skeletal muscle of a sprinter
2. Fermentation into ethanol by yeast
3. Fermentation into methanol by enteric bacteria
4. Aerobic respiration
Aerobic respiration