The number of ATP molecules during aerobic respiration
30
36
38
40
The chemiosmotic coupling hypothesis of oxidative phosphorylation proposes that Adenosine Triphosphate (ATP) is formed because
high energy bonds are formed in mitochondrial proteins
ADP is pumped out of the matrix into the intermembrane space
a proton gradient forms across the inner membrane
there is a change in the permeability of the inner mitochondrial membrane toward Adenosine Diphosphate(ADP)
NADP+ is reduced to NADPH in
HMP
Calvin cycle
glycolysis
EMP
During conversion of pyruvic acid into acetyl Co-A, pyruvic acid is
oxidised
reduced
isomerised
condensed
Fermentation products of yeast are
H2O+CO2
methyl alcohol+CO2
methyl alcohol+H2O
ethyl alcohol+Co2
Life without air would be
reductional
free from oxidative damage
impossible
anaerobic
The number of glucose molecules required to produced 38 ATP molecules under anaerobic conditions by any yeast cell is
1
2
19
At a temperature above 350C
rate of photosynthesis will decline earlier than that of respiration
rate of respiration will decline earlier than that of photosynthesis
there is no fixed pattern
both decline simultaneously
End product of glycolysis is
acetyl Co-A
pyruvic acid
glucose 1-phosphate
fructose 1-phosphate
Site of respiration in bacteria is
episome
ribosome
mesosome
microsome
