Chemiosmotic theory of ATP synthesis in the chloroplast and mitochondria is based on
membrane potential
accumulation of Na+ ions
accumulation of K+ ions
proton gradient
NADP+ is reduced to NADPH in
HMP
Calvin cycle
glycolysis
EMP
The pyruvic acid is formed during
Krebs' cycle
Ornithine cycle
photophosphorylation
Oxidative phosphorylation is production of
ATP in photosynthesis
NADPH in photosynthesis
ATP in respiration
NADH in respiration
At the end of glycolysis, six carbon (6-C) compound ultimately changes into
ATP
pyruvic acid
ethyl alcohol
acetyl Co-A
'Carb tree' effect is opposite to
Calvin's effect
Pasteur's effect
Emerson's effect
Blackman's effect
Out of 36 ATP molecules produced per glucose molecule during respiration
2 are produced outside glycolysis and 34 during respiratory chain
2 are produced outside mitochondria and 34 inside mitochondria
2 during glycolysis and 34 during krebs cycle
all are formed inside mitochondria.
ATP was discovered by
Bowman
Blackman
Lipmann
Karl Lohman
Incomplete oxidation of glucose into pyruvic acid with several intermediate steps is known as
TCA pathway
HMS-pathway
Krebs cycle
Total ATP production during EMP pathway is
8 ATP
24 ATP
38 ATP
80 ATP
