The overall goal of glycolysis, Krebs cycle and the electron transport system is the formation of
ATP in small stepwise units
ATP in one large oxidation reaction
sugars
nucleic acids
Maximum amount of energy / ATP is liberated on oxidation of
fats
proteins
starch
vitamins
How many ATP molecules could maximally be generated from one molecule of glucose, if the complete oxidation of one mole of glucose to CO2 and H2O yields 686 kcal and the useful chemical energy available in the high energy phosphate bond of one mole of ATP is 12 kcal?
30
57
1
2
End products of aerobic respiration are
sugar and oxygen.
water and energy
carbon dioxide, water and energy.
carbon dioxide and energy
The mechanism of ATP formation both in chloroplast and mitochondria is explained by
relay pump theory of Godlewski
Munch's pressure / mass flow model
chemiosmotic theory of Mitchell
Cholondy - Went's model
Site of respiration in bacteria is
episome
ribosome
mesosome
microsome
Incomplete oxidation of glucose into pyruvic acid with several intermediate steps is known as
TCA-pathway
glycolysis
HMS-pathway
Kerbs cycle.
In glycolysis, during oxidation electrons are removed by
ATP
glyceraldehyde-3-phosphate
NAD+
molecular oxygen
Respiratory substrate yielding maximum number of ATP molecule is
ketogenic amino acids
glucose
amylose
glycogen
Fermentation is anaerobic production of
protein and acetic acid
alcohol, lactic acid or similar compounds.
ethers and acetones
alcohol and lipoproteins.
