NADH
No; and those that do not are called anoxic steps.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
Enzyme ATPase is involved. It binds ADP and Pi
Lactic acid.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
The steps of cellular respiration is different when it is anaerobic respiration compared to aerobic respiration. The main difference is because aerobic respiration uses oxygen and anaerobic uses other elements but the other steps are similar.
No they do not have. They are in chloroplasts
Via the enzyme 'pyruvate kinase' , phosphoenolpyruvate is combined with Adp and Pi to {100%} YIELD pyruvate [pyruvic acid] and Atp. Starting from Glucose, there are at least six separate [because each step "has" its own Enzyme to THOROUGHLY control the yield of the reaction] steps that precede the above.
The two main steps in respiration are called glycolysis and aerobic respiration. Glycolysis occurs in the cytoplasm and involves breaking down glucose into pyruvate. Aerobic respiration then takes place in the mitochondria, where pyruvate is further broken down in the presence of oxygen to produce ATP.
Respiration rate is linked to enzyme activity because enzymes play a crucial role in catalyzing the chemical reactions involved in respiration. Enzymes are needed to break down substrates into products, releasing energy that drives cellular respiration. Therefore, any changes in enzyme activity can directly impact respiration rate, affecting the overall metabolic processes of the organism.
No, oxygen is not an enzyme. Oxygen is a gas that is essential for life as it is involved in the process of respiration, but it does not function as an enzyme. Enzymes are proteins that act as catalysts for chemical reactions in living organisms.