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What is ATP cycle?
Work consumes ATP, which is then regenerated from ADP and phosphate.
What important molecule is regenerated in fermentation and respiration?
Both of these processes make ATP which are required by cells as a source of energy. Fermentation is very inefficient at producing ATP compared to aerobic respiration, but ATP is still produced, nonetheless.
When is creatine phosphate regenerated?
Creatine phosphate is regenerated during rest or low-intensity exercise when ATP levels are sufficient. During these periods, creatine kinase catalyzes the transfer of a phosphate group from ATP to creatine to regenerate creatine phosphate.
How is NADPH and ATP recycled throughout photosynthesis?
During photosynthesis, NADPH and ATP are recycled through the light-dependent reactions. NADPH is regenerated through the reduction of NADP+ by electrons from water in the electron transport chain. ATP is regenerated through the phosphorylation of ADP using energy from electron transport chain.
What would happen in fermentation if NAD plus is not regenerated?
If NAD+ is not regenerated during fermentation, glycolysis would be blocked as it depends on the continuous regeneration of NAD+ to continue producing ATP. Without NAD+, the conversion of pyruvate into lactate or ethanol would not occur, leading to a buildup of pyruvate and ultimately halting the production of ATP in the absence of oxygen.
What is the fate of the NAD newly regenerated by fermentation?
The NAD+ regenerated by fermentation is essential for maintaining glycolysis under anaerobic conditions. During fermentation, NADH produced in glycolysis is oxidized back to NAD+ as pyruvate is converted into byproducts like lactic acid or ethanol. This recycling of NAD+ allows glycolysis to continue producing ATP, which is vital for cellular energy, even in the absence of oxygen. Ultimately, the fate of regenerated NAD+ is to sustain metabolic processes that rely on anaerobic ATP production.
Which high energy electrocarrier is regenerated during fermentation that allows cells to continue to make ATP using glycolysis?
everything is true execpt th e "NADPH" part. It's NADH not NADPH. hope this helps:)
What molecules do muscles get most of their energy from?
Muscles primarily get their energy from adenosine triphosphate (ATP) molecules. ATP is produced through the breakdown of glucose or fatty acids during cellular respiration. Once ATP is used for muscle contractions, it can be regenerated through various energy-producing processes in the body.
Is ATP the most abundant energy source for muscle contraction?
Yes, ATP is the primary energy source for muscle contraction. During intense exercise, ATP stored within the muscle cells is rapidly depleted and must be regenerated through metabolic pathways to sustain muscle contractions.
Can a creature in Magic: The Gathering be regenerated if it has the ability "can't be regenerated"?
No, a creature in Magic: The Gathering cannot be regenerated if it has the ability "can't be regenerated."
How is ATP adapted to its function?
The breaking of a single phosphate from ATP produces 34kJ of energy .. Readily available ... Relatively small .. Easy to form and regenerated ..from ADP to ATP and viceversa
How is ATP like a rechargeable battery?
ATP is like a rechargeable battery because it stores and releases energy for cellular processes. Just like a battery can be charged and then used to power devices, ATP can be produced through cellular respiration and then used to fuel various cellular activities before being regenerated.
