yes, it willm, because, celluar respiration is critical for a cell to continue to live
yes, it will, because, celluar respiration is critical for a cell to continue to live
true- if cellular respiration stops then an animal will not be able to breathe.
Yes.Cellular respiration always need glucose. So if photosynthesis stops,organisms cannot respire
Cyanide.
carbon monoxide
If cellular respiration were to stop the electron transport chain would end. This would cause the energy production to decrease.
true- if cellular respiration stops then an animal will not be able to breathe.
yea
the entire process of cellular respiration stops
No, respiration is continuous. Photosynthesis stops at night, as it is light dependent.
Yes.Cellular respiration always need glucose. So if photosynthesis stops,organisms cannot respire
Always. Your cell constantly needs energy in the form of ATP generated by cellular respiration to conduct vital activities such as transcription, translation, and sometimes replication. If cellular respiration stops, the cell will most likely die from necrosis or apoptosis in short order.
It prevents the protons (H+) from moving back into the inner membrane of the mitochondria from the proton gradient. Thus, proton trasnport is prevented.
Cellular respiration begins with the transportation of glycolysis into the mitochondria. The final step of cellular respiration will either be fermentation or an electron transport chain depending on whether it is anaerobic or aerobic respiration.
Cyanide.
Rigor mortis is caused by the loss of ATP. Oxygen is required for cellular respiration to provide ATP, but once the heart stops pumping, the supply of Oxygen stops. As a result, the muscles begin to decompose and harden. no ATP is available to release attached actin and myosin molecules
I presume you are referring to human's cellular respiration and not bacterial cellular respiration. With human's cellular respiration, you first have to understand that our body uses ATP (short for adenosine triphosphate) as the main source of fuel. It is ATP that helps our body to repair itself, to grow, and to eliminate basic toxins such as carbon dioxide. Second, the main source of ATP is glucose from breakdown of the food we eat. With that in mind, cellular respiration (also known as aerobic respiration) is the use of inhaled oxygen to more efficiently make ATP. With oxygen/ aerobic respiration, a cell's mitochondria power house can make 36 ATPs from one molecule of glucose via glycolysis + Kreb cycle + electron transfer chain pathway. Whereas without oxygen (aka anaerobic respiration), a cell stops at glycolysis making only 2 ATPs. As you can see, 36 vs. 2 ATPs is a big difference. A cell that is metabolically active and requires a lot of ATPs such as the neurons (brain cells), the myocardiocytes (heart cells), and the proximal tubule cells (kidney cells) will die off when the glucose supply is depleted from inefficient breakdown to produce ATPs. So in short, without cellular respiration, a cell will use anaerobic respiration, making 1/16 of normal ATPs, survive for 2 mins to hours (depending on the cellular activities and body temperature) then die off due to depletion of glucose source within the cell or die off due to activation of Fas self-suicide mechanism. Hope this answers your question. =)
carbon monoxide