Reduces oxygen and oxidizes glucose. A cell produces energy in the form of adenosine triphosphate (ATP) from the oxygen it takes in during aerobic respiration while also exhaling carbon dioxide and water. This is an oxidation reaction where oxygen is reduced and glucose is oxidized.
NADH contains more bonds than other molecules, and more energy is needed to maintain this molecule's integrity. Therefore, it would take more energy to break the bond while attempting to do so, making it more stable than NAD+. Aerobic respiration is the process of oxidizing glucose to produce ATP in the presence of oxygen. The following is the general equation for aerobic respiration:
Oxygen plus glucose = Carbon dioxide + Water + Energy
The breakdown of sugar and other dietary components during aerobic respiration releases energy. The Kreb cycle, glycolysis, and electron transport chain are all included. When oxygen is present, the reducing molecules NADH and FADH2 produced by glycolysis and the Kreb cycle are oxidized via the process of chemiosmosis, which reduces oxygen to water.
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Some all plant cells do have chloroplasts. The chloroplast is an organelle that represents considerable authority in photosynthesis. In this way, chloroplast is found in plant cells that get light. You won't, be that as it may, discover chloroplast in plant cells underground since light, by and large, doesn't achieve those cells. In the event that some way or another, they wind up plainly presented to light however they may create chloroplast.
The role of proteins in a
chromosome is for gene transfer. The gene transfer found in the DNA happens
during mitosis.
1)Flippases are proteins able translocate lipids from the outer leaflet( extracellular) to inner leaflet (cytosolic); They are enzymes that depend on ATP to function.
Phospholipid flippases,translocate phospholipids against a concentration gradient.
2)Floppases- move lipids from the inner leaflet (cytosolic) to inner leaflet ( extracellular). Floppases are ABC-transporters that do the opossite of the flippases.
3)scramblases- The activity of scramblases does not require energy (not ATP dependent). Their activation can result in increased symmetry between phospholipids of both leaflets of the lipid bilayer.
Scramblases translocate phosphatidylserine, preventing apoptosis and engulfment by macrophages.
I think the answer should be : Animal.