It's completely broken down in 2 turns of the Krebs cycle (:
The glucose molecule passes through the blood stream then moves into the cell.
Glucose is a stable molecule formed by bond reactions between carbon dioxide and water through photosynthesis. Hence they do not dissociate.
Answer: ATP glucose
It transports the glucose through transport proteins.
36 ATP molecules can be produced from a single molecule of glucose through the complete process of cellular respiration.
In aerobic respiration, 36 or 38 molecules of ATP per molecule of glucose, depending on how many are gained through the electron transfer system.In anaerobic respiration 2 molecules of ATP per molecule of glucose, though higher yields can occur in higher temperatures (as much as 9 ATP molecules per molecule of glucose)
it is 36
Glucose molecules enter a cell through its channel protein, or gate. Large molecules, like glucose, are too large to slide through pores in the membrane, so it relies on the gates. Gates are specifically made for a certain molecule the cell needs, and only glucose can get in through a glucose gate.
This will depend upon the membrane, but in general glucose can pretty easily pass through most membranes - it is a small polar molecule that travels easily in water.
Through the complex processes of glycolysis, Kreb's Cycle and the electron transfer system, a net gain of 38 ATP are produced from the breakdown of one glucose molecule.
In aerobic cellular respiration, the breakdown of one glucose molecule can yield 36 molecules of ATP.
Oxygen and Water pass through the cell membrane by simple osmosis. Glucose transportation through the membrane requires the involvement of insulin.
glucose because it can easily break down by enzymes than starch
Each glucose molecule is converted to two molecules of pyruvate through glycolysis. Each molecule of pyruvate can then be converted to 1 acetyl CoA for a total of 2 acetly groups from 1 glucose
In aerobic respiration, 36 or 38 molecules of ATP per molecule of glucose, depending on how many are gained through the electron transfer system. In anaerobic respiration 2 molecules of ATP per molecule of glucose, though higher yields can occur in higher temperatures (as much as 9 ATP molecules per molecule of glucose)
Glucose is carried through the bloodstream and adsorbed by cells. It is then broken down through the Krebs cycle. The new molecules are used to create ATP, which is the molecule that cells use for energy.
One glucose molecule will pass through one anaerobic glycolysis that will generate two pyruvic acid molecules to enter the Citric Acid cycle. Therefore, in general terms, from one glucose molecule, two citric acid cycles will turn.
The 3-carbon molecule produced when glucose is broken in half in glycolysis is pyruvic acid. It gives energy to living cells through the Krebs cycle.
Cellular respiration produces 38 molecules of ATP for each glucose molecule metabolized. This process occurs through a complex pathway of other enzymes.