During glycolysis, the net gain of ATP for the cell is 2 molecules of ATP.
During glycolysis, glucose is broken down into pyruvate, producing a total of 4 ATP molecules. However, since 2 ATP molecules are used at the beginning of glycolysis, the net gain is 2 ATP molecules. This occurs because the energy released during the breakdown of glucose is greater than the energy required to start the process with ATP.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
The net gain of ATP at the end of glycolysis is 2 molecules of ATP.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
The cell can produce a net gain of 2 ATP molecules from a single molecule of glucose through the process of glycolysis. This occurs during the conversion of glucose to pyruvate.
During glycolysis, glucose is broken down into pyruvate, producing a total of 4 ATP molecules. However, since 2 ATP molecules are used at the beginning of glycolysis, the net gain is 2 ATP molecules. This occurs because the energy released during the breakdown of glucose is greater than the energy required to start the process with ATP.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
A cell can gain a net total of 2 molecules of ATP through glycolysis. This occurs when one molecule of glucose is broken down into two molecules of pyruvate.
The net gain of ATP at the end of glycolysis is 2 molecules of ATP.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
During glycolysis, more ATP is produced than is used Glycolysis - occurs in the cytosol begins the degradation process by breaking glucose into two molecules of pyruvate. Glucose is a six carbon sugar, and it becomes split up into two three carbon sugars. Glycolysis has two phases, energy investment and energy payoff. In order to begin glycolysis, the cell must spend two ATP molecules. Directly from glycolysis, 4 ATP are made. Once the cell is paid back for its loss of two ATP's, the net gain of glycolysis can be said to be 2 ATP. Along with making ATP, the cell also makes 2 NADH
Glycolysis provides a cell with a net gain of 2 ATP molecules and 2 NADH molecules.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
The cell can produce a net gain of 2 ATP molecules from a single molecule of glucose through the process of glycolysis. This occurs during the conversion of glucose to pyruvate.
The net ATP production in glycolysis is 2 molecules of ATP. This is generated during the conversion of glucose into pyruvate through a series of enzymatic reactions.
Even though glycolysis is an energy-releasing process, the cell needs to put in a little energy to get things going. At the pathway's beginning, 2 molecules of ATP are used up.Although the cell puts 2 ATP molecules into its account to get glycolysis going, when glycolysis is complete, 4 ATP molecules have been produced. This gives the cell a net gain of 2 ATP molecules. The product of glycolysis is two pyruvate molecules which can then be broken down further for greater net energy gain. In animal cells, in the presence of oxygen, as much as 32 additional ATP can be generated