2 NADH,2 H+,2 pyruvate,2 ATP, 2 H2O
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
Glycolysis yields a net of 2 ATP molecules per glucose molecule.
Glycolysis produces a net of 2 ATP molecules per glucose molecule.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.
In glycolysis two net molecules of ATP are formed. Four ATP are formed but two are required in the initial activation of glucose.
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, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
2 pyruvate, 2 ATP, 2 NADH, 2 H+, and 2 H2O per glucose molecule.
The organic molecule that undergoes glycolysis is the sugar glucose which contains 6 atoms of carbon per molecule.
4 molecules of ATP are produced per molecule of glucose in glycolysis, but 2 are needed (used, degraded, etc.) to start the reaction, so there is really only a net gain of 2 ATP in the process of glycolysis.
Glycolysis is the breakdown of glucose by enzymatic action. It yields 2 NADH molecules and 2 ATP molecules per glucose molecule.
Glycolysis yields a net of 2 ATP molecules per glucose molecule.
Glycolysis produces a net of 2 ATP molecules per glucose molecule.
2
Glycolysis produces a net gain of two ATP molecules per glucose molecule. However, four ATP molecules are actually produced during glycolysis, but two are used in the initial steps, resulting in a net gain of two ATP molecules.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.