In glycolysis you get pyruvate (or lactate) as a end product but in gluconeogenesis you get glucose formed from either Fat or Proteins. There are many intermediate steps before pyruvate is formed from Proteins and Fats. So gluconeogenesis cannot be considered as reversal of glycolysis.
The starting material for gluconeogenesis is usually pyruvate, which can be converted into glucose through a series of enzymatic reactions. Other precursors such as lactate, amino acids, and glycerol can also be used to generate glucose through gluconeogenesis.
No, not all physical reactions are reversible. Some physical reactions are irreversible, meaning they cannot easily be undone or reversed to their original state. Examples of irreversible physical reactions include burning a match or breaking a glass.
Fermentation and glycolysis are two examples of anaerobic chemical reactions where energy is produced without the presence of oxygen.
irreversible
There are a couple reversible reactions that occur in the container. For example, one of the reactions is that gas can be reversed to a solid.
All physical changes are reversible.
chemical reactions are irreversible but physical changes are reversible
No, not all chemical reactions are reversible. Some reactions are irreversible, meaning they cannot easily be reversed to reform the original reactants.
The starting material for gluconeogenesis is usually pyruvate, which can be converted into glucose through a series of enzymatic reactions. Other precursors such as lactate, amino acids, and glycerol can also be used to generate glucose through gluconeogenesis.
The reactions of glycolysis occur in the cytoplasm of a eukaryotic cell. The enzymes required for glycolysis are found in the cytoplasm, where glucose is broken down into pyruvate to produce energy in the form of ATP.
Reversible reactions reach chemical equilibrium because the forward and reverse reactions occur at the same rate, leading to a balance in the concentrations of reactants and products.
Cooking involve irreversible chemical reactions.
No, not all physical reactions are reversible. Some physical reactions are irreversible, meaning they cannot easily be undone or reversed to their original state. Examples of irreversible physical reactions include burning a match or breaking a glass.
Fermentation and glycolysis are two examples of anaerobic chemical reactions where energy is produced without the presence of oxygen.
Glucose is broken down into pyruvate.
irreversible
to generate from , so glycolysis can continue