Want this question answered?
There are two net molecules of ATP produced by substrate-level phosphorylation during glycolysis. (when one molecule of glucose is respired). Two are used to convert the glucose molecule to fructose, but four are released when pyruvate is made. However, the other products of glycolysis enable the Link Reaction, Krebs cycle and Oxidation Phosphorylation to happen, and these release a lot of ATP.
The water molecules remain unchanged.
No; water is made up of water molecules. Water molecules contain two hydrogen molecules and one oxygen molecule.
12 water molecules are made.
Waters is made of molecules. Each of those molecules contains 3 atoms.
Pyruvic acid is made during glycolysis and is later used in fermentation.
During glycolysis, there are approximately 2 hydrogen molecules made; however during cellular respiration, approximately 32-36 hydrogen molecules are made.
Glycolysis takes 2 ATP and creates 4 ATP. The net ATP production of Glycolysis is 2ATP.
Two molecules are used to start glycolysis, and two are used to move NADH made during glycolysis into the mitochondria.
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
Glycolisis takes place in cytoplasm.So ATPs are produced in cytoplasm.
It comes from the splitting of water molecules.
Pyruvic acid is made during glycolysis and is later used in fermentation.
The enzymes of glycolysis catalyze the splitting of glucose, a six carbon sugar, into two three carbon sugars. These are then oxidized and their atoms rearrangged to form two molecules of pyruvic acid
It is made of water (H2O) molecules and salt (NaCl) molecules. So two different types of molecules.
The ATP is molecules are generated during glycolysis in the last reaction of the pathway i.e. with the conversion of phospho enol pyruvate (PEP) to pyruvate by the enzyme pyruvate kinase. Kinases are enzymes that are capable of phosphorylating a substrate. In this case, ADP molecules are phosphorylated to generate ATP molecules In glycolysis, for every molecule of glucose that enters the pathway, two molecules of pyruvate are generated. Therefore, two molecules of ATP are generated with every glycolytic reaction.
The water molecules remain unchanged.