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during glycolysis of the fermentation; remember that glycolysis is the common step for both aerobic and anaerobic respiration
During Glycolysis, Glucosemolecules are split into two pyruvates during a sequence of enzyme-controlled reactions. This occurs in both aerobic and anaerobic respiration.
Actually glucose is what sugar turns in to during glycolysis.
Glycolysis is inherent in the process of respiration. The cell requires glucose and oxygen during glycolysis and water is the by-product
glycolysis occur in the cytosol just outside of mitrocondria
during glycolysis of the fermentation; remember that glycolysis is the common step for both aerobic and anaerobic respiration
During Glycolysis, Glucosemolecules are split into two pyruvates during a sequence of enzyme-controlled reactions. This occurs in both aerobic and anaerobic respiration.
Actually glucose is what sugar turns in to during glycolysis.
Glycolysis is the process during which glucose is broken in half, and produces pyruvic acid (3-carbon compound)
ATP provides energy to break down glucose during glycolysis.
Glucose
During the process of glycolysis, glucose is turned into two molecules of pyruvic acid. Glucose is a sugar that is an energy source important to living organisms.
Glycolysis http://en.wikipedia.org/wiki/Glycolysis
No ,it is not a by product.It is a reactant in respiration
Glycolysis is inherent in the process of respiration. The cell requires glucose and oxygen during glycolysis and water is the by-product
The breakdown of glucose to carbon dioxide and water occurs during glycolysis and aerobic respiration in cellular respiration. The carbon dioxide is a waste product.
This is the Glycolysis pathway Glycolysis (the breakdown of glucose to pyruvate and lactate, occurs in the cell cytoplasm): Glucose + 2 ATP + 4 ADP + 2 NAD -> 2 Pyruvate + 2 ADP + 4 ATP + 2 NADH + energy. Oxidation of glucose is known as glycolysis. Glucose is oxidized to either lactate or pyruvate. Under aerobic conditions, the dominant product in most tissues is pyruvate and the pathway is known as aerobic glycolysis. When oxygen is depleted, as for instance during prolonged vigorous exercise, the dominant glycolytic product in many tissues is lactate and the process is known as anaerobic glycolysis. "These studies demonstrate that orderly glycolysis in the erythrocyte is regulated by the NAD-to-NADH ratio and also provide a method that makes possible the in vitro study of erythrocyte glycolysis." The conversion of pyruvate to lactate, under anaerobic conditions, provides the cell with a mechanism for the oxidation of NADH (produced during the G3PDH reaction) to NAD which occurs during the LDH catalyzed reaction. This reduction is required since NAD is a necessary substrate for G3PDH, without which glycolysis will cease. Normally, during aerobic glycolysis the electrons of cytoplasmic NADH are transferred to mitochondrial carriers of the oxidative phosphorylation pathway generating a continuous pool of cytoplasmic NAD NADH