Answer :
In the first step of glycogenolysis, it must isomerize to glucose-6-phosphate before it can enter the glycolysis pathway.
The metabolic process known as glycolysis is what turns glucose into pyruvate. The high-energy molecules reduced nicotinamide adenine dinucleotide and adenosine triphosphate are created using the free energy released during this process. A series of 10 events known as glycolysis are facilitated by enzymes. By dissolving glucose into two molecules with three carbons each, the cytoplasmic mechanism of glycolysis produces energy. Hexokinase, an enzyme, aids in the process of phosphorylation, which traps glucose. In this process, ATP is utilised, and the end product, glucose-6-P, inhibits hexokinase. One 6-carbon molecule of glucose is oxidised in the cytoplasm during glycolysis to produce two 3-carbon pyruvate molecules. Pyruvate's fate is determined by whether cells have mitochondria and oxygen or not.
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