The substrate is Glucose-1-phospate which is broken down by only Phosphorylase and produces Starch as its end product
The end product of the anaerobic phase of glucose metabolism is lactate (lactic acid). This process occurs in the absence of oxygen when energy needs are high.
Nitrogen
The end products of digestion of carbohydrates is monosaccharides such as glucose. Which is then absorbed in the small intestine and transported to cells so they can go through cellular respiration in order to create ATP.
The end product of glycogenolysis in the liver is glucose. Glycogen stored in the liver is broken down into glucose, which can then be released into the bloodstream to provide energy to cells throughout the body.
Fibrinogen and Urea are not found in blood. Fibrinogen is a clotting factor found in plasma, while urea is a waste product of protein metabolism mostly excreted by kidneys. Glycogen, Glucose, and Albumin are all present in blood.
The by-product of incomplete glycogen breakdown in the absence of oxygen is lactic acid. This occurs during anaerobic metabolism when muscles do not have enough oxygen to produce energy, leading to the accumulation of lactic acid as a result of partial breakdown of glucose for energy.
CO2
The substrate is Glucose-1-phospate which is broken down by only Phosphorylase and produces Starch as its end product
Fructose
The end product of the anaerobic phase of glucose metabolism is lactate (lactic acid). This process occurs in the absence of oxygen when energy needs are high.
Carbon dioxide (CO2) is produced as a waste product of the metabolism of glucose by cells during cellular respiration. This process occurs in the mitochondria and is essential for generating energy in the form of ATP.
Nitrogen
No. The word hydrolysis has -lysis which means to break down. But if you are making glycogen you are building up. In this case dehydration occurs which is the opposite of hydrolysis (breaking down using water). Water is a by product in dehydration.
The end products of digestion of carbohydrates is monosaccharides such as glucose. Which is then absorbed in the small intestine and transported to cells so they can go through cellular respiration in order to create ATP.
The end product of glycogenolysis in the liver is glucose. Glycogen stored in the liver is broken down into glucose, which can then be released into the bloodstream to provide energy to cells throughout the body.
The byproducts of sucrose metabolism are glucose and fructose. When sucrose is broken down in the body, it is hydrolyzed into its component sugars, glucose and fructose, which can then be used as sources of energy.