In which part of the body is glycogen stored?

answer 2

The correct answer is -liver Explanation: Glycogen in the body is mainly stored in the liver and muscle tissue due to the action of insulin. They provide an energy source which can be readily available when there is a lack of blood glucose in our body. When glucose becomes deficient in the blood, the level of the hormone glucagon increases in the body, which helps release hepatic glycogen into the blood as glucose, which provides energy to the body.
The liver can accumulate glycogen up to 5-6% of its fresh weight, so the correct answer is number one, which is glycogen.

answer 3

Explanation:
Cardiorespiratory exercise, also known as aerobic exercise, uses oxygen and generally involves the use of large muscle groups during continuous activity.
Your body produces energy under anaerobic conditions during the first few seconds of intense exercise. When one of the three phosphates is removed from adenosine triphosphate, ADP is formed and energy is released. Creatine phosphate is stored in the muscles and is broken down to replenish ATP stores. When participating in low-intensity activities for an extended period of time, the body primarily uses fat for energy with repair.
Your body burns carbohydrates for energy during any type of exercise that lasts longer than 3 seconds. The intensity and duration of exercise will affect the percentage of energy derived from this source. Endurance athletes can use a training strategy known as carbohydrate loading to maximize the body’s glycogen stores. The body’s preferred carbohydrate source during high-intensity exercise for energy is muscle glycogen. Additional explanation:
In cells, aerobic respiration may not occur due to several factors, so they use other means to generate energy in the form of ATP and to replace NAD+, an oxidized form of NADH, the main electron carrier in glycolysis. Pyruvate is produced in the cytoplasm by glycolysis – it is also used as an electron acceptor in a process called fermentation.
For aerobic respiration, in general: C6H12O6 (glucose) + 6 O2 → 6 CO2 + 6 H2O + ≈38 ATP
In all eukaryotic cells, mitochondria are small, membrane-bound cell organelles that produce most of the chemical energy needed to fuel biochemical reactions in the cell. This chemical energy is stored in the ATP molecule that is produced. Respiration in the mitochondria uses oxygen for the production of ATP in the Krebs cycle or citric acid through the oxidation of pyruvate (through the process of glycolysis in the cytoplasm).
Oxidative phosphorylation describes a process in which NADH and FADH2 produced in the early stages of the respiration process give up electrons in the electron transport chain, these are converted to their earlier forms, NADH+ and FAD. As the electrons move down the chain, the energy they release is used to pump protons out of the mitochondrial matrix.
This forms a gradient where there is a differential in the number of protons on each side of the membrane as the protons flow or re-enter the matrix through the enzyme ATP synthase causing ATP energy storage molecules to from the reduction of ADP. At the end of electron transport, three oxygen molecules accept electrons and protons to form water molecules…
Glycolysis: Occurs in the cytoplasm 2 molecules of ATP are used to cleave glucose into 2 pyruvates, 4 ATP and 2 electron-carrying molecules of NADH. (2 ATP are used for a net ATP of 2)
Citric acid or Kreb cycle: in the mitochondrial matrix – 6 molecules of CO2 are produced by the combination of oxygen and carbon within pyruvate, 2 molecules of oxygen ATP, 8 NADH and 2 FADH2.
The electron transport chain, ETC: in the inner mitochondrial membrane, 34 ATP, electrons combine with H+ divided by 10 NADH, 4 FADH2, renewing the number of electron acceptors and 3 oxygen acceptors; this forms 6 H2O, 10 NAD+, 4 FAD. Learn more about cellular life at
Learn more about cellular respiration at
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Answer 6

1.b. aerobics 2. a. anaerobic 3. h. adenosine triphosphate 4. g. creatine phosphate 5. i. bold 6.c. amino acids 7. ex. carbohydrates 8. d. Carbohydrate load 9. f. muscle glycogen

Answer 8

for the edge it’s the liver <3

answer 4

Glycogen Explanation: Animals store glucose in the body as glycogen. The need to store energy is to have a certain amount of energy in the body to use when hungry. Excess glucose in the body is stored as glycogen. It is a glucose polysaccharide which is structurally very compact. This property allows it to be stored and later used as an energy source when the body is in a state of starvation.

Answer 7

Answer: Ketones Explanation: Hope this helps. Have a good day

Answer 10

glycogen is the correct answer

Answer 5

1-aerobic
2-anaerobic
3-ATP
4-glycogen
5-fatty acids
6-amino acids
creatine 7-phosphate
8 low trains
9-glycogen

Answer 1

Glycogen is stored in the liver.

Answer 6

1.b. aerobics 2. a. anaerobic 3. h. adenosine triphosphate 4. g. creatine phosphate 5. i. bold 6.c. amino acids 7. ex. carbohydrates 8. d. Carbohydrate load 9. f. muscle glycogen

Answer 9

Glucose cannot be stored directly in the body because it has active groups which make glucose very reactive in nature. Therefore, to be stored as an energy source, it must be converted into glycogen. Thus, by the action of the enzyme Uridyl Transferase, glucose is transformed into UDP-glucose, which is the precursor of glycogen. The pyrophosphate which forms is then hydrolyzed by the action of pyrophosphatase, which leads to the elimination of 2 molecules of .
The enzyme glycogen synthase adds a glucose unit to UDP-glucose by forming the glycosidic bond to form the polysaccharide glycogen. This reaction continues to form a longer chain of glycogen molecule.
From the pyrophosphate group, the phosphate group is removed by the action of the enzyme, and then glycogen phosphorylase converts UDP-glucose into glycogen. This glycogen phosphorylase is activated by phosphorylation and the phosphate group released by the pyrophosphate group. Explanation: See attached image.

Answer 10

glycogen is the correct answer

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