Forming glycogen as energy storage in the liver is an example of anabolism.
<h3>What is anabolism?</h3>
Anabolism is a metabolic process that consists of the construction and manufacture of more complex molecules from simpler molecules. This contributes to cell growth and energy storage for tissue maintenance.
The process of anabolism can be seen in processes such as the formation of triglycerides or glycogen for energy reserves within cells or in the formation of muscle proteins, given in the sports world.
In these anabolic processes, a lot of energy is consumed since much more complex molecules are being manufactured.
It is a totally opposite and complementary process to catabolism, in which these complex molecules are broken down into much simpler molecules and the release of energy is generated.
For a correct homeostasis of the body, these two processes have to be balanced and work in a <u>complementary way.</u>
Therefore, we can confirm that forming glycogen as energy storage in the liver is an example of anabolism.
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Answer: the Earth is round.
Explanation:
These are the two domains Archaea & Bacteria.
<span>Nitrogen and phosphorous are the most prevalent aquatic pollution and contribute heavily to the excessive growth of algae in aquatic environments called algae blooms. The nitrogen from the fertilizers is found in molecules called nitrates which are compounds of both oxygen and nitrogen. Phosphorous helps algae to absorb carbon dioxide. So when the phosphorous levels are high the algae absorbs more carbon dioxide, which allows for faster photosynthesis and faster glucose production which leads to faster growth. Although algae need both nitrogen and phosphorous to grow, when the levels are too high the algae grows faster than the ecosystem can sustain leading to oxygen deprivation for the other aquatic organisms.</span>
The answer to your question is t<span>he signal travels through the nerve of the hand to the spinal cord and then to the brain.
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