Carbohydrate, Fat, Protien, & Nucleic Acid:)
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Carbohydrates: Examples include glucose, sucrose, and starch. Proteins: Examples include enzymes, antibodies, and hemoglobin. Lipids: Examples include fats, phospholipids, and steroids. Nucleic acids: Examples include DNA, RNA, and nucleotides.
They are all organic compounds, called biomolecules.
If the amount of biomolecules in the body increases, it could lead to conditions like obesity or metabolic disorders due to an imbalance in energy metabolism. On the other hand, a decrease in biomolecules can result in malnutrition, weakened immune function, and impaired cell repair and growth. For instance, excess glucose can cause insulin resistance and diabetes, while inadequate protein intake can lead to muscle wasting and impaired wound healing.
Biomolecules include nucleic acids. The types of nucleic acids that are made?æin the nucleus of a cell are DNA and RNA.?æ
The difference between lipids and other biomolecules is in their chemical properties. Lipids include different types of molecules like fats, steroids, oils, and waxes. but lipids do not form big polymers like other biomolecules do. Examples of other biomolecules are protein and nucleic acid.
Carbohydrates: Examples include glucose, sucrose, and starch. Proteins: Examples include enzymes, antibodies, and hemoglobin. Lipids: Examples include fats, phospholipids, and steroids. Nucleic acids: Examples include DNA, RNA, and nucleotides.
non-examples of nucleic acid
Because biomolecules can be rearranged to make a different substance.
They are all organic compounds, called biomolecules.
so animals can live. without water animals can't live. Animals live in biomolecules
Macromolecules.
An "Atom" is the basic building block of all molecules [first] and [then] biomolecules.
Carbohydrates are a group of biomolecules composed of carbon, hydrogen, and oxygen. They serve as a major source of energy for living organisms and are essential for various cellular processes. Examples include sugars, starches, and cellulose.
If the amount of biomolecules in the body increases, it could lead to conditions like obesity or metabolic disorders due to an imbalance in energy metabolism. On the other hand, a decrease in biomolecules can result in malnutrition, weakened immune function, and impaired cell repair and growth. For instance, excess glucose can cause insulin resistance and diabetes, while inadequate protein intake can lead to muscle wasting and impaired wound healing.
it is gathered from the biomolecules and molecule
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catalysts, proteins