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Macromolecules are large molecules made of smaller molecules joined together.
the four classes of macromolecules are: carbohydrates, lipids, proteins, and nucleic acids.
Monomers are the building blocks of polymers.
Monomers are subunits.
The monomers of carbohydrates are monosaccharides, and its polymers are polysaccharides.
The monomers of lipids are glycerol and fatty acids, and its polymers are fats.
The monomers of proteins are amino acids, and its polymers are polypeptides.
The monomers of nucleic acids are nucleotides, and its polymers are DNA and RNA.

Dehydration (synthesis) reactions joins monomers together by a covalent bond and water is released.
Hydrolysis (degradation) reactions take place when water molecules are added to break a covalent bond.
(“Hydro” means water and “lysis” means breaking/rupturing.)

Carbohydrates are found in grains, fruits, and veggies.
They provide energy to the body in the form of glucose, and they provide cell structure.
The three main types of carbohydrates are: monosaccharides (one), disaccharides (two), and polysaccharides (many).
Carbohydrates have the molecular formula CH20.
There are two hydrogens for each single carbon and oxygen.
Carbohydrates contain a carbonyl group (C=O), hydroxyl groups (O-H), and many carbon-hydrogen bonds (C-H).
Carbohydrates are hydrophilic (they love water).

Monosaccharide monomers are simple sugars that structurally vary in four primary ways.
The first way that they structurally vary is in the number of carbons present. If there are three carbons present, it would be known as a “triose,” if there are five carbons present, then it would be a “pentose,” if there are six carbons, then it would be a “hexose.”
The second way they vary is the arrangement of functional groups.
The third way they vary is by linear and alternate ring forms.

Biology 120 Notes (Part 4) Starting the Discussion on Macromolecules

Macromolecules are large molecules made of smaller molecules joined together.
the four classes of macromolecules are: carbohydrates, lipids, proteins, and nucleic acids.
Monomers are the building blocks of polymers.
Monomers are subunits.
The monomers of carbohydrates are monosaccharides, and its polymers are polysaccharides.
The monomers of lipids are glycerol and fatty acids, and its polymers are fats.
The monomers of proteins are amino acids, and its polymers are polypeptides.
The monomers of nucleic acids are nucleotides, and its polymers are DNA and RNA.

Dehydration (synthesis) reactions joins monomers together by a covalent bond and water is released.
Hydrolysis (degradation) reactions take place when water molecules are added to break a covalent bond.
(“Hydro” means water and “lysis” means breaking/rupturing.)

Carbohydrates are found in grains, fruits, and veggies.
They provide energy to the body in the form of glucose, and they provide cell structure.
The three main types of carbohydrates are: monosaccharides (one), disaccharides (two), and polysaccharides (many).
Carbohydrates have the molecular formula CH20.
There are two hydrogens for each single carbon and oxygen.
Carbohydrates contain a carbonyl group (C=O), hydroxyl groups (O-H), and many carbon-hydrogen bonds (C-H).
Carbohydrates are hydrophilic (they love water).

Monosaccharide monomers are simple sugars that structurally vary in four primary ways.
The first way that they structurally vary is in the number of carbons present. If there are three carbons present, it would be known as a “triose,” if there are five carbons present, then it would be a “pentose,” if there are six carbons, then it would be a “hexose.”
The second way they vary is the arrangement of functional groups.
The third way they vary is by linear and alternate ring forms.