1. name and give a brief description of the four levels of protein structure. (2 pts)
2. what is chemical equilibrium? (3 pts)
3. if you have a glass of salt water then the salt is the ____________ and the water is the ____________? (1 pt)
4. if you change a protein’s structure you change its ____________ (1 pts)
5. a living cell is experiencing large fluctuations in ph. to stop those fluctuations, what would be very useful? (1 pt)
6. for each of the macromolecule groups – list their monomer, polymer, bond - type, an example, and 1 major function. (12 pts)

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Accepted Answer

# Brief Explanations:
1. **Primary structure**: Sequence of amino - acids in a polypeptide chain.
   - **Secondary structure**: Local folding patterns like alpha - helices and beta - sheets due to hydrogen bonding between backbone atoms.
   - **Tertiary structure**: Three - dimensional shape of a single polypeptide chain, formed by interactions between R - groups.
   - **Quaternary structure**: Arrangement of multiple polypeptide chains in a multi - subunit protein.
2. Chemical equilibrium is a state in a chemical reaction where the rate of the forward reaction equals the rate of the reverse reaction, and the concentrations of reactants and products remain constant over time.
3. In a salt - water solution, the salt is the solute and the water is the solvent.
4. If you change a protein's structure, you change its function, as the structure of a protein is closely related to its biological activity.
5. A buffer would be very useful to stop pH fluctuations in a living cell as buffers resist changes in pH by accepting or donating hydrogen ions.
6.
   - **Proteins**:
     - Monomer: Amino acids.
     - Polymer: Polypeptide.
     - Bond - type: Peptide bond.
     - Example: Hemoglobin.
     - Major function: Catalysis (enzymes), structural support, transport.
   - **Carbohydrates**:
     - Monomer: Monosaccharides (e.g., glucose).
     - Polymer: Polysaccharides (e.g., starch, glycogen).
     - Bond - type: Glycosidic bond.
     - Example: Starch in plants.
     - Major function: Energy storage and structural support (cellulose in plant cell walls).
   - **Lipids**:
     - Monomer: Fatty acids and glycerol (for triglycerides).
     - Polymer: Lipid aggregates (e.g., triglycerides, phospholipids).
     - Bond - type: Ester bond.
     - Example: Triglycerides in adipose tissue.
     - Major function: Energy storage, membrane structure (phospholipids).
   - **Nucleic acids**:
     - Monomer: Nucleotides.
     - Polymer: DNA, RNA.
     - Bond - type: Phosphodiester bond.
     - Example: DNA.
     - Major function: Storage and transmission of genetic information (DNA), protein synthesis (RNA).

# Answer:
1. Primary structure: Amino - acid sequence. Secondary structure: Local folding (alpha - helices, beta - sheets). Tertiary structure: 3 - D shape of single polypeptide. Quaternary structure: Arrangement of multiple polypeptides.
2. State where forward and reverse reaction rates are equal, concentrations are constant.
3. Solute; Solvent
4. Function
5. Buffer
6. Proteins: Amino acids, Polypeptide, Peptide bond, Hemoglobin, Catalysis etc. Carbohydrates: Monosaccharides, Polysaccharides, Glycosidic bond, Starch, Energy storage etc. Lipids: Fatty acids and glycerol, Lipid aggregates, Ester bond, Triglycerides, Energy storage etc. Nucleic acids: Nucleotides, DNA/RNA, Phosphodiester bond, DNA, Genetic information storage etc.

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