- Quaternary structure.
- Primary structure.
- Molecular weight.
- Solubility.
Category: Macro Mulecule
- Carbohydrates.
- Proteins.
- Lipids.
- Nucleic acids.
- Irreversibly binds the substrate.
- Allows the enzyme to be consumed in the reaction.
- Orients the substrate correctly and stabilizes the transition state.
- Reduces the temperature of the reaction.
- Denaturation by heat.
- Binding of a competitive inhibitor.
- Proteolytic cleavage (removal of a peptide segment) to expose the active site.
- Addition of a prosthetic group.
- Hyperglycemia.
- Bone density increase.
- Impaired immune function.
- Enhanced cognitive development.
- Primary structure.
- Secondary structure.
- Tertiary structure.
- Quaternary structure.
- It has no effect.
- It decreases the reaction rate.
- It increases the reaction rate proportionately.
- It denatures the enzyme.
- Monosaccharides.
- Nucleotides.
- Amino acids.
- Fatty acids.
- Primary structure.
- Secondary structure.
- Tertiary structure.
- Quaternary structure.
- Structural protein.
- Transport protein.
- Hormonal protein.
- Storage protein.
- Substrate binding.
- Competitive inhibition.
- Non-competitive inhibition or regulation.
- Product release.
- Hydrophilic nature.
- Polymeric structure of repeating sugar units.
- Insolubility in water.
- Nitrogen content.
- Peptide bonds.
- An active site.
- A non-amino acid component.
- Alpha-helices.
- Peptide bonds.
- Covalent bonds within amino acids.
- Hydrogen bonds, ionic bonds, and hydrophobic interactions.
- Ester bonds.
- By changing the equilibrium of the reaction.
- By forming a more stable transition state and correctly orienting reactants.
- By increasing the temperature of the reaction.
- By increasing the concentration of products.
- Free energy.
- Enthalpy.
- Activation energy.
- Kinetic energy.
- A nucleoprotein.
- A glycoprotein.
- Albumin.
- Lipoprotein.
- Primary structure (peptide bonds).
- Secondary structure (hydrogen bonds).
- Tertiary structure (various weak interactions).
- Quaternary structure (subunit interactions).
- Has a lower molecular weight.
- Contains only one polypeptide chain.
- Does not bind oxygen as efficiently.
- Is not found in blood.
