1.5.2 Protein Structure

    Cards (107)

    • Proteins are complex molecules composed of amino acids linked by peptide bonds.
    • Arrange the levels of protein structure from simplest to most complex.
      1️⃣ Primary Structure
      2️⃣ Secondary Structure
      3️⃣ Tertiary Structure
      4️⃣ Quaternary Structure
    • Match the level of protein structure with its description.
      Primary Structure ↔️ Linear sequence of amino acids
      Secondary Structure ↔️ Folding into α-helices and β-pleated sheets
      Tertiary Structure ↔️ Three-dimensional structure stabilized by bonds
      Quaternary Structure ↔️ Arrangement of multiple polypeptide chains
    • Each amino acid contains an amino group, a carboxyl group, a hydrogen atom, and a unique R group.
    • There are 20 common amino acids classified as acidic, basic, or neutral based on their R groups.
    • Match the type of amino acid with its example.
      Acidic ↔️ Glutamic acid
      Basic ↔️ Lysine
      Neutral ↔️ Alanine
    • The primary structure of a protein is the linear sequence of amino acids.
    • The R groups of amino acids directly participate in forming the primary structure backbone.
      False
    • R groups influence the overall three-dimensional structure of a protein but do not form peptide bonds.
    • The secondary structure of a protein involves the local folding of the polypeptide chain into specific patterns.
    • Match the type of secondary structure with its description.
      α-helices ↔️ Spiral structure stabilized by hydrogen bonds
      β-pleated sheets ↔️ Flat, extended structure stabilized by hydrogen bonds
    • Hydrogen bonds stabilize both α-helices and β-pleated sheets in secondary structure.
    • What are proteins made of?
      Amino acids
    • Proteins are complex molecules made of amino acids linked by peptide bonds.
    • The structure of a protein determines its function.
    • Arrange the four levels of protein structure in order.
      1️⃣ Primary Structure
      2️⃣ Secondary Structure
      3️⃣ Tertiary Structure
      4️⃣ Quaternary Structure
    • Match the level of protein structure with its description:
      Primary Structure ↔️ Linear sequence of amino acids
      Secondary Structure ↔️ Folding into α-helices and β-pleated sheets
      Tertiary Structure ↔️ Three-dimensional structure stabilized by bonds
      Quaternary Structure ↔️ Arrangement of multiple polypeptide chains
    • What are the four components of an amino acid attached to a central carbon?
      Amino, carboxyl, hydrogen, R group
    • The R group of an amino acid determines its properties.
    • There are 20 common amino acids classified based on their R group properties.
    • Which amino acids are examples of acidic amino acids?
      Glutamic acid, Aspartic acid
    • Basic amino acids have an extra amino group and are positively charged at physiological pH.
    • Match the amino acid type with its characteristics:
      Acidic ↔️ Extra carboxyl group, negatively charged
      Basic ↔️ Extra amino group, positively charged
      Neutral ↔️ Neither acidic nor basic, can be polar or nonpolar
    • Why is lysine classified as a basic amino acid?
      It has an extra amino group
    • The primary structure of a protein is formed by peptide bonds between amino acids.
    • The R groups of amino acids directly participate in forming the polypeptide backbone.
      False
    • What is the primary structure of a protein defined as?
      Linear sequence of amino acids
    • Peptide bonds link amino acids in the polypeptide chain
    • The R groups of amino acids directly form the polypeptide backbone
      False
    • What are the two main types of secondary protein structure?
      α-helices and β-pleated sheets
    • α-helices are stabilized by hydrogen bonds between amino
    • β-pleated sheets are stabilized by hydrogen bonds between adjacent chains
    • In which protein is α-helices commonly found?
      Keratin
    • List the types of interactions that stabilize tertiary protein structure in order of decreasing strength.
      1️⃣ Disulfide Bridges
      2️⃣ Ionic Bonds
      3️⃣ Hydrogen Bonds
      4️⃣ Van der Waals Forces
    • Hydrogen bonds in tertiary structure are weak bonds between electronegative atoms and hydrogen atoms
    • What type of bond forms between oppositely charged R groups in tertiary structure?
      Ionic Bonds
    • Weak attractions between nonpolar R groups are called Van der Waals Forces
    • What covalent bond stabilizes tertiary structure by linking cysteine residues?
      Disulfide Bridges
    • The folding of a polypeptide chain results in the tertiary structure
    • What type of bond is formed between electronegative atoms and hydrogen atoms?
      Hydrogen bond