haemoglobin and collagen

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    Created by
    Kylie Humphrey

    Cards (18)

    • What is haemoglobin, and where is it found?
      • Haemoglobin is a globular protein found in red blood cells, carrying oxygen
    • Describe the quaternary structure of haemoglobin?
      • 4 polypeptide chains: two α–globins and two β–globins, each with a haem group.
    • How are the globin subunits arranged in haemoglobin?
      • The globin subunits are held together by disulphide bonds
      • inward-facing hydrophobic R groups
      • outward-facing hydrophilic R groups
    • Why are the arrangements of R groups important for haemoglobin's function?
      • Proper R group arrangements are crucial for haemoglobin's function; changes can lead to conditions like sickle cell anaemia
      • In sickle cell anaemia, a base substitution results in valine replacing glutamic acid, making haemoglobin less soluble.
    • what is the haem group?
      • The prosthetic haem group contains iron II ions,
      • allowing reversible oxygen binding to form oxyhaemoglobin,
      • giving haemoglobin a bright red colour
      • Each haemoglobin molecule can carry four oxygen molecules due to its four haem groups
    • What is the role of haemoglobin in the body?
      • Haemoglobin binds oxygen in the lungs and transports it to tissues for aerobic metabolic pathways.
    • How does haemoglobin enhance the transport of oxygen?
      • Haemoglobin's solubility allows efficient oxygen transport in the bloodstream
    • why is the haem group significant?
      • The haem group in haemoglobin enhances oxygen binding by altering the protein's structure,
      • which increases affinity for subsequent oxygen molecules
    • how does iron II facilitate oxygen binding?
      • The iron II ion in the haem group enables reversible oxygen binding
      • amino acids in haemoglobin aren't well-suited for oxygen binding
    • Why is oxygen binding more efficient when bound to haemoglobin?
      • due to its alteration of quaternary structure when oxygen binding
      • which increases its affinity for subsequent oxygen molecules
    • the structure of collagen
      • the most common structural protein found in vertebrates
      • formed from three polypeptide chains closely held together by hydrogen bonds
      • form a triple helix, known as tropocollagen
      • its an insoluble fibrous protein
    • How many polypeptide chains form a collagen molecule?
      • Each polypeptide chain in collagen is helical in shape
      • glycine, proline, and hydroxyproline are most common.
    • How are collagen molecules held together to form fibrils?
      • Covalent bonds form cross-links between R groups of amino acids in interacting triple helices when they are arranged parallel to each other
      • which hold collagen molecules together to form fibrils
    • how are collagen fibers positioned to withstand forces?
      • Collagen fibers are positioned in alignment with the forces they withstand for optimal strength and support
    • What structural role does collagen play in connective tissues?
      • Collagen serves as a flexible structural protein in connective tissues
    • what is tensile strength?
      • The numerous hydrogen bonds within its triple helix structure provide collagen with great tensile strength,
      • which enable it to withstand large pulling forces without stretching or breaking
      • staggered ends of collagen contribute to strength
    • Why is collagen insoluble in water?
      • The length of collagen molecules makes them insoluble in water, as they take too long to dissolve
    • why is collagen a stable protein?

      its enhanced by the high proportion of proline and hydroxyproline amino acids, which repel each other and prevent unfolding
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