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Detailed Study of Representative Proteins

Detailed Study of Representative Proteins. Specialized Function. Molecular Chaperones. Molecular Chaperones.

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Detailed Study of Representative Proteins

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  1. Detailed Study of Representative Proteins

  2. Specialized Function Molecular Chaperones

  3. Molecular Chaperones • A large group of unrelated protein families whose role is to stabilize unfolded proteins, unfold them for translocation across membranes or for degradation, and/ or to assist in their correct folding and assembly

  4. Properties • Molecular chaperones interact with unfolded or partially folded protein subunits, e.g. nascent chains emerging from the ribosome, or extended chains being translocated across subcellular membranes. • They stabilize non-native conformation and facilitate correct folding of protein subunits. • They do not interact with native proteins, nor do they form part of the final folded structures. • Some chaperones are non-specific, and interact with a wide variety of polypeptide chains, but others are restricted to specific targets. • They often couple ATP binding/hydrolysis to the folding process. • Essential for viability, their expression is often increased by cellular stress.

  5. GroEL-GroES

  6. Structural Proteins

  7. Cytoskeletal Proteins

  8. Microfilament • Hollow cylindrical filaments with a diameter of 25 nm • radiates from the cell nucleus. • are organized by the microtubule organizing centers (centrioles and basal bodies). • Capable of growing and shrinking to generate force. They can be used by motor proteins that support the movement of organelles and other cellular factors along the microtubules. 

  9. Intermediate Filament • Have an average diameter of 10 nm, and they are mostly cytoplasmic (except the nuclear filaments known as lamins). • These filaments are deformable proteins that can be stretched to several times their initial length due to their hierarchical structure • More stable than actin filaments • Like actin filaments, they help maintain the cell-shape by resisting tensional forces. • Organize the internal structure of the cell and anchor the organelles.

  10. Microtubules • Rigid, hollow cylinders approximately 25 nm in diameter, and are polymers of the protein tubulin. • Exhibit a highly dynamic behavior as they polymerize and depolymerize. • Are commonly organized by the centrosome, play role in the intracellular transport of organelles and vesicles, and construct the cilia, flagella, and mitotic spindles. • They resist compression, and thus, in tensegrity models they are considered rigid bars (rods). • These rigid microtubules are interconnected by prestressed, extensible microfilaments (cables)

  11. Collagen • Important component of connective tissue and has tremendous tensile strength • Contains repeating units of Gly-Pro-Hyp in a narrow left-handed helix • Three polypeptide chains wind around each other in a right-handed helix with Gly at the center • The triple helix is stabilized by hydrogen bonding • Cross links between the side chains are covalent bonds (not disulfide) by modified residues (post-translational modification) • Crosslinks increase with age

  12. Motor Proteins

  13. Kinesin • Microtubule-associated protein

  14. Myosin

  15. Transport Proteins

  16. Hemoglobin

  17. Myoglobin and other globins

  18. Immunoglobulins

  19. Structure

  20. Proteases: Chymotrypsin

  21. Chymotrypsin

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