protein folding€¦ · protein folding •proteins have unique 3-dimensional shapes created by the...
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Protein Folding
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Protein Folding
• Proteins have unique 3-dimensional shapes created by the twisting or folding of one or more polypeptide chains
• The structure of a protein enables it to recognize and bind to other molecules
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Protein Folding
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Shape Determines Function
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Shape Determines Function
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Shape Determines Function
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Protein Structure
• Primary Structure
• Secondary Structure
• Tertiary Structure
• Quaternary Structure
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Primary Structure
• Determined by the sequence of a chain of amino acids held together by peptide bonds
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Secondary Structure• Involves regions of coiling (α-helices) or
folding (β-pleated sheets) of the polypeptide
• Stabilized by hydrogen bonds between the carboxyl and amino groups of amino acids
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Tertiary Structure
• Results from interactions between the various side chains (R groups)
• Ionic bonds between positive (+) and negative (-) side chains
• Hydrophobic interactions between nonpolarside chains (repelled by water), clump together
• Hydrogen bonds between polar side chains
• Disulfide bridges between the sulfhydryl groups of cysteine amino acids
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Tertiary Structure
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Quaternary Structure
• Occurs in proteins that are composed of more than one polypeptide
• Results from the combination of hydrogen bonding, ionic bonding, and hydrophobic interactions between polypeptide chains
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Protein Folding Control
• Chaperones and proteasomes are molecules that act jointly to regulate protein folding and control the selective removal of misfolded proteins from the cell
• Chaperones control the conformational folding and unfolding of proteins released from ribosomes
• Proteasomes degrade unneeded or damaged proteins
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Diseases Caused by Misfolded Proteins
• Alzheimer’s Disease
• Parkinson’s
• Amyotrophic lateral sclerosis (ALS)
• Huntington’s Disease
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Sickle-Cell Anemia Mutation
• Causes hemoglobin molecules to crystallize when oxygen levels are low
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Insulin Receptor – Type 2 Diabetes