Chemistry 4.1-Protein-structure-introduction-2o-structure
Transcript of Chemistry 4.1-Protein-structure-introduction-2o-structure
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Chapter 4
Protein 3-Dimensional Structure and Function
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Terminology• Conformation – spatial
arrangement of atoms in a protein• Native conformation –
conformation of functional protein
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Protein Classification• Simple – composed only of amino acid
residues
• Conjugated – contain prosthetic groups(metal ions, co-factors, lipids, carbohydrates)Example: Hemoglobin – Heme
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Protein Classification• One polypeptide chain - monomeric
protein• More than one - multimeric protein• Homomultimer - one kind of chain• Heteromultimer - two or more
different chains
(e.g. Hemoglobin is a heterotetramer. It has two alpha chains and two beta chains.)
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Protein ClassificationFibrous –1) polypeptides arranged in long strands or sheets2) water insoluble (lots of hydrophobic AA’s)3) strong but flexible4) Structural (keratin, collagen)
Globular –1) polypeptide chains folded into spherical or
globular form2) water soluble3) contain several types of secondary structure4) diverse functions (enzymes, regulatory proteins)
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keratin
collagen
catalase
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Protein Function• Catalysis – enzymes• Structural – keratin• Transport – hemoglobin• Trans-membrane transport – Na+/K+
ATPases• Toxins – rattle snake venom, ricin• Contractile function – actin, myosin• Hormones – insulin• Storage Proteins – seeds and eggs • Defensive proteins – antibodies
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4 Levels of Protein Structure
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Non-covalent forces important in determining
protein structure• van der Waals: 0.4 - 4 kJ/mol • hydrogen bonds: 12-30 kJ/mol • ionic bonds: 20 kJ/mol • hydrophobic interactions: <40
kJ/mol
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1o Structure Determines 2o, 3o, 4o Structure
• Sickle Cell Anemia – single amino acid change in hemoglobin related to disease
• Osteoarthritis – single amino acid change in collagen protein causes joint damage
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Classes of 2o Structure• Alpha helix
• B-sheet
• Loops and turns
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2o Structure Related to Peptide Backbone
•Double bond nature of peptide bond cause planar geometry
•Free rotation at N - C and C- carbonyl C bonds•Angle about the C(alpha)-N bond is denoted phi (•Angle about the C(alpha)-C bond is denoted psi (
•The entire path of the peptide backbone is known if all phi and psi angles are specified
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Not all / angles are possible
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Ramachandran Plots
•Describes acceptable / angles for individual AA’s in a polypeptide chain.•Helps determine what types of 2o structure are present
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Alpha-Helix• First proposed by Linus
Pauling and Robert Corey in 1951
• Identified in keratin by Max Perutz
• A ubiquitous component of proteins
• Stabilized by H-bonds
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Alpha-Helix•Residues per turn: 3.6 •Rise per residue: 1.5 Angstroms •Rise per turn (pitch): 3.6 x 1.5A = 5.4 Angstroms •amino hydrogen H-bonds with carbonyl oxygen located 4 AA’s away forms 13 atom loop
Right handedhelix
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Alpha-Helix
All H-bonds in the alpha-helix are oriented in the same direction giving the helix a dipole with the N-terminus being positive and the C-terminus being negative
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Alpha-Helix•Side chain groups point outwards from the helix•AA’s with bulky side chains less common in alpha-helix•Glycine and proline destabilizes alpha-helix
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Amphipathic Alpha-Helices
+
One side of the helix (dark) has mostly hydrophobic AA’sTwo amphipathic helices can associate through hydrophobic interactions
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Beta-Strands and Beta-Sheets• Also first postulated by Pauling and
Corey, 1951 • Strands may be parallel or antiparallel • Rise per residue:•
– 3.47 Angstroms for antiparallel strands– 3.25 Angstroms for parallel strands– Each strand of a beta sheet may be
pictured as a helix with two residues per turn
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Beta-Sheets• Beta-sheets
formed from multiple side-by-side beta-strands.
• Can be in parallel or anti-parallel configuration
• Anti-parallel beta-sheets more stable
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Beta-Sheets• Side chains point alternately above and below
the plane of the beta-sheet• 2- to 15 beta-strands/beta-sheet• Each strand made of ~ 6 amino acids
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Loops and turnsLoops• Loops usually contain hydrophillic
residues.• Found on surfaces of proteins• Connect alpha-helices and beta-sheetsTurns• Loops with < 5 AA’s are called turns• Beta-turns are common
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Beta-turns• allows the peptide chain to reverse direction • carbonyl C of one residue is H-bonded to the
amide proton of a residue three residues away
• proline and glycine are prevalent in beta turns