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Amino Acids Proteins, and Enzymes

Dive into the world of proteins, amino acids, and enzymes! Learn about the different types of proteins, amino acids' role as building blocks, the peptide bond, and various protein structures. Explore the primary, secondary, tertiary, and quaternary structures, protein hydrolysis, and denaturation processes. Discover the importance of proteins in structural, enzymatic, transport, and hormonal functions in the body.

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Amino Acids Proteins, and Enzymes

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  1. Amino Acids Proteins, andEnzymes Types of Proteins Amino Acids The Peptide Bond

  2. Types of Proteins Type Examples • Structural tendons, cartilage, hair, nails • Contractile muscles • Transport hemoglobin • Storage milk • Hormonal insulin, growth hormone • Enzyme catalyzes reactions in cells • Protection immune response

  3. Amino Acids • Building blocks of proteins • Carboxylic acid group • Amino group • Side group R gives unique characteristics Rside chain I H2N—C —COOH I H

  4. Examples of Amino Acids H I H2N—C —COOH I H glycine CH3 I H2N—C —COOH I H alanine

  5. Types of Amino Acids Nonpolar R = H, CH3, alkyl groups, aromatic O Polar ll R = –CH2OH, –CH2SH, –CH2C–NH2, (polar groups with –O-, -SH, -N-) Polar/Acidic R = –CH2COOH, or -COOH Polar/ Basic R = –CH2CH2NH2

  6. Essential Amino Acids • 10 amino acids not synthesized by the body • arg, his, ile, leu, lys, met, phe, thr, trp, val • Must obtain from the diet • All in diary products • 1 or more missing in grains and vegetables

  7. Amino Acids as Acids and Bases • Ionization of the –NH2 and the –COOH group • Zwitterion has both a + and – charge • Zwitterion is neutral overall + NH2–CH2–COOHH3N–CH2–COO– glycine Zwitterion of glycine

  8. pH and ionization H+ OH– + + H3N–CH2–COOHH3N–CH2–COO–H2N–CH2–COO– Positive ionzwitterionNegative ion Low pH neutral pH High pH

  9. The Peptide Bond Amide bond formed by the –COOH of an amino acid and the –NH2 of the next amino acid O CH3 + || + | NH3–CH2–COH + H3N–CH–COO– O CH3 + ||| NH3–CH2–C – N–CH–COO– | peptide bond H

  10. Peptides • Amino acids linked by amide (peptide) bonds Gly Lys Phe Arg Ser H2N- -COOH end Peptide bonds end Glycyllysylphenylalanylarginylserine

  11. Amino Acids, Proteins, and Enzymes Primary and Secondary Structure Tertiary and Quaternary Structure Protein Hydrolysis and Denaturation

  12. Primary Structure of Proteins The particular sequence of amino acids that is the backbone of a peptide chain or protein Ala-Leu-Cys-Met

  13. Secondary Structure – Alpha Helix • Three-dimensional arrangement of amino acids with the polypeptide chain in a corkscrew shape • Held by H bonds between the H of –N-H group and the –O of C=O of the fourth amino acid along the chain • Looks like a coiled “telephone cord”

  14. Secondary Structure – Beta Pleated Sheet • Polypeptide chains are arranged side by side • Hydrogen bonds form between chains • R groups of extend above and below the sheet • Typical of fibrous proteins such as silk

  15. Secondary Structure – Triple Helix • Three polypeptide chains woven together • Glycine, proline, hydroxy proline and hydroxylysine • H bonding between –OH groups gives a strong structure • Typical of collagen, connective tissue, skin, tendons, and cartilage

  16. Tertiary Structure • Specific overall shape of a protein • Cross links between R groups of amino acids in chain disulfide –S–S– + ionic –COO– H3N– H bonds C=O HO– hydrophobic –CH3 H3C–

  17. Globular and Fibrous Proteins Globular proteins Fibrous proteins “spherical” shape long, thin fibers Insulin Hair Hemoglobin Wool Enzymes Skin Antibodies Nails

  18. Quaternary Structure • Proteins with two or more chains • Example is hemoglobin Carries oxygen in blood Four polypeptide chains Each chain has a heme group to bind oxygen

  19. Protein Hydrolysis • Break down of peptide bonds • Requires acid or base, water and heat • Gives smaller peptides and amino acids • Similar to digestion of proteins using enzymes • Occurs in cells to provide amino acids to synthesize other proteins and tissues

  20. Hydrolysis of a Dipeptide

  21. Denaturation Disruption of secondary, tertiary and quaternary protein structure by heat/organics Break apart H bonds and disrupt hydrophobic attractions acids/ bases Break H bonds between polar R groups and ionic bonds heavy metal ions React with S-S bonds to form solids agitation Stretches chains until bonds break

  22. Secondary Structure – Triple Helix • Three polypeptide chains woven together • Glycine, proline, hydroxy proline and hydroxylysine • H bonding between –OH groups gives a strong structure • Typical of collagen, connective tissue, skin, tendons, and cartilage

  23. Applications of Denaturation • Hard boiling an egg • Wiping the skin with alcohol swab for injection • Cooking food to destroy E. coli. • Heat used to cauterize blood vessels • Autoclave sterilizes instruments • Milk is heated to make yogurt

  24. Functions of Proteins • Structure – collagen, keratin,elastin • Enzyme – lysozyme, amylase, • Transport – hemoglobin, lipoproteins • Contractile – actin, myosin, tubulin • Hormone – insulin, growth hormone • Antibody – IgG, • Pigment – melanin, rhodopsin • Recognition – CD4, MHC proteins

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