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Amino Acids and Peptides. Precursors of Proteins. Proteins (Amino Acids). Only 20 naturally-occurring amino acids Only linear structures. Functions of Proteins I. Catalysts and Metabolic Regulation – Enzymes Protection Serum antifreeze proteins Blood coagulation Antibodies
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Amino Acids and Peptides Precursors of Proteins
Proteins(Amino Acids) Only 20 naturally-occurring amino acids Only linear structures
Functions of Proteins I • Catalysts and Metabolic Regulation – Enzymes • Protection • Serum antifreeze proteins • Blood coagulation • Antibodies • Membrane Transport – Nutrients • Signal Transduction – Cell Surface Receptors • Structural Support – Collagen
Functions of Proteins II • Coordinated Motion – Muscle Contraction • Genetic Regulation – DNA Binding Proteins • Transport – Hemoglobin • Generation and Transport of Nerve Impulses • Nutrient Storage • Seed proteins • Casein in milk
Function of proteins largely due to properties of constituent amino acids
Stereochemistry Review Optical Activity
Diagram of a Polarimeter Figure 4-9
Rotation of Plane of Polarized Light Dextrorotatory (rotation to the right) = “d” or “+” Levorotatory (rotation to the left) = “l” or “-” Empirical
Optically Active Molecules are Asymmetric(i.e. not superimposible on their mirror image)
Chiral (Asymmetric) Carbon Four different substituents Stereoisomers C atoms of amino acids (except glycine) are asymmetric centers!
Chiral Centers Give Rise to Enantiomers(non-superimposible mirror images)
Distinguishing Stereoisomers • Rotation of plane of polarized light (not related to absolute configuration) • Cahn-Ingold-Prelog Method (R/S) • Fischer Method (projections)
Chirality and Biochemistry Life is Based on Chiral Molecules Biosynthetic processes almost invariably produce pure stereoisomers – e.g. L-amino acids
Pharmaceutical Industry Racemic Mixtures
Benign Figure 4-12
Devastating Figure 4-13
Chiral Synthesis Goal of Organic Chemistry
Aromatic Amino Acids Non-Polar Polar
Greek Nomenclature Figure 4-8
Isoelectric point (pI) pH at which the molecule has a net charge of 0. pI = pKa1 + pKa2 2 • Using the pKa’s on either side of the neutral species
Peptide Bonds N-Terminus C-Terminus Linear Polymers
Peptides Dipeptides Tripeptides Oligopeptides Polypeptides
Diversity Number = 20n
Variations in length and sequence contribute to the diversity of shapes and biological functions of proteins
Nomenclature of Peptides(Primary Structure) L-alanyl-L-seryl-L-aspartic acid [aspartate] Alanylserylaspartate AlaSerAsp ASD
Diversity(Tripeptide: 3 x 2 x 1 = 6 arrrangements) For 20 amino acids (small peptide): 20! = 2.43 x 1018
Some Modified Peptidyl Amino Acids Figure 4-14