Amino acids, peptides, and proteins

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Presentation transcript:

Amino acids, peptides, and proteins Chapter 3 Amino acids, peptides, and proteins

Properties of Amino Acids capacity to polymerize novel acid-base properties varied structure and chemical functionality chirality

Basic Amino Acid Structure side chain carboxyl group amino group a-carbon a-carbon is chiral (except for glycine) at pH 7.0 uncharged amino acids are zwitterions amino acids have a tetrahedral structure

Amino Acid Enantiomers Steroisomers / enantiomers Biological system only synthesize and use L-amino-acids

Amino Acid Classification Aliphatic Aromatic Sulfur containing Polar/uncharged basic/acidic Hydrophobic Hydrophillic

Aliphatic (alkane) Amino Acids Proline (pro, P)- cyclic “imino acid” Glycine(gly, G)-only non-chiral amino acid, not hydrophobic Alanine (ala, A) – R-group = methyl-group Valine (Val, V) –Think V! Leucine (Leu, L) – Isoleucine (Ile, I) -2 chiral carbons Hydrophobicity

Aromatic Amino Acids All very hydrophobic All contain aromatic group Absorb UV at 280 nm Phenylalanine (Phe, F) Tyrosine (Tyr, Y) – -OH ionizable (pKa = 10.5), H-Bonding Tryptophan (Trp, W) – bicyclic indole ring, H-Bonding

Sulfur Containing Amino Acids Methionine (Met, M) – “start” amino acid, very hydrophobic Cysteine (Cys, C) – sulfur in form of sulfhydroyl, important in disulfide linkages, weak acid, can form hydrogen bonds.

Acidic Amino Acids Contain carboxyl groups (weaker acids than a-carboxyl-group) Negatively charged at physiological pH, present as conjugate bases (therefore –ate not –ic acids) Carboxyl groups function as nucleophiles in some enzymatic reactions Aspartate – Glutamate –

Basic Amino Acids Hydrophillic nitrogenous bases Positively charged at physiological pH Histidine – imidazole ring protonated/ionized, only amino acid that functions as buffer in physiol range. Lysine - diamino acid, protonated at pH 7.0 Arginine - guianidinium ion always protonated, most basic amino acid

Polar Uncharged Amino Acids Polar side groups, hydrophillic in nature, can form hydrogen bonds Hydroxyls of Ser and Thr weakly ionizable Serine (Ser, S) – looks like Ala w/ -OH Threonine (Thr, T) – 2 chiral carbons Asparagine (Asn, N) – amide of aspartic acid Glutamine (Gln, Q) – amide of glutamic acid

Essential/Non-Essential Amino Acids Essential –histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophan, valine Non-essential – alanine, arginine*, aspartate, asparagine, cysteine*, glutamate, glutamine, glycine*, proline*, serine, tyrosine*

Titration Curve for Alanine pK1 carboxylic acid = 2 pK2 amino group = 10 pI = (pK1+ pK2)/2 pI (isoelectric point) = the pH at which the number of positive and negative charges on a population of molecules is equal (i.e. no net charge).

Titration Curve for Glutamic Acid pK1 carboxylic acid = 2.2 pK2 R group = 4.3 pK3 amino group = 9.7 pI = (pK1+ pK2)/2 pI = (2.2+4.3)/2 pI = 3.25

Titration Curve for Lysine pK1 carboxylic acid = 2.2 pK2 amino group = 9.0 pK3 R group = 10.5 pI = (pK2+ pK3)/2 pI = (9+10.5)/2 pI = 9.75

pKa’s of charged amino acids R-groups Aspartate/Glutamate = 4.0 Histidine = 6.0 Cysteine = 8.4 Tyrosine = 10.5 Lysine = 10.5 Arginine = 12.5

Protein Nomenclature Peptides 2 – 50 amino acids Proteins >50 amino acids Amino acid with free a-amino group is the amino-terminal or N-terminal residue Amino acid with free a-carboxyl group is the carboxyl-terminal or C-terminal residue Three letter code – Met-Gly-Glu-Thr-Arg-His Single letter code – M-G-E-T-R-H

Peptide Bond Formation

Partial double bond nature of peptide bond

Stability and Formation of the Peptide Bond Hydrolysis of peptide bond favored energetically, but uncatalyzed reaction very slow. Strong mineral acid, such as 6 M HCl, good catalyst for hydrolysis Amino acids must be "activated" by ATP-driven reaction to be incorporated into proteins

Enzymatic and Chemical Cleavage of Peptide Linkage

Titration Curve of a Tetrapeptide +H3N-Glu-Gly-Ala-Lys-COO- Proteins have pIs

Ala-Cys-Glu-Tyr-Trp-Lys-Arg-His-Pro-Gly Assigment Ala-Cys-Glu-Tyr-Trp-Lys-Arg-His-Pro-Gly Draw the decapeptide at pH 1, 7, and 12. (pay attention to the form the N- and C- terminal and each R-group takes on at each pH) Calculate the overall charge at each pH. Write out the one letter code for the decapeptide