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Download Biochemistry Lecture 4 9/6/01
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Transcript
Amino Acids, Peptides, Protein Primary Structure Chapter 5 Amino Acids • Basic structural units of proteins • All have 3 common functional grps: – -NH2, -COOH, -H • Individual aa’s each have different R grp • These 4 grps att’d to a C • At neutral pH, exist as dipolar, or zwitterion, where amino grp exists as NH3+, carboxyl grp exists as COO- • Chiral a C, so have D, L stereoisomers – L form aa’s polymerize to proteins • Side chains vary in size, shape, charge, reactivity, H-bond capacity • Five groups of aa’s, based on R grp similarities • Some notes: – Glycine is only optically inactive aa – Cysteine has highly reactive sulfhydryl grp – Histidine R grp may be proton donor or acceptor at physio pH • 1) Nonpolar w/ aliphatic R grps – – – – – – Glycine (Gly, G) Alanine (Ala, A) Valine (Val, V) Leucine (Leu, L) Isoleucine (Ile, I) Proline (Pro, P) • 2) Aromatic R grps – Phenylalanine (Phe, F) – Tyrosine (Tyr, Y) – Tryptophan (Trp, W) • So these are quite hydrophobic • 3) Polar w/ uncharged R grps – – – – – – Serine (Ser, S) Threonine (Thr, T) Cysteine (Cys, C) Methionine (Met, M) Asparagine (Asn, N) Glutamine (Gln, Q) • 4) Polar w/ + charged R grps at physio pH – Lysine (Lys, K) – Arginine (Arg, R) – Histidine (His, H) • 5) Polar w/ - charged R grps at physio pH – Aspartate (Asp, D) – Glutamate (Glu, E) Amino Acid Titration Curves • Aa’s are weak acids, so can construct titration curves for each – REMEMBER: Add OH-, measuring change in pH as titrate w/ OH-. Plot OH- added on x axis vs. pH on y axis • These weak acids have 2 abstractable H’s, both on grps att’d to a C: one on carboxyl grp, one on amino grp • So have 2 inflection pts – Shape of each inflection is similar to inflection seen with monoprotic acid (seen last chapter) – So each aa has 2 pKa’s • At midpoint of titration ([OH-]=1 eq), cmpd is fully dipolar – – – – – – Has no net electrical charge Called isoelectric point Isoelectric pH = pI Each amino acid has characteristic pI At any pH<pI, aa has net + charge At any pH>pI, aa has net - charge • pKa1 <<<< pKa2 – First H+ released from aa is much more easily given up than second H+ • 2 pKa’s = 2 regions of buffering capacity • Aa’s w/ ionizable R grps (lys, arg, his) have 3rd pKa • Two aa’s can be linked by peptide bonds to yield a dipeptide – Condensation rxn; H2O removed – Endothermic rxn – Stable under physio cond’s; broken w/ boiling in strong acid/base • In dipeptide bond, a carboxyl of aa1 joined to a amino of aa2 • In living systems, peptide bond form’n assisted by ribosomes in translation process • Oligopeptide = several aa’s joined by peptide bonds • Polypeptide = many aa’s = small protein – Protein commonly MW . 10,000 • Aa residue of peptide w/ free amino grp called amino terminus • Aa residue of peptide w/ free carboxyl grp = carboxy terminus • At neutral pH, peptides have 1 free NH3+ and 1 free COO– BUT R grps on each aa may be ionized – Each peptide has characteristic pI – Peptide ionization = sum of that of all R grps of aa’s which make up the peptide
