1 / 41

Amino Acids, Peptides, and Proteins.

Amino Acids, Peptides, and Proteins. Classification of Amino Acids. Fundamentals. While their name implies that amino acids are compounds that contain an —NH 2 group and a —CO 2 H group, these groups are actually present as —NH 3 + and —CO 2 – respectively.

ray-petty
Download Presentation

Amino Acids, Peptides, and Proteins.

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Amino Acids, Peptides, and Proteins.

  2. Classification of Amino Acids

  3. Fundamentals • While their name implies that amino acids are compounds that contain an —NH2 group and a —CO2H group, these groups are actually present as —NH3+ and —CO2– respectively. • They are classified as a, b, g, etc. amino acids according the carbon that bears the nitrogen.

  4. + NH3 – CO2 + – H3NCH2CH2CO2 + – H3NCH2CH2CH2CO2 Amino Acids an a-amino acid that is anintermediate in the biosynthesisof ethylene a a b-amino acid that is one ofthe structural units present incoenzyme A b a g-amino acid involved inthe transmission of nerveimpulses g

  5. The 20 Key Amino Acids • More than 700 amino acids occur naturally, but 20 of them are especially important. • These 20 amino acids are the building blocks of proteins. All are a-amino acids. • They differ in respect to the group attached to the a carbon. • These 20 are listed in Table 27.1 (p 1054-1055).

  6. O H + – H3N O C C R Table 27.1 • The amino acids obtained by hydrolysis of proteins differ in respect to R (the side chain). • The properties of the amino acid vary as the structure of R varies.

  7. O H + – H3N O C C H Table 27.1 • Glycine is the simplest amino acid. It is the only one in the table that is achiral. • In all of the other amino acids in the table the a carbon is a stereogenic center. Glycine (Gly or G)

  8. Table 27.1 O H + – H3N O C C CH3 Alanine (Ala or A)

  9. Table 27.1 O H + – H3N O C C CH(CH3)2 Valine (Val or V)

  10. Table 27.1 O H + – H3N O C C CH2CH(CH3)2 Leucine (Leu or L)

  11. Table 27.1 O H + – H3N O C C CH3CHCH2CH3 Isoleucine (Ile or I)

  12. Table 27.1 O H + – H3N O C C CH3SCH2CH2 Methionine (Met or M)

  13. O H + – H2N O C C CH2 H2C CH2 Table 27.1 Proline (Pro or P)

  14. O H + – H3N O C C CH2 Table 27.1 Phenylalanine (Phe or F)

  15. O H + – H3N O C C CH2 N H Table 27.1 Tryptophan (Trp or W)

  16. O H + – H3N O C C H2NCCH2 O Table 27.1 Asparagine (Asn or N)

  17. O H + – H3N O C C H2NCCH2CH2 O Table 27.1 Glutamine (Gln or Q)

  18. Table 27.1 O H + – H3N O C C CH2OH Serine (Ser or S)

  19. Table 27.1 O H + – H3N O C C CH3CHOH Threonine (Thr or T)

  20. O H + – H3N O C C – OCCH2 O Table 27.1 Aspartic Acid (Asp or D)

  21. O H + – H3N O C C – OCCH2CH2 O Table 27.1 Glutamic Acid (Glu or E)

  22. O H + – H3N O C C CH2 OH Table 27.1 Tyrosine (Tyr or Y)

  23. Table 27.1 O H + – H3N O C C CH2SH Cysteine (Cys or C)

  24. Table 27.1 O H + – H3N O C C + CH2CH2CH2CH2NH3 Lysine (Lys or K)

  25. Table 27.1 O H + – H3N O C C CH2CH2CH2NHCNH2 + NH2 Arginine (Arg or R)

  26. CH2 N NH Table 27.1 O H + – H3N O C C Histidine (His or H)

  27. 27.2Stereochemistry of Amino Acids

  28. CO2 + H3N H R Configuration of a-Amino Acids • Glycine is achiral. All of the other amino acids in proteins have the L-configuration at their a carbon.

  29. 27.7Peptides

  30. Peptides • Peptides are compounds in which an amide bond links the amino group of one a-amino acid and the carboxyl group of another. • An amide bond of this type is often referred to as a peptide bond.

  31. H H O O + + – – O O H3N H3N C C C C CH3 H Alanine and Glycine

  32. H H O O + – H3N N O C C C C CH3 H H Alanylglycine • Two a-amino acids are joined by a peptide bond in alanylglycine. It is a dipeptide.

  33. H H O O + – H3N N O C C C C CH3 H H Alanylglycine C-terminus N-terminus Ala—Gly AG

  34. H H O O + – H3N N O C C C C CH3 H H H H O O + – H3N N O C C C C H H CH3 Alanylglycine and glycylalanine are constitutional isomers Alanylglycine Ala—Gly AG Glycylalanine Gly—Ala GA

  35. H H O O + – H3N N O C C C C CH3 H H Alanylglycine • The peptide bond is characterized by a planar geometry.

  36. Higher Peptides • Peptides are classified according to the number of amino acids linked together. • dipeptides, tripeptides, tetrapeptides, etc. • Leucine enkephalin is an example of a pentapeptide.

  37. Leucine Enkephalin Tyr—Gly—Gly—Phe—LeuYGGFL

  38. 4 5 3 Ile—Gln—Asn 2 Tyr Cys—Pro—Leu—GlyNH2 6 7 8 9 1 Cys S S Oxytocin • Oxytocin is a cyclic nonapeptide. • Instead of having its amino acids linked in an extended chain, two cysteine residues are joined by an S—S bond. C-terminus N-terminus

  39. Oxytocin S—S bond An S—S bond between two cysteines isoften referred to as a disulfide bridge.

More Related