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4.2: Properties of Amino Acids

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    178777
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    Learning Objectives

    • To recognize amino acids and classify them based on the characteristics of their side chains.

    The proteins in all living species, from bacteria to humans, are constructed from the same set of 20 amino acids, so called because each contains an amino group attached to a carboxylic acid. The amino acids in proteins are α-amino acids, which means the amino group is attached to the α-carbon of the carboxylic acid. Humans can synthesize only about half of the needed amino acids; the remainder must be obtained from the diet and are known as essential amino acids. However, two additional amino acids have been found in limited quantities in proteins: Selenocysteine was discovered in 1986, while pyrrolysine was discovered in 2002.

    The amino acids are colorless, nonvolatile, crystalline solids, melting and decomposing at temperatures above 200°C. These melting temperatures are more like those of inorganic salts than those of amines or organic acids and indicate that the structures of the amino acids in the solid state and in neutral solution are best represented as having both a negatively charged group and a positively charged group. Such a species is known as a zwitterion.

    zwitterion.jpg

    Classification

    In addition to the amino and carboxyl groups, amino acids have a side chain or R group attached to the α-carbon. Each amino acid has unique characteristics arising from the size, shape, solubility, and ionization properties of its R group. As a result, the side chains of amino acids exert a profound effect on the structure and biological activity of proteins. Although amino acids can be classified in various ways, one common approach is to classify them according to whether the functional group on the side chain at neutral pH is nonpolar, polar but uncharged, negatively charged, or positively charged. The structures and names of the 20 amino acids, their one- and three-letter abbreviations, and some of their distinctive features are given in Table \(\PageIndex{1}\).

    Table \(\PageIndex{1}\): Common Amino Acids Found in Proteins
    Common Name Abbreviation Structural Formula (at pH 6) Molar Mass Distinctive Feature
    Amino acids with a nonpolar R group
    glycine gly (G) gly.jpg 75 the only amino acid lacking a chiral carbon
    alanine ala (A) ala.jpg 89
    valine val (V) val.jpg 117 a branched-chain amino acid
    leucine leu (L) leu.jpg 131 a branched-chain amino acid
    isoleucine ile (I) ile.jpg 131 an essential amino acid because most animals cannot synthesize branched-chain amino acids
    phenylalanine phe (F) phe.jpg 165 also classified as an aromatic amino acid
    tryptophan trp (W) trp.jpg 204 also classified as an aromatic amino acid
    methionine met (M) met.jpg 149 side chain functions as a methyl group donor
    proline pro (P) pro.jpg 115 contains a secondary amine group; referred to as an α-imino acid
    Amino acids with a polar but neutral R group
    serine ser (S) ser.jpg 105 found at the active site of many enzymes
    threonine thr (T) thr.jpg 119 named for its similarity to the sugar threose
    cysteine cys (C) cys.jpg 121 oxidation of two cysteine molecules yields cystine
    tyrosine tyr (Y) tyr.jpg 181 also classified as an aromatic amino acid
    asparagine asn (N) asn.jpg 132 the amide of aspartic acid
    glutamine gln (Q) gln.jpg 146 the amide of glutamic acid
    Amino acids with a negatively charged R group
    aspartic acid asp (D) asp.jpg 132 carboxyl groups are ionized at physiological pH; also known as aspartate
    glutamic acid glu (E) glu.jpg 146 carboxyl groups are ionized at physiological pH; also known as glutamate
    Amino acids with a positively charged R group
    histidine his (H) his.jpg 155 the only amino acid whose R group has a pKa (6.0) near physiological pH
    lysine lys (K) lys.jpg 147
    arginine arg (R) arg.jpg 175 almost as strong a base as sodium hydroxide

    The first amino acid to be isolated was asparagine in 1806. It was obtained from protein found in asparagus juice (hence the name). Glycine, the major amino acid found in gelatin, was named for its sweet taste (Greek glykys, meaning “sweet”). In some cases an amino acid found in a protein is actually a derivative of one of the common 20 amino acids (one such derivative is hydroxyproline). The modification occurs after the amino acid has been assembled into a protein.

    proline, hydroxyproline.jpg

    Configuration

    Notice in Table \(\PageIndex{1}\) that glycine is the only amino acid whose α-carbon is not chiral. Therefore, with the exception of glycine, the amino acids could theoretically exist in either the D- or the L-enantiomeric form and rotate plane-polarized light. As with sugars, chemists use glyceraldehyde as the reference compound for the assignment of configuration to amino acids. Its structure closely resembles an amino acid structure except that in the latter, an amino group takes the place of the OH group on the chiral carbon of the sugar.

    glyceraldehyde.jpg

    We learned that all naturally occurring sugars belong to the D series. It is interesting, therefore, that nearly all known plant and animal proteins are composed entirely of L-amino acids. However, certain bacteria contain D-amino acids in their cell walls, and several antibiotics (e.g., actinomycin D and the gramicidins) contain varying amounts of D-leucine, D-phenylalanine, and D-valine.

    Summary

    Amino acids can be classified based on the characteristics of their distinctive side chains as nonpolar, polar but uncharged, negatively charged, or positively charged. The amino acids found in proteins are L-amino acids.

    Concept Review Exercises

    1. What is the general structure of an α-amino acid?

    2. Identify the amino acid that fits each description.

      1. also known as aspartate
      2. almost as strong a base as sodium hydroxide
      3. does not have a chiral carbon

    Answers


    1. CRE A1.jpg
      1. aspartic acid
      2. arginine
      3. glycine

    Exercises

    1. Write the side chain of each amino acid.

      1. serine
      2. arginine
      3. phenylalanine
    2. Write the side chain of each amino acid.

      1. aspartic acid
      2. methionine
      3. valine
    3. Draw the structure for each amino acid.

      1. alanine
      2. cysteine
      3. histidine
    4. Draw the structure for each amino acid.

      1. threonine
      2. glutamic acid
      3. leucine
    5. Identify an amino acid whose side chain contains a(n)

      1. amide functional group.
      2. aromatic ring.
      3. carboxyl group.
    6. Identify an amino acid whose side chain contains a(n)

      1. OH group
      2. branched chain
      3. amino group

    Answers

      1. CH2OH

      2. E A1b.jpg

      3. E A1c.jpg

      1. E A3a.jpg

      2. E A3b.jpg

      3. E A3c.jpg
      1. asparagine or glutamine
      2. phenylalanine, tyrosine, or tryptophan
      3. aspartic acid or glutamic acid

    4.2: Properties of Amino Acids is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by LibreTexts.

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