In each of the following cases, predict whether the pKa value of the first residue will be upshifted or downshifted relative to the typical pKa value (Table 2.1) based on the microenvironment. Briefly (in
  no more than 2-3 sentences) explain your reasoning. 
(a) A His residue adjacent to two Arg residues on the surface of a protein
(b) A Cys residue adjacent to an Asp residue in the active site of an enzyme
(c) A Lys residue buried in the hydrophobic core of a globular protein

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Glutamate (Glu, E) C÷0 CH₂ CO CH₂ CH₂ COO- -COO- mate E) TABLE 2.1 Typical pK values of ionizable groups in proteins Group Terminal a-carboxyl group Aspartic acid Glutamic acid Histidine Terminal a-amino group Cysteine Tyrosine Lysine Arginine H Acid 0 -N + H -S -N + + -N N=C H + H ... H H H H H -Н H H H H O N-H 1 N-H H H Base 2 N₂ -N -N Bil H 1 - -N FO -S- H H N-C H H H N H -0- N-H Typical pK *pK values depend on temperature, ionic strength, and the microenvironment of the ionizable 3.1 4.1 6.0 8.0 8.3 10.9 10.8 12.5 group histidine, and aspartic and glutamic acids in proteins. Two other groups in proteins—the terminal a-amino group and the terminal a-carboxyl group—can be ionized, and typical pK values for these groups also are included in Table 2.1. Amino acids are often designated by either a three-letter abbreviation of a one-letter symbol (Table 2.2). The abbreviations for amino acids are the first three letters of their names, except for asparagine (Asn), glutamine (Gln), isoleucine (Ile), and tryptophan (Trp). The symbols for acids are the first letters of their names (e.g., G for glycine and L for leucine); many amino a Z-H H Homose and versa acids tions t acids n homose that limi proteins their cycl 2.2 Pri Pe Proteins a amino ac is called a two amin The equi synthesis requires a kineti