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PDBsum entry 1g4x
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Strain is more important than electrostatic interaction in controlling the pka of the catalytic group in aspartate aminotransferase.
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Authors
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H.Mizuguchi,
H.Hayashi,
K.Okada,
I.Miyahara,
K.Hirotsu,
H.Kagamiyama.
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Ref.
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Biochemistry, 2001,
40,
353-360.
[DOI no: ]
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PubMed id
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Abstract
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Systematic single and multiple replacement studies have been applied to
Escherichia coli aspartate aminotransferase to probe the electrostatic effect of
the two substrate-binding arginine residues, Arg292 and Arg386, and the
structural effect of the pyridoxal 5'-phosphate-Asn194-Arg386 hydrogen-bond
linkage system (PLP-N-R) on the pK(a) value of the Schiff base formed between
pyridoxal 5'-phosphate (PLP) and Lys258. The electrostatic effects of the two
arginine residues cannot be assessed by simple mutational studies of the
residues. PLP-N-R lowers the pK(a) value of the PLP-Lys258 Schiff base by
keeping it in the distorted conformation, which is unfavorable for protonation.
Mutation of Arg386 eliminates its hydrogen bond with Asn194 and partially
disrupts PLP-N-R, thereby relaxing the strain of the Schiff base. On the other
hand, mutation of Arg292, the large domain residue that interacts with the small
domain residue Asp15, makes the domain opening easier. Because PLP-N-R lies
between the two domains, the domain opening increases the strain of the Schiff
base. Therefore, the true electrostatic effects of Arg292 and Arg386 could be
derived from mutational analysis of the enzyme in which PLP-N-R had been
completely disrupted by the Asn194Ala mutation. Through the analyses, we could
dissect the electrostatic and structural effects of the arginine mutations on
the Schiff base pK(a). The positive charges of the two arginine residues and the
PLP-N-R-mediated strain of the Schiff base lower the Schiff base pK(a) by 0.7
and 1.7, respectively. Thus, the electrostatic effect of the arginine residues
is not as strong as has historically been thought, and this finding
substantiates our recent finding that the imine-pyridine torsion of the Schiff
base is the primary determinant (2.8 unit decrease) of the extremely low pK(a)
value of the Schiff base [Hayashi, H., Mizuguchi, H., and Kagamiyama, H. (1998)
Biochemistry 37, 15076-15085].
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