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PDBsum entry 5eht
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References listed in PDB file
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Key reference
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Title
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Conformational tinkering drives evolution of a promiscuous activity through indirect mutational effects.
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Authors
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G.Yang,
N.Hong,
F.Baier,
C.J.Jackson,
N.Tokuriki.
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Ref.
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Biochemistry, 2016,
55,
4583-4593.
[DOI no: ]
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PubMed id
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Abstract
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How remote mutations can lead to changes in enzyme function at a molecular level
is a central question in evolutionary biochemistry and biophysics. Here, we
combine laboratory evolution with biochemical, structural, genetic, and
computational analysis to dissect the molecular basis for the functional
optimization of phosphotriesterase activity in a bacterial lactonase (AiiA) from
the metallo-β-lactamase (MBL) superfamily. We show that a 1000-fold increase in
phosphotriesterase activity is caused by a more favorable catalytic binding
position of the paraoxon substrate in the evolved enzyme that resulted from
conformational tinkering of the active site through peripheral mutations. A
nonmutated active site residue, Phe68, was displaced by ∼3 Å through the
indirect effects of two second-shell trajectory mutations, allowing molecular
interactions between the residue and paraoxon. Comparative mutational scanning,
i.e., examining the effects of alanine mutagenesis on different genetic
backgrounds, revealed significant changes in the functional roles of Phe68 and
other nonmutated active site residues caused by the indirect effects of
trajectory mutations. Our work provides a quantitative measurement of the impact
of second-shell mutations on the catalytic contributions of nonmutated residues
and unveils the underlying intramolecular network of strong epistatic mutational
relationships between active site residues and more remote residues. Defining
these long-range conformational and functional epistatic relationships has
allowed us to better understand the subtle, but cumulatively significant, role
of second- and third-shell mutations in evolution.
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