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PDBsum entry 3quc
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References listed in PDB file
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Key reference
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Title
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Divergence of structure and function in the haloacid dehalogenase enzyme superfamily: bacteroides thetaiotaomicron bt2127 is an inorganic pyrophosphatase.
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Authors
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H.Huang,
Y.Patskovsky,
R.Toro,
J.D.Farelli,
C.Pandya,
S.C.Almo,
K.N.Allen,
D.Dunaway-Mariano.
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Ref.
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Biochemistry, 2011,
50,
8937-8949.
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PubMed id
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Note: In the PDB file this reference is
annotated as "TO BE PUBLISHED". The citation details given above have
been manually determined.
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Abstract
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The explosion of protein sequence information requires that current strategies
for function assignment evolve to complement experimental approaches with
computationally based function prediction. This necessitates the development of
strategies based on the identification of sequence markers in the form of
specificity determinants and a more informed definition of orthologues. Herein,
we have undertaken the function assignment of the unknown haloalkanoate
dehalogenase superfamily member BT2127 (Uniprot accession code Q8A5 V9) from
Bacteroides thetaiotaomicron using an integrated
bioinformatics-structure-mechanism approach. The substrate specificity profile
and steady-state rate constants of BT2127 (with a k(cat)/K(m) value for
pyrophosphate of ~1 × 10(5) M(-1) s(-1)), together with the gene context,
support the assigned in vivo function as an inorganic pyrophosphatase. The X-ray
structural analysis of wild-type BT2127 and several variants generated by
site-directed mutagenesis shows that substrate discrimination is based, in part,
on active site space restrictions imposed by the cap domain (specifically by
residues Tyr76 and Glu47). Structure-guided site-directed mutagenesis coupled
with kinetic analysis of the mutant enzymes identified the residues required for
catalysis, substrate binding, and domain-domain association. On the basis of
this structure-function analysis, the catalytic residues Asp11, Asp13, Thr113,
and Lys147 as well the metal binding residues Asp171, Asn172, and Glu47 were
used as markers to confirm BT2127 orthologues identified via sequence searches.
This bioinformatic analysis demonstrated that the biological range of BT2127
orthologue is restricted to the phylum Bacteroidetes/Chlorobi. The key
structural determinants in the divergence of BT2127 and its closest homologue,
β-phosphoglucomutase, control the leaving group size (phosphate vs glucose
phosphate) and the position of the Asp acid/base in the open versus closed
conformations. HADSF pyrophosphatases represent a third mechanistic and fold
type for bacterial pyrophosphatases.
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