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PDBsum entry 4dux
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References listed in PDB file
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Key reference
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Title
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Structural explanation for allolactose (lac operon inducer) synthesis by lacz β-Galactosidase and the evolutionary relationship between allolactose synthesis and the lac repressor.
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Authors
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R.W.Wheatley,
S.Lo,
L.J.Jancewicz,
M.L.Dugdale,
R.E.Huber.
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Ref.
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J Biol Chem, 2013,
288,
12993-13005.
[DOI no: ]
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PubMed id
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Abstract
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β-Galactosidase (lacZ) has bifunctional activity. It hydrolyzes lactose to
galactose and glucose and catalyzes the intramolecular isomerization of lactose
to allolactose, the lac operon inducer. β-Galactosidase promotes the
isomerization by means of an acceptor site that binds glucose after its cleavage
from lactose and thus delays its exit from the site. However, because of its
relatively low affinity for glucose, details of this site have remained elusive.
We present structural data mapping the glucose site based on a substituted
enzyme (G794A-β-galactosidase) that traps allolactose. Various lines of
evidence indicate that the glucose of the trapped allolactose is in the acceptor
position. The evidence includes structures with Bis-Tris
(2,2-bis(hydroxymethyl)-2,2',2″-nitrilotriethanol) and L-ribose in the site
and kinetic binding studies with substituted β-galactosidases. The site is
composed of Asn-102, His-418, Lys-517, Ser-796, Glu-797, and Trp-999. Ser-796
and Glu-797 are part of a loop (residues 795-803) that closes over the active
site. This loop appears essential for the bifunctional nature of the enzyme
because it helps form the glucose binding site. In addition, because the loop is
mobile, glucose binding is transient, allowing the release of some glucose.
Bioinformatics studies showed that the residues important for interacting with
glucose are only conserved in a subset of related enzymes. Thus, intramolecular
isomerization is not a universal feature of β-galactosidases. Genomic analyses
indicated that lac repressors were co-selected only within the conserved subset.
This shows that the glucose binding site of β-galactosidase played an important
role in lac operon evolution.
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