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PDBsum entry 2hoz
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References listed in PDB file
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Key reference
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Title
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Intersubunit signaling in glutamate-1-Semialdehyde-Aminomutase.
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Authors
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J.Stetefeld,
M.Jenny,
P.Burkhard.
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Ref.
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Proc Natl Acad Sci U S A, 2006,
103,
13688-13693.
[DOI no: ]
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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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Enzymes are highly dynamic and tightly controlled systems. However, allosteric
communication linked to catalytic turnover is poorly understood. We have
performed an integrated approach to trap several catalytic intermediates in the
alpha2-dimeric key enzyme of chlorophyll biosynthesis, glutamate-1-semialdehyde
aminomutase. Our data reveal an active-site "gating loop," which
undergoes a dramatic conformational change during catalysis, that is
simultaneously open in one subunit and closed in the other. This loop movement
requires a beta-sheet-to-alpha-helix transition to assume the closed
conformation, thus facilitating transport of substrate toward, and concomitantly
forming, an integral part of the active site. The accompanying intersubunit
cross-talk, which controls negative cooperativity between the allosteric pair,
was explored at the atomic level. The central elements of the communication
triad are the cofactor bound to different catalytic intermediates, the interface
helix, and the gating loop. Together, they form a molecular switch in which the
cofactor acts as a central signal transmitter linking the subunit interface with
the gating loop.
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Figure 1.
Crystal structure of GSAM in the PMP (KE-4)/PLP (DAVA-IA)
form. (A) Overall stereo presentation of α2-dimeric GSAM. In
subunit A, the N- and C-terminal domains as well as the cofactor
binding domain are shown in different blue tones. Subunit B is
shown in yellow. Cofactors and catalytic intermediates are
highlighted. Both termini are denoted. The gating-loop regions
disobeying local 2-fold symmetry and the interface helices
(residues 121–138) are shown in blue (open) and red (closed),
respectively. The gating loop is located at the dimer interface
and extends toward the active site in the closed conformation.
(B) Superposition of residues 150–183 in open (light
blue/blue) and closed (yellow/red) conformation. Cofactors
within the active sites are colored accordingly. The hinge
element (Leu-158 and Ser-172) and Ser-163 are denoted. The
β-hydroxy group of Ser-163 moves ≈22 Å.
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Figure 2.
Transition of the gating loop between opened, closed, and
reopened conformation. (A) View of the opened gating loop from
the crystal structure of the double PMP form of GSAM (2).
Fixation of DAVA with its 4′-amino group suggests that the
gating loop offers a channeling mechanism to transport substrate
into the active-site pocket. The backbone helix is suggested to
be the anchoring point for GluTR (26). (B) Active-site pocket in
the closed gating-loop conformation. Shown is a superposition of
intermediate step iii/preparation 3 (stick-and-ball mode and
water as red spheres) and step iv/preparation 4 (in yellow). In
the external aldimine, the carboxy group fixation of the
intermediate is mediated by three water molecules (W1–W3) and
Ser-29. In the DAVA-IA state, all hydrogen bonds between the
catalytic intermediate and the water molecules are disrupted and
W3 is replaced by the carboxy group of DAVA. (C) Active-site
pocket in the reopened and disordered gating-loop conformation.
Shown is a superposition of step vi/preparation 4
(stick-and-ball mode and water as red spheres) and step
iv/preparation 3 (in yellow). Electrostatic interactions of the
catalytic intermediate with Tyr-301* and Ser-163 are absent. In
KE-4 and EA-5, Glu-406 reveals multiple conformations and the
carboxy group of ketimine-4 interacts again with waters W2 and
W3. Dotted lines in black and yellow indicate hydrogen bonds in
the EA-5/KE-4 and the DAVA-IA states, respectively. Residues
marked with an asterisk depict the other subunit.
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