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PDBsum entry 1pfx
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Hydrolase/hydrolase inhibitor
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PDB id
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1pfx
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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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X-Ray structure of clotting factor ixa: active site and module structure related to xase activity and hemophilia b.
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Authors
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H.Brandstetter,
M.Bauer,
R.Huber,
P.Lollar,
W.Bode.
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Ref.
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Proc Natl Acad Sci U S A, 1995,
92,
9796-9800.
[DOI no: ]
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PubMed id
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Abstract
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Hereditary deficiency of factor IXa (fIXa), a key enzyme in blood coagulation,
causes hemophilia B, a severe X chromosome-linked bleeding disorder afflicting 1
in 30,000 males; clinical studies have identified nearly 500 deleterious
variants. The x-ray structure of porcine fIXa described here shows the atomic
origins of the disease, while the spatial distribution of mutation sites
suggests a structural model for factor X activation by phospholipid-bound fIXa
and cofactor VIIIa. The 3.0-A-resolution diffraction data clearly show the
structures of the serine proteinase module and the two preceding epidermal
growth factor (EGF)-like modules; the N-terminal Gla module is partially
disordered. The catalytic module, with covalent inhibitor D-Phe-1I-Pro-2I-Arg-3I
chloromethyl ketone, most closely resembles fXa but differs significantly at
several positions. Particularly noteworthy is the strained conformation of
Glu-388, a residue strictly conserved in known fIXa sequences but conserved as
Gly among other trypsin-like serine proteinases. Flexibility apparent in
electron density together with modeling studies suggests that this may cause
incomplete active site formation, even after zymogen, and hence the low
catalytic activity of fIXa. The principal axes of the oblong EGF-like domains
define an angle of 110 degrees, stabilized by a strictly conserved and
fIX-specific interdomain salt bridge. The disorder of the Gla module, whose
hydrophobic helix is apparent in electron density, can be attributed to the
absence of calcium in the crystals; we have modeled the Gla module in its
calcium form by using prothrombin fragment 1. The arched module arrangement
agrees with fluorescence energy transfer experiments. Most hemophilic mutation
sites of surface fIX residues occur on the concave surface of the bent molecule
and suggest a plausible model for the membrane-bound ternary fIXa-FVIIIa-fX
complex structure: fIXa and an equivalently arranged fX arch across an
underlying fVIIIa subdomain from opposite sides; the stabilizing fVIIIa
interactions force the catalytic modules together, completing fIXa active site
formation and catalytic enhancement.
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