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PDBsum entry 1ca0
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Complex (serine protease/inhibitor)
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PDB id
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1ca0
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Contents |
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11 a.a.
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131 a.a.
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97 a.a.
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54 a.a.
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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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Crystal structures of bovine chymotrypsin and trypsin complexed to the inhibitor domain of alzheimer'S amyloid beta-Protein precursor (appi) and basic pancreatic trypsin inhibitor (bpti): engineering of inhibitors with altered specificities.
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Authors
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A.J.Scheidig,
T.R.Hynes,
L.A.Pelletier,
J.A.Wells,
A.A.Kossiakoff.
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Ref.
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Protein Sci, 1997,
6,
1806-1824.
[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 were identified by an automated
search of PubMed on title and author
names, giving a
percentage match of
78%.
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Abstract
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The crystal structures of the inhibitor domain of Alzheimer's amyloid
beta-protein precursor (APPI) complexed to bovine chymotrypsin (C-APPI) and
trypsin (T-APPI) and basic pancreatic trypsin inhibitor (BPTI) bound to
chymotrypsin (C-BPTI) have been solved and analyzed at 2.1 A, 1.8 A, and 2.6 A
resolution, respectively. APPI and BPTI belong to the Kunitz family of
inhibitors, which is characterized by a distinctive tertiary fold with three
conserved disulfide bonds. At the specificity-determining site of these
inhibitors (P1), residue 15(I)4 is an arginine in APPI and a lysine in BPTI,
residue types that are counter to the chymotryptic hydrophobic specificity. In
the chymotrypsin complexes, the Arg and Lys P1 side chains of the inhibitors
adopt conformations that bend away from the bottom of the binding pocket to
interact productively with elements of the binding pocket other than those
observed for specificity-matched P1 side chains. The stereochemistry of the
nucleophilic hydroxyl of Ser 195 in chymotrypsin relative to the scissile P1
bond of the inhibitors is identical to that observed for these groups in the
trypsin-APPI complex, where Arg 15(I) is an optimal side chain for tryptic
specificity. To further evaluate the diversity of sequences that can be
accommodated by one of these inhibitors, APPI, we used phage display to randomly
mutate residues 11, 13, 15, 17, and 19, which are major binding determinants.
Inhibitors variants were selected that bound to either trypsin or chymotrypsin.
As expected, trypsin specificity was principally directed by having a basic side
chain at P1 (position 15); however, the P1 residues that were selected for
chymotrypsin binding were His and Asn, rather than the expected large
hydrophobic types. This can be rationalized by modeling these hydrophilic side
chains to have similar H-bonding interactions to those observed in the
structures of the described complexes. The specificity, or lack thereof, for the
other individual subsites is discussed in the context of the "allowed" residues
determined from a phage display mutagenesis selection experiment.
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Secondary reference #1
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Title
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X-Ray crystal structure of the protease inhibitor domain of alzheimer'S amyloid beta-Protein precursor.
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Authors
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T.R.Hynes,
M.Randal,
L.A.Kennedy,
C.Eigenbrot,
A.A.Kossiakoff.
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Ref.
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Biochemistry, 1990,
29,
10018-10022.
[DOI no: ]
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PubMed id
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