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109 a.a.
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115 a.a.
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510 a.a.
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Theoretical model |
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PDB id:
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Immune system
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Title:
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Structural superposition of mab 806- egfr peptide complex with egfr hypothetical extended monomer
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Structure:
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Light chain from fv fragment of monoclonal antibody 806. Chain: l. Heavy chain from fv fragment of monoclonal antibody 806. Chain: h. Epidermal growth factor receptor. Chain: a. Synonym: receptor tyrosine-protein kinase erbb-1.
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Source:
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Mus musculus. Mouse. Homo sapiens. Human
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Authors:
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A.Sivasubramanian,G.Chao,H.M.Pressler,K.D.Wittrup,J.J.Gray
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Key ref:
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A.Sivasubramanian
et al.
(2006).
Structural Model of the mAb 806-EGFR Complex Using Computational Docking followed by Computational and Experimental Mutagenesis.
Structure,
14,
401-414.
PubMed id:
DOI:
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Date:
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08-Nov-05
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Release date:
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04-Apr-06
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PROCHECK
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Headers
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References
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Q7TS98
(Q7TS98_MOUSE) -
Anti-colorectal carcinoma light chain from Mus musculus
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Seq:
Struc:
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236 a.a.
109 a.a.*
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DOI no:
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Structure
14:401-414
(2006)
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PubMed id:
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Structural Model of the mAb 806-EGFR Complex Using Computational Docking followed by Computational and Experimental Mutagenesis.
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A.Sivasubramanian,
G.Chao,
H.M.Pressler,
K.D.Wittrup,
J.J.Gray.
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ABSTRACT
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In this work, we combined computational protein-protein docking with
computational and experimental mutagenesis to predict the structure of the
complex formed by monoclonal antibody 806 (mAb 806) and the epidermal growth
factor receptor (EGFR). We docked mAb 806, an antitumor antibody, to its epitope
of EGFR residues 287-302. Potential mAb 806-EGFR orientations were generated,
and computational mutagenesis was used to filter them according to their
agreement with experimental mutagenesis data. Further computational mutagenesis
suggested additional mutations, which were tested to arrive at a final structure
that was most consistent with experimental mutagenesis data. We propose that
this is the EGFR-mAb 806 structure, in which mAb 806 binds to an untethered form
of the receptor, consistent with published experimental results. The steric
hindrance created by the antibody near the EGFR dimer interface interferes with
receptor dimerization, and we postulate this as the structural origin for the
antitumor effect of mAb 806.
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Selected figure(s)
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Figure 6.
Figure 6. Proposed Structure for the mAb 806-EGFR Complex
(A) Proposed structure for the mAb 806-EGFR complex,
created by structurally aligning model 3 with the hypothetical
extended monomer conformation. The coloring scheme is identical
to that in Figure 5.
(B) Interface interactions: EGFR
residue E293 forms a hydrogen bond with CDR H2 side chain Y50
and makes several hydrophobic contacts, mostly with residues in
the mAb 806 H2 loop.
(C) EGFR residue D297 is well packed
in a pocket of residues from the mAb 806 L2, L3, and H3 CDRs.
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The above figure is
reprinted
by permission from Cell Press:
Structure
(2006,
14,
401-414)
copyright 2006.
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Figure was
selected
by an automated process.
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Literature references that cite this PDB file's key reference
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PubMed id
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Reference
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F.Lauck,
C.A.Smith,
G.F.Friedland,
E.L.Humphris,
and
T.Kortemme
(2010).
RosettaBackrub--a web server for flexible backbone protein structure modeling and design.
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Nucleic Acids Res,
38,
W569-W575.
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K.W.Kaufmann,
G.H.Lemmon,
S.L.Deluca,
J.H.Sheehan,
and
J.Meiler
(2010).
Practically useful: what the Rosetta protein modeling suite can do for you.
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Biochemistry,
49,
2987-2998.
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A.Sircar,
E.T.Kim,
and
J.J.Gray
(2009).
RosettaAntibody: antibody variable region homology modeling server.
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Nucleic Acids Res,
37,
W474-W479.
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A.Sivasubramanian,
A.Sircar,
S.Chaudhury,
and
J.J.Gray
(2009).
Toward high-resolution homology modeling of antibody Fv regions and application to antibody-antigen docking.
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Proteins,
74,
497-514.
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B.Sharma,
and
M.K.Jaiswal
(2009).
EGF domain II of protein Pb28 from Plasmodium berghei interacts with monoclonal transmission blocking antibody 13.1.
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J Mol Model,
15,
369-382.
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K.R.Schmitz,
and
K.M.Ferguson
(2009).
Interaction of antibodies with ErbB receptor extracellular regions.
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Exp Cell Res,
315,
659-670.
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T.P.Garrett,
A.W.Burgess,
H.K.Gan,
R.B.Luwor,
G.Cartwright,
F.Walker,
S.G.Orchard,
A.H.Clayton,
E.C.Nice,
J.Rothacker,
B.Catimel,
W.K.Cavenee,
L.J.Old,
E.Stockert,
G.Ritter,
T.E.Adams,
P.A.Hoyne,
D.Wittrup,
G.Chao,
J.R.Cochran,
C.Luo,
M.Lou,
T.Huyton,
Y.Xu,
W.D.Fairlie,
S.Yao,
A.M.Scott,
and
T.G.Johns
(2009).
Antibodies specifically targeting a locally misfolded region of tumor associated EGFR.
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Proc Natl Acad Sci U S A,
106,
5082-5087.
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PDB codes:
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A.Sivasubramanian,
J.A.Maynard,
and
J.J.Gray
(2008).
Modeling the structure of mAb 14B7 bound to the anthrax protective antigen.
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Proteins,
70,
218-230.
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F.Alber,
F.Förster,
D.Korkin,
M.Topf,
and
A.Sali
(2008).
Integrating diverse data for structure determination of macromolecular assemblies.
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Annu Rev Biochem,
77,
443-477.
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S.Chaudhury,
and
J.J.Gray
(2008).
Conformer selection and induced fit in flexible backbone protein-protein docking using computational and NMR ensembles.
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J Mol Biol,
381,
1068-1087.
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S.Lyskov,
and
J.J.Gray
(2008).
The RosettaDock server for local protein-protein docking.
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Nucleic Acids Res,
36,
W233-W238.
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B.A.McKinney,
N.L.Kallewaard,
J.E.Crowe,
and
J.Meiler
(2007).
Using the natural evolution of a rotavirus-specific human monoclonal antibody to predict the complex topography of a viral antigenic site.
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Immunome Res,
3,
8.
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C.V.Robinson,
A.Sali,
and
W.Baumeister
(2007).
The molecular sociology of the cell.
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Nature,
450,
973-982.
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S.Chaudhury,
A.Sircar,
A.Sivasubramanian,
M.Berrondo,
and
J.J.Gray
(2007).
Incorporating biochemical information and backbone flexibility in RosettaDock for CAPRI rounds 6-12.
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Proteins,
69,
793-800.
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Z.Zhu
(2007).
Targeted cancer therapies based on antibodies directed against epidermal growth factor receptor: status and perspectives.
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Acta Pharmacol Sin,
28,
1476-1493.
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J.J.Gray
(2006).
High-resolution protein-protein docking.
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Curr Opin Struct Biol,
16,
183-193.
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The most recent references are shown first.
Citation data come partly from CiteXplore and partly
from an automated harvesting procedure. Note that this is likely to be
only a partial list as not all journals are covered by
either method. However, we are continually building up the citation data
so more and more references will be included with time.
Where a reference describes a PDB structure, the PDB
codes are
shown on the right.
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Links
