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PDBsum entry 1m14
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Transferase PDB id
1m14

 

 

 

 

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JSmol PyMol  
Contents
Protein chain
307 a.a. *
Waters ×17
* Residue conservation analysis
PDB id:
1m14
Name: Transferase
Title: Tyrosine kinase domain from epidermal growth factor receptor
Structure: Epidermal growth factor receptor. Chain: a. Fragment: tyrosine kinase domain (residues 671-998). Synonym: receptor protein-tyrosine kinase erbb-1. Engineered: yes. Mutation: yes
Source: Homo sapiens. Human. Organism_taxid: 9606. Gene: egfr. Expressed in: spodoptera frugiperda. Expression_system_taxid: 7108. Expression_system_cell_line: sf9.
Biol. unit: Tetramer (from PQS)
Resolution:
2.60Å     R-factor:   0.238     R-free:   0.286
Authors: J.Stamos,M.X.Sliwkowski,C.Eigenbrot
Key ref:
J.Stamos et al. (2002). Structure of the epidermal growth factor receptor kinase domain alone and in complex with a 4-anilinoquinazoline inhibitor. J Biol Chem, 277, 46265-46272. PubMed id: 12196540 DOI: 10.1074/jbc.M207135200
Date:
17-Jun-02     Release date:   04-Sep-02    
PROCHECK
Go to PROCHECK summary
 Headers
 References

Protein chain
Pfam   ArchSchema ?
P00533  (EGFR_HUMAN) -  Epidermal growth factor receptor from Homo sapiens
Seq:
Struc: 		 
Seq:
Struc: 		 
Seq:
Struc: 		1210 a.a.
307 a.a.
Key:    PfamA domain  Secondary structure  CATH domain

 Enzyme reactions 
   Enzyme class: E.C.2.7.10.1  - receptor protein-tyrosine kinase.
[IntEnz]   [ExPASy]   [KEGG]   [BRENDA]
      Reaction: L-tyrosyl-[protein] + ATP = O-phospho-L-tyrosyl-[protein] + ADP + H+
L-tyrosyl-[protein]
 + ATP
 = O-phospho-L-tyrosyl-[protein]
 + ADP
 + H(+)
Molecule diagrams generated from .mol files obtained from the KEGG ftp site

 

 
    Added reference    
 
 
DOI no: 10.1074/jbc.M207135200 J Biol Chem 277:46265-46272 (2002)
PubMed id: 12196540  
 
 
Structure of the epidermal growth factor receptor kinase domain alone and in complex with a 4-anilinoquinazoline inhibitor.
J.Stamos, M.X.Sliwkowski, C.Eigenbrot.
 
  ABSTRACT  
 
The crystal structure of the kinase domain from the epidermal growth factor receptor (EGFRK) including forty amino acids from the carboxyl-terminal tail has been determined to 2.6-A resolution, both with and without an EGFRK-specific inhibitor currently in Phase III clinical trials as an anti-cancer agent, erlotinib (OSI-774, CP-358,774, Tarceva(TM)). The EGFR family members are distinguished from all other known receptor tyrosine kinases in possessing constitutive kinase activity without a phosphorylation event within their kinase domains. Despite its lack of phosphorylation, we find that the EGFRK activation loop adopts a conformation similar to that of the phosphorylated active form of the kinase domain from the insulin receptor. Surprisingly, key residues of a putative dimerization motif lying between the EGFRK domain and carboxyl-terminal substrate docking sites are found in close contact with the kinase domain. Significant intermolecular contacts involving the carboxyl-terminal tail are discussed with respect to receptor oligomerization.
 
  Selected figure(s)  
 
Figure 2.
Fig. 2. Activation loops. The close structural correspondence between the EGFRK A-loop (blue) and the A-loop from the phosphorylated form of the insulin receptor kinase (33) (gold) is shown. The hydrophobic interaction between Lys836 and Tyr845 almost exactly reprises that between Arg1155 and Tyr1163 of p-IRK (underlined). The presence of four glutamate residues in this part of EGFRK has been suggested as a cause for its intrinsic catalytic activity. 		Figure 4.
Fig. 4. The LVI tripeptide segment of EGFRK is found in close association with the C-lobe. A solvent-accessible surface from EGFRK with LVI removed is depicted. Residue Leu955, the most important as gauged by mutagenesis studies, is found within what in its absence would be a hydrophobic pit.
 
  The above figures are reprinted by permission from the ASBMB: J Biol Chem (2002, 277, 46265-46272) copyright 2002.  
  Figures were selected by the author.  
 
 
    Author's comment    
 
  It is very likely that the coordinate set in this entry chooses the wrong C-terminal as "belonging" to the rest of the polypeptide chain. Instead, a symmetry-related version that is described in the original Figure 5 is a more likely candidate.
The "LVI pocket" depicted in original Figure 4 is homologous to sites in Abl and Src kinases that are associated with allosteric control of kinase activity. See Hantschel et al. Cell. 2003 Mar 21;112(6):845-57, Nagar et al. Cell. 2003 Mar 21;112(6):859-71, and Cowan-Jacob et al. Structure. 2005 Jun;13(6):861-71.
A 2006 paper in Cell (Zhang et al. Cell. 2006 Jun 16;125(6):1137-49) expands on a crystal packing contact in this crystal structure to show how extracellular dimerization of EGFR probably transduces an allosteric influence to produce the "active" kinase conformation that is seen here. This is the first direct structural evidence of an initial intracellular event in signal transduction in a receptor tyrosine kinase.
Charles Eigenbrot 		 

Literature references that cite this PDB file's key reference

  PubMed id Reference
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PDB code: 3js2
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  PLoS Comput Biol, 5, e1000487.  
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PDB code: 3gop
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PDB code: 3gt8
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19657272 Y.Rukazenkov, G.Speake, G.Marshall, J.Anderton, B.R.Davies, R.W.Wilkinson, D.Mark Hickinson, and A.Swaisland (2009).
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  Proc Natl Acad Sci U S A, 105, 2070-2075.
PDB codes: 2jit 2jiu 2jiv
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Mechanism of activation and inhibition of the HER4/ErbB4 kinase.
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PDB codes: 3bbt 3bbw 3bce
18404149 D.M.Goldstein, N.S.Gray, and P.P.Zarrinkar (2008).
High-throughput kinase profiling as a platform for drug discovery.
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Prediction of specificity-determining residues for small-molecule kinase inhibitors.
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Bioinformatics based Ligand-Docking and in-silico screening.
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PDB code: 2r4b
18373549 H.F.Chen (2008).
Computational study of the binding mode of epidermal growth factor receptor kinase inhibitors.
  Chem Biol Drug Des, 71, 434-446.  
18465761 H.S.Ban, S.Onagi, M.Uno, W.Nabeyama, and H.Nakamura (2008).
Allene as an alternative functional group for drug design: effect of C--C multiple bonds conjugated with quinazolines on the inhibition of EGFR tyrosine kinase.
  ChemMedChem, 3, 1094-1103.  
19010870 J.Bean, G.J.Riely, M.Balak, J.L.Marks, M.Ladanyi, V.A.Miller, and W.Pao (2008).
Acquired resistance to epidermal growth factor receptor kinase inhibitors associated with a novel T854A mutation in a patient with EGFR-mutant lung adenocarcinoma.
  Clin Cancer Res, 14, 7519-7525.  
18412405 J.Purvis, V.Ilango, and R.Radhakrishnan (2008).
Role of network branching in eliciting differential short-term signaling responses in the hypersensitive epidermal growth factor receptor mutants implicated in lung cancer.
  Biotechnol Prog, 24, 540-553.  
18573086 K.M.Ferguson (2008).
Structure-based view of epidermal growth factor receptor regulation.
  Annu Rev Biophys, 37, 353-373.  
18771282 L.Z.Mi, M.J.Grey, N.Nishida, T.Walz, C.Lu, and T.A.Springer (2008).
Functional and structural stability of the epidermal growth factor receptor in detergent micelles and phospholipid nanodiscs.
  Biochemistry, 47, 10314-10323.  
17849478 M.Abe, Y.Kuroda, M.Hirose, M.Kato, M.Murakami, Y.Watanabe, M.Nakano, and T.Handa (2008).
Inhibition of autophosphorylation of epidermal growth factor receptor by a small peptide not employing an ATP-competitive mechanism.
  Biopolymers, 89, 40-51.  
  19037833 M.Arkin, and M.M.Moasser (2008).
HER-2-directed, small-molecule antagonists.
  Curr Opin Investig Drugs, 9, 1264-1276.  
17910071 M.D.Jacobs, P.R.Caron, and B.J.Hare (2008).
Classifying protein kinase structures guides use of ligand-selectivity profiles to predict inactive conformations: structure of lck/imatinib complex.
  Proteins, 70, 1451-1460.
PDB code: 2pl0
18259690 M.J.Wieduwilt, and M.M.Moasser (2008).
The epidermal growth factor receptor family: biology driving targeted therapeutics.
  Cell Mol Life Sci, 65, 1566-1584.  
18031935 M.Landau, and N.Ben-Tal (2008).
Dynamic equilibrium between multiple active and inactive conformations explains regulation and oncogenic mutations in ErbB receptors.
  Biochim Biophys Acta, 1785, 12-31.  
18628075 R.González Manzano, E.Martínez Navarro, E.Eugenieva, F.J.Fernández Morejón, J.Farré, and A.Brugarolas (2008).
A novel EGFR nonsense mutation in a non-small-cell lung cancer (NSCLC) patient who did not derive any clinical benefit with combination chemotherapy and erlotinib.
  Clin Transl Oncol, 10, 442-444.  
17653080 Y.N.Fu, C.L.Yeh, H.H.Cheng, C.H.Yang, S.F.Tsai, S.F.Huang, and Y.R.Chen (2008).
EGFR mutants found in non-small cell lung cancer show different levels of sensitivity to suppression of Src: implications in targeting therapy.
  Oncogene, 27, 957-965.  
17206733 A.Telliez, M.Desroses, N.Pommery, O.Briand, A.Farce, G.Laconde, A.Lemoine, P.Depreux, and J.P.Hénichart (2007).
Derivatives of Iressa, a Specific Epidermal Growth Factor Receptor Inhibitor, are Powerful Apoptosis Inducers in PC3 Prostatic Cancer Cells.
  ChemMedChem, 2, 318-332.  
17349580 C.H.Yun, T.J.Boggon, Y.Li, M.S.Woo, H.Greulich, M.Meyerson, and M.J.Eck (2007).
Structures of lung cancer-derived EGFR mutants and inhibitor complexes: mechanism of activation and insights into differential inhibitor sensitivity.
  Cancer Cell, 11, 217-227.
PDB codes: 2itn 2ito 2itp 2itq 2itt 2itu 2itv 2itw 2itx 2ity 2itz 2j6m
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BIM mediates EGFR tyrosine kinase inhibitor-induced apoptosis in lung cancers with oncogenic EGFR mutations.
  PLoS Med, 4, 1669.  
17429853 D.Gu, W.A.Scaringe, K.Li, J.S.Saldivar, K.A.Hill, Z.Chen, K.D.Gonzalez, and S.S.Sommer (2007).
Database of somatic mutations in EGFR with analyses revealing indel hotspots but no smoking-associated signature.
  Hum Mutat, 28, 760-770.  
17427221 E.F.Brachtel, A.J.Iafrate, E.J.Mark, and V.Deshpande (2007).
Cytomorphological correlates of epidermal growth factor receptor mutations in lung carcinoma.
  Diagn Cytopathol, 35, 257-262.  
17314037 E.M.Bublil, and Y.Yarden (2007).
The EGF receptor family: spearheading a merger of signaling and therapeutics.
  Curr Opin Cell Biol, 19, 124-134.  
17608727 F.Morgillo, M.A.Bareschino, R.Bianco, G.Tortora, and F.Ciardiello (2007).
Primary and acquired resistance to anti-EGFR targeted drugs in cancer therapy.
  Differentiation, 75, 788-799.  
17537753 G.M.Verkhivker (2007).
Exploring sequence-structure relationships in the tyrosine kinome space: functional classification of the binding specificity mechanisms for cancer therapeutics.
  Bioinformatics, 23, 1919-1926.  
17482503 G.Tortora, R.Bianco, G.Daniele, F.Ciardiello, J.A.McCubrey, M.R.Ricciardi, L.Ciuffreda, F.Cognetti, A.Tafuri, and M.Milella (2007).
Overcoming resistance to molecularly targeted anticancer therapies: Rational drug combinations based on EGFR and MAPK inhibition for solid tumours and haematologic malignancies.
  Drug Resist Updat, 10, 81.  
17671639 H.Zhang, A.Berezov, Q.Wang, G.Zhang, J.Drebin, R.Murali, and M.I.Greene (2007).
ErbB receptors: from oncogenes to targeted cancer therapies.
  J Clin Invest, 117, 2051-2058.  
17334377 J.A.Blair, D.Rauh, C.Kung, C.H.Yun, Q.W.Fan, H.Rode, C.Zhang, M.J.Eck, W.A.Weiss, and K.M.Shokat (2007).
Structure-guided development of affinity probes for tyrosine kinases using chemical genetics.
  Nat Chem Biol, 3, 229-238.
PDB codes: 2hwo 2hwp 2j5e 2j5f
17697999 J.P.Dawson, Z.Bu, and M.A.Lemmon (2007).
Ligand-induced structural transitions in ErbB receptor extracellular domains.
  Structure, 15, 942-954.  
18042729 K.W.Thiel, and G.Carpenter (2007).
Epidermal growth factor receptor juxtamembrane region regulates allosteric tyrosine kinase activation.
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17726540 L.Regales, M.N.Balak, Y.Gong, K.Politi, A.Sawai, C.Le, J.A.Koutcher, D.B.Solit, N.Rosen, M.F.Zakowski, and W.Pao (2007).
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17486079 M.M.Moasser (2007).
Targeting the function of the HER2 oncogene in human cancer therapeutics.
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17468161 P.Liu, T.Sudhaharan, R.M.Koh, L.C.Hwang, S.Ahmed, I.N.Maruyama, and T.Wohland (2007).
Investigation of the dimerization of proteins from the epidermal growth factor receptor family by single wavelength fluorescence cross-correlation spectroscopy.
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17599051 S.Anastasi, M.F.Baietti, Y.Frosi, S.Alemà, and O.Segatto (2007).
The evolutionarily conserved EBR module of RALT/MIG6 mediates suppression of the EGFR catalytic activity.
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16953218 S.H.Choi, J.M.Mendrola, and M.A.Lemmon (2007).
EGF-independent activation of cell-surface EGF receptors harboring mutations found in gefitinib-sensitive lung cancer.
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17338652 V.B.Konkimalla, V.L.Suhas, N.R.Chandra, E.Gebhart, and T.Efferth (2007).
Diagnosis and therapy of oral squamous cell carcinoma.
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17030621 W.Xu, X.Yuan, K.Beebe, Z.Xiang, and L.Neckers (2007).
Loss of Hsp90 association up-regulates Src-dependent ErbB2 activity.
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18046415 X.Zhang, K.A.Pickin, R.Bose, N.Jura, P.A.Cole, and J.Kuriyan (2007).
Inhibition of the EGF receptor by binding of MIG6 to an activating kinase domain interface.
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PDB codes: 2rf9 2rfd 2rfe
17273938 Y.Liu, J.Purvis, A.Shih, J.Weinstein, N.Agrawal, and R.Radhakrishnan (2007).
A multiscale computational approach to dissect early events in the Erb family receptor mediated activation, differential signaling, and relevance to oncogenic transformations.
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16897320 A.Pal, A.Glekas, M.Doubrovin, J.Balatoni, M.Namavari, T.Beresten, D.Maxwell, S.Soghomonyan, A.Shavrin, L.Ageyeva, R.Finn, S.M.Larson, W.Bornmann, and J.G.Gelovani (2006).
Molecular imaging of EGFR kinase activity in tumors with 124I-labeled small molecular tracer and positron emission tomography.
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16170367 B.Linggi, Q.C.Cheng, A.R.Rao, and G.Carpenter (2006).
The ErbB-4 s80 intracellular domain is a constitutively active tyrosine kinase.
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16927343 B.Liu, B.Bernard, and J.H.Wu (2006).
Impact of EGFR point mutations on the sensitivity to gefitinib: insights from comparative structural analyses and molecular dynamics simulations.
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16424920 C.Dardick, and P.Ronald (2006).
Plant and animal pathogen recognition receptors signal through non-RD kinases.
  PLoS Pathog, 2, e2.  
16843266 D.K.Walters, T.Mercher, T.L.Gu, T.O'Hare, J.W.Tyner, M.Loriaux, V.L.Goss, K.A.Lee, C.A.Eide, M.J.Wong, E.P.Stoffregen, L.McGreevey, J.Nardone, S.A.Moore, J.Crispino, T.J.Boggon, M.C.Heinrich, M.W.Deininger, R.D.Polakiewicz, D.G.Gilliland, and B.J.Druker (2006).
Activating alleles of JAK3 in acute megakaryoblastic leukemia.
  Cancer Cell, 10, 65-75.  
16007579 D.P.Hughes, D.G.Thomas, T.J.Giordano, K.T.McDonagh, and L.H.Baker (2006).
Essential erbB family phosphorylation in osteosarcoma as a target for CI-1033 inhibition.
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Differential regulation of EGF receptor internalization and degradation by multiubiquitination within the kinase domain.
  Mol Cell, 21, 737-748.  
16705038 K.Politi, M.F.Zakowski, P.D.Fan, E.A.Schonfeld, W.Pao, and H.E.Varmus (2006).
Lung adenocarcinomas induced in mice by mutant EGF receptors found in human lung cancers respond to a tyrosine kinase inhibitor or to down-regulation of the receptors.
  Genes Dev, 20, 1496-1510.  
17036041 M.K.Nyati, M.A.Morgan, F.Y.Feng, and T.S.Lawrence (2006).
Integration of EGFR inhibitors with radiochemotherapy.
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16597832 N.Y.Lee, T.L.Hazlett, and J.G.Koland (2006).
Structure and dynamics of the epidermal growth factor receptor C-terminal phosphorylation domain.
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17079130 P.Pellicena, and J.Kuriyan (2006).
Protein-protein interactions in the allosteric regulation of protein kinases.
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16431914 R.D.Meyer, X.Qian, H.C.Guo, and N.Rahimi (2006).
Leucine motif-dependent tyrosine autophosphorylation of type III receptor tyrosine kinases.
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16380971 S.Aifa, N.Miled, F.Frikha, M.R.Aniba, S.P.Svensson, and A.Rebai (2006).
Electrostatic interactions of peptides flanking the tyrosine kinase domain in the epidermal growth factor receptor provides a model for intracellular dimerization and autophosphorylation.
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16788977 S.Kamath, and J.K.Buolamwini (2006).
Targeting EGFR and HER-2 receptor tyrosine kinases for cancer drug discovery and development.
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17052295 S.M.Ahmed, and R.Salgia (2006).
Epidermal growth factor receptor mutations and susceptibility to targeted therapy in lung cancer.
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EGF receptor activation: push comes to shove.
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An allosteric mechanism for activation of the kinase domain of epidermal growth factor receptor.
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PDB codes: 2gs2 2gs6 2gs7
15880563 A.P.Venook (2005).
Epidermal growth factor receptor-targeted treatment for advanced colorectal carcinoma.
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16244704 E.D.Scheeff, and P.E.Bourne (2005).
Structural evolution of the protein kinase-like superfamily.
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Antiviral chemotherapy facilitates control of poxvirus infections through inhibition of cellular signal transduction.
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EGFR mutations in non-small cell lung carcinomas may predict response to gefitinib: extension of an emerging paradigm.
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Comparative analysis of two clinically active BCR-ABL kinase inhibitors reveals the role of conformation-specific binding in resistance.
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15869404 M.Richter, and H.Zhang (2005).
Receptor-targeted cancer therapy.
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15660449 P.Aller, L.Voiry, N.Garnier, and M.Genest (2005).
Molecular dynamics (MD) investigations of preformed structures of the transmembrane domain of the oncogenic Neu receptor dimer in a DMPC bilayer.
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15596490 P.Bagossi, G.Horváth, G.Vereb, J.Szöllösi, and J.Tözsér (2005).
Molecular modeling of nearly full-length ErbB2 receptor.
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Asp746 to glycine change may have a greater influence than Cys751 to serine change in accounting for ligand selectivity between EGFR and HER-2 at the ATP site.
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The target discovery process.
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Acquired resistance of lung adenocarcinomas to gefitinib or erlotinib is associated with a second mutation in the EGFR kinase domain.
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Surface charge and hydrophobicity determine ErbB2 binding to the Hsp90 chaperone complex.
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Tyrosine kinase receptors as attractive targets of cancer therapy.
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Bipartite inhibition of Drosophila epidermal growth factor receptor by the extracellular and transmembrane domains of Kekkon1.
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Strategies to overcome resistance to targeted protein kinase inhibitors.
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The structural basis for autoinhibition of FLT3 by the juxtamembrane domain.
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PDB code: 1rjb
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Insights into ErbB signaling from the structure of the ErbB2-pertuzumab complex.
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PDB code: 1s78
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Wip1-deficient mice are resistant to common cancer genes.
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15576039 M.Landau, S.J.Fleishman, and N.Ben-Tal (2004).
A putative mechanism for downregulation of the catalytic activity of the EGF receptor via direct contact between its kinase and C-terminal domains.
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Switching on kinases: oncogenic activation of BRAF and the PDGFR family.
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Juxtamembrane autoinhibition in receptor tyrosine kinases.
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Velvet, a dominant Egfr mutation that causes wavy hair and defective eyelid development in mice.
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14527402 A.W.Burgess, H.S.Cho, C.Eigenbrot, K.M.Ferguson, T.P.Garrett, D.J.Leahy, M.A.Lemmon, M.X.Sliwkowski, C.W.Ward, and S.Yokoyama (2003).
An open-and-shut case? Recent insights into the activation of EGF/ErbB receptors.
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14689967 C.Tischer, and P.I.Bastiens (2003).
Lateral phosphorylation propagation: an aspect of feedback signalling?
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12533510 K.R.Fitch, K.A.McGowan, C.D.van Raamsdonk, H.Fuchs, D.Lee, A.Puech, Y.Hérault, D.W.Threadgill, M.Hrabé de Angelis, and G.S.Barsh (2003).
Genetics of dark skin in mice.
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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 code is shown on the right.

 

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