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PDBsum entry 5cno
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References listed in PDB file
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Key reference
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Title
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Analysis of the role of the c-Terminal tail in the regulation of the epidermal growth factor receptor.
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Authors
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E.Kovacs,
R.Das,
Q.Wang,
T.S.Collier,
A.Cantor,
Y.Huang,
K.Wong,
A.Mirza,
T.Barros,
P.Grob,
N.Jura,
R.Bose,
J.Kuriyan.
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Ref.
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Mol Cell Biol, 2015,
35,
3083-3102.
[DOI no: ]
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PubMed id
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Abstract
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The ∼230-residue C-terminal tail of the epidermal growth factor receptor
(EGFR) is phosphorylated upon activation. We examined whether this
phosphorylation is affected by deletions within the tail and whether the two
tails in the asymmetric active EGFR dimer are phosphorylated differently. We
monitored autophosphorylation in cells using flow cytometry and found that the
first ∼80 residues of the tail are inhibitory, as demonstrated previously. The
entire ∼80-residue span is important for autoinhibition and needs to be
released from both kinases that form the dimer. These results are interpreted in
terms of crystal structures of the inactive kinase domain, including two new
ones presented here. Deletions in the remaining portion of the tail do not
affect autophosphorylation, except for a six-residue segment spanning Tyr 1086
that is critical for activation loop phosphorylation. Phosphorylation of the two
tails in the dimer is asymmetric, with the activator tail being phosphorylated
somewhat more strongly. Unexpectedly, we found that reconstitution of the
transmembrane and cytoplasmic domains of EGFR in vesicles leads to a peculiar
phenomenon in which kinase domains appear to be trapped between stacks of lipid
bilayers. This artifactual trapping of kinases between membranes enhances an
intrinsic functional asymmetry in the two tails in a dimer.
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