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PDBsum entry 4ckj
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References listed in PDB file
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Key reference
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Title
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Oncogenic ret kinase domain mutations perturb the autophosphorylation trajectory by enhancing substrate presentation in trans.
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Authors
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I.Plaza-Menacho,
K.Barnouin,
K.Goodman,
R.J.Martínez-Torres,
A.Borg,
J.Murray-Rust,
S.Mouilleron,
P.Knowles,
N.Q.Mcdonald.
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Ref.
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Mol Cell, 2014,
53,
738-751.
[DOI no: ]
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PubMed id
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Abstract
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To decipher the molecular basis for RET kinase activation and oncogenic
deregulation, we defined the temporal sequence of RET autophosphorylation by
label-free quantitative mass spectrometry. Early autophosphorylation sites map
to regions flanking the kinase domain core, while sites within the activation
loop only form at later time points. Comparison with oncogenic RET kinase
revealed that late autophosphorylation sites become phosphorylated much earlier
than wild-type RET, which is due to a combination of an enhanced enzymatic
activity, increased ATP affinity, and surprisingly, by providing a better
intermolecular substrate. Structural analysis of oncogenic M918T and wild-type
RET kinase domains reveal a cis-inhibitory mechanism involving
tethering contacts between the glycine-rich loop, activation loop, and
αC-helix. Tether mutations only affected substrate presentation but perturbed
the autophosphorylation trajectory similar to oncogenic mutations. This study
reveals an unappreciated role for oncogenic RET kinase mutations in promoting
intermolecular autophosphorylation by enhancing substrate presentation.
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