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(Received for publication, April 19, 1995; and in revised form, May 23, 1995) Shc phosphorylation in cells following growth factor, insulin,
cytokine, and lymphocyte receptor activation leads to its association
with Grb2 and activation of Ras. In addition to being a cytoplasmic
substrate of tyrosine kinases, Shc contains an SH2 domain and a non-SH2
phosphotyrosine binding (PTB) domain. Here we show that the Shc PTB
domain, but not the SH2 domain, binds with high affinity (ID
Volume 270,
Number 31,
Issue of August 04, pp. 18205-18208, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
Turn-forming Pentapeptide Motifs
Amino-terminal to Phosphotyrosine
≅ 1 µM) to phosphopeptides corresponding to the
sequence surrounding Tyr
of the polyoma virus middle T
(mT) antigen (LLSNPTpYSVMRSK). Truncation studies show that five
residues amino-terminal to tyrosine are required for high affinity
binding, whereas all residues carboxyl-terminal to tyrosine can be
deleted without loss of affinity. Substitution studies show that
tyrosine phosphorylation is required and residues at -5,
-3, -2, and -1 positions relative to pTyr are
important for this interaction.
H NMR studies demonstrate
that the phosphorylated mT antigen-derived sequence forms a stable
turn in solution, and correlations between structure and function
indicate that the turn is important for PTB domain recognition.
These results show that PTB domains are functionally distinct from SH2
domains. Whereas SH2 domain binding specificity derives from peptide
sequences carboxyl-terminal to phosphotyrosine, the Shc PTB domain
gains specificity by interacting with turn-forming sequences
amino-terminal to phosphotyrosine.
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