Conformational Determinants of Phosphotyrosine Peptides Complexed with the Src SH2 Domain. Nachman, J., Gish, G., Virag, C., Pawson, T., Pomès, R., & Pai, E. PLoS ONE, 5(6):9, Public Library of Science, 2010.
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Website abstract bibtex
Paper Website abstract bibtex The inhibition of specific SH2 domain mediated protein-protein interactions as an effective chemotherapeutic approach in the treatment of diseases remains a challenge. That different conformations of peptide-ligands are preferred by different SH2 domains is an underappreciated observation from the structural analysis of phosphotyrosine peptide binding to SH2 domains that may aid in future drug design. To explore the nature of ligand binding, we use simulated annealing (SA) to sample the conformational space of phosphotyrosine-containing peptides complexed with the Src SH2 domain. While in good agreement with the crystallographic and NMR studies of high-affinity phosphopeptide-SH2 domain complexes, the results suggest that the structural basis for phopsphopeptide- Src SH2 interactions is more complex than the two-pronged plug two-hole socket model. A systematic study of peptides of type pYEEX, where pY is phosphotyrosine and X is a hydrophobic residue, indicates that these peptides can assume two conformations, one extended and one helical, representing the balance between the interaction of residue X with the hydrophobic hole on the surface of the Src SH2 domain, and its contribution to the inherent tendency of the two glutamic acids to form an -helix. In contrast, a -turn conformation, almost identical to that observed in the crystal structure of pYVNV bound to the Grb2 SH2 domain, predominates for pYXNX peptides, even in the presence of isoleucine at the third position. While peptide binding affinities, as measured by fluorescence polarization, correlate with the relative proportion of extended peptide conformation, these results suggest a model where all three residues C-terminal to the phosphotyrosine determine the conformation of the bound phosphopeptide. The information obtained in this work can be used in the design of specific SH2 domain inhibitors.
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title = {Conformational Determinants of Phosphotyrosine Peptides Complexed with the Src SH2 Domain},
type = {article},
year = {2010},
pages = {9},
volume = {5},
websites = {http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2888578&tool=pmcentrez&rendertype=abstract},
publisher = {Public Library of Science},
institution = {Department of Biochemistry, University of Toronto, Toronto, Ontario, Canada. nachman@hera.med.utoronto.ca},
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abstract = {The inhibition of specific SH2 domain mediated protein-protein interactions as an effective chemotherapeutic approach in the treatment of diseases remains a challenge. That different conformations of peptide-ligands are preferred by different SH2 domains is an underappreciated observation from the structural analysis of phosphotyrosine peptide binding to SH2 domains that may aid in future drug design. To explore the nature of ligand binding, we use simulated annealing (SA) to sample the conformational space of phosphotyrosine-containing peptides complexed with the Src SH2 domain. While in good agreement with the crystallographic and NMR studies of high-affinity phosphopeptide-SH2 domain complexes, the results suggest that the structural basis for phopsphopeptide- Src SH2 interactions is more complex than the two-pronged plug two-hole socket model. A systematic study of peptides of type pYEEX, where pY is phosphotyrosine and X is a hydrophobic residue, indicates that these peptides can assume two conformations, one extended and one helical, representing the balance between the interaction of residue X with the hydrophobic hole on the surface of the Src SH2 domain, and its contribution to the inherent tendency of the two glutamic acids to form an -helix. In contrast, a -turn conformation, almost identical to that observed in the crystal structure of pYVNV bound to the Grb2 SH2 domain, predominates for pYXNX peptides, even in the presence of isoleucine at the third position. While peptide binding affinities, as measured by fluorescence polarization, correlate with the relative proportion of extended peptide conformation, these results suggest a model where all three residues C-terminal to the phosphotyrosine determine the conformation of the bound phosphopeptide. The information obtained in this work can be used in the design of specific SH2 domain inhibitors.},
bibtype = {article},
author = {Nachman, Joseph and Gish, Gerry and Virag, Cristina and Pawson, Tony and Pomès, Régis and Pai, Emil},
editor = {Kobe, Bostjan},
journal = {PLoS ONE},
number = {6}
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That different conformations of peptide-ligands are preferred by different SH2 domains is an underappreciated observation from the structural analysis of phosphotyrosine peptide binding to SH2 domains that may aid in future drug design. To explore the nature of ligand binding, we use simulated annealing (SA) to sample the conformational space of phosphotyrosine-containing peptides complexed with the Src SH2 domain. While in good agreement with the crystallographic and NMR studies of high-affinity phosphopeptide-SH2 domain complexes, the results suggest that the structural basis for phopsphopeptide- Src SH2 interactions is more complex than the two-pronged plug two-hole socket model. A systematic study of peptides of type pYEEX, where pY is phosphotyrosine and X is a hydrophobic residue, indicates that these peptides can assume two conformations, one extended and one helical, representing the balance between the interaction of residue X with the hydrophobic hole on the surface of the Src SH2 domain, and its contribution to the inherent tendency of the two glutamic acids to form an -helix. In contrast, a -turn conformation, almost identical to that observed in the crystal structure of pYVNV bound to the Grb2 SH2 domain, predominates for pYXNX peptides, even in the presence of isoleucine at the third position. While peptide binding affinities, as measured by fluorescence polarization, correlate with the relative proportion of extended peptide conformation, these results suggest a model where all three residues C-terminal to the phosphotyrosine determine the conformation of the bound phosphopeptide. The information obtained in this work can be used in the design of specific SH2 domain inhibitors.","bibtype":"article","author":"Nachman, Joseph and Gish, Gerry and Virag, Cristina and Pawson, Tony and Pomès, Régis and Pai, Emil","editor":"Kobe, Bostjan","journal":"PLoS ONE","number":"6","bibtex":"@article{\n title = {Conformational Determinants of Phosphotyrosine Peptides Complexed with the Src SH2 Domain},\n type = {article},\n year = {2010},\n pages = {9},\n volume = {5},\n websites = {http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2888578&tool=pmcentrez&rendertype=abstract},\n publisher = {Public Library of Science},\n institution = {Department of Biochemistry, University of Toronto, Toronto, Ontario, Canada. nachman@hera.med.utoronto.ca},\n id = {1e4a4bc7-4062-3cc7-bc48-1a4e0e84b23f},\n created = {2011-12-07T04:42:26.000Z},\n file_attached = {true},\n profile_id = {0633c91d-b6d5-3fcd-9fa3-6021f99f2c58},\n last_modified = {2017-03-28T17:10:06.277Z},\n read = {false},\n starred = {false},\n authored = {true},\n confirmed = {true},\n hidden = {false},\n private_publication = {false},\n abstract = {The inhibition of specific SH2 domain mediated protein-protein interactions as an effective chemotherapeutic approach in the treatment of diseases remains a challenge. 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A systematic study of peptides of type pYEEX, where pY is phosphotyrosine and X is a hydrophobic residue, indicates that these peptides can assume two conformations, one extended and one helical, representing the balance between the interaction of residue X with the hydrophobic hole on the surface of the Src SH2 domain, and its contribution to the inherent tendency of the two glutamic acids to form an -helix. In contrast, a -turn conformation, almost identical to that observed in the crystal structure of pYVNV bound to the Grb2 SH2 domain, predominates for pYXNX peptides, even in the presence of isoleucine at the third position. While peptide binding affinities, as measured by fluorescence polarization, correlate with the relative proportion of extended peptide conformation, these results suggest a model where all three residues C-terminal to the phosphotyrosine determine the conformation of the bound phosphopeptide. 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