2009
Molecular Dynamics Simulations Reveal that Tyr-317 Phosphorylation Reduces Shc Binding Affinity for Phosphotyrosyl Residues of Epidermal Growth Factor Receptor
Suenaga A, Hatakeyama M, Kiyatkin AB, Radhakrishnan R, Taiji M, Kholodenko BN. Molecular Dynamics Simulations Reveal that Tyr-317 Phosphorylation Reduces Shc Binding Affinity for Phosphotyrosyl Residues of Epidermal Growth Factor Receptor. Biophysical Journal 2009, 96: 2278-2288. PMID: 19289054, PMCID: PMC2717265, DOI: 10.1016/j.bpj.2008.11.018.Peer-Reviewed Original ResearchConceptsSrc homology 2Epidermal growth factor receptorGrowth factor receptorPhospho-tyrosine binding (PTB) domainsLinker regionFull-length ShcPhospho-tyrosine residuesKey conformational changesFactor receptorShc interactionTyr-317Protein ShcTyrosine kinase receptorsPhosphorylated ShcPTB domainRas-mitogenHomology 2Phosphorylation resultsPhosphotyrosyl peptidesProtein kinaseTyrosine phosphorylationBinding domainsSubsequent phosphorylationPhosphotyrosyl residuesShc
2003
Tyr-317 Phosphorylation Increases Shc Structural Rigidity and Reduces Coupling of Domain Motions Remote from the Phosphorylation Site as Revealed by Molecular Dynamics Simulations*
Suenaga A, Kiyatkin AB, Hatakeyama M, Futatsugi N, Okimoto N, Hirano Y, Narumi T, Kawai A, Susukita R, Koishi T, Furusawa H, Yasuoka K, Takada N, Ohno Y, Taiji M, Ebisuzaki T, Hoek JB, Konagaya A, Kholodenko BN. Tyr-317 Phosphorylation Increases Shc Structural Rigidity and Reduces Coupling of Domain Motions Remote from the Phosphorylation Site as Revealed by Molecular Dynamics Simulations*. Journal Of Biological Chemistry 2003, 279: 4657-4662. PMID: 14613932, DOI: 10.1074/jbc.m310598200.Peer-Reviewed Original ResearchConceptsPhosphotyrosine bindingTyr-317Shc phosphorylationSH2 domainC-terminal Src homology 2 domainSrc homology 2 domainRas/Raf/MEK/ERK pathwayShc adaptor proteinRaf/MEK/ERK pathwayMEK/ERK pathwayReceptor tyrosine kinasesShc functionPhosphorylated ShcPhosphorylation sitesAdaptor proteinLinker regionShcTyrosine kinaseERK pathwayMembrane receptorsPhosphorylationDomain motionMolecular dynamics simulationsNumerous partnersDomain coupling