2024
Allosteric activation of the co-receptor BAK1 by the EFR receptor kinase initiates immune signaling
Mühlenbeck H, Tsutsui Y, Lemmon M, Bender K, Zipfel C. Allosteric activation of the co-receptor BAK1 by the EFR receptor kinase initiates immune signaling. ELife 2024, 12: rp92110. PMID: 39028038, PMCID: PMC11259431, DOI: 10.7554/elife.92110.Peer-Reviewed Original ResearchConceptsKinase domainReceptor kinasePhosphorylation-dependent conformational changesActive conformationIntragenic suppressor mutationsCo-receptor BAK1Kinase-dead variantPlant receptor kinasesProtein kinase domainLeucine-rich repeatNon-catalytic functionsIntracellular kinase domainCo-receptorLRR-RKsSuppressor mutationsTrans-phosphorylationPseudokinase domainActivation loopActive kinaseAllosteric activationTransmembrane signalingBAK1Immune signalingRegulate signalingSignaling activityAllosteric activation of the co-receptor BAK1 by the EFR receptor kinase initiates immune signaling
Mühlenbeck H, Tsutsui Y, Lemmon M, Bender K, Zipfel C. Allosteric activation of the co-receptor BAK1 by the EFR receptor kinase initiates immune signaling. ELife 2024, 12 DOI: 10.7554/elife.92110.4.Peer-Reviewed Original ResearchKinase domainReceptor kinasePhosphorylation-dependent conformational changesActive conformationIntragenic suppressor mutationsCo-receptor BAK1Kinase-dead variantPlant receptor kinasesProtein kinase domainLeucine-rich repeatNon-catalytic functionsIntracellular kinase domainCo-receptorLRR-RKsSuppressor mutationsTrans-phosphorylationPseudokinase domainActivation loopActive kinaseAllosteric activationTransmembrane signalingBAK1Immune signalingRegulate signalingSignaling activity
2011
Molecular dynamics analysis of conserved hydrophobic and hydrophilic bond-interaction networks in ErbB family kinases
Shih AJ, Telesco SE, Choi SH, Lemmon MA, Radhakrishnan R. Molecular dynamics analysis of conserved hydrophobic and hydrophilic bond-interaction networks in ErbB family kinases. Biochemical Journal 2011, 436: 241-251. PMID: 21426301, PMCID: PMC3138537, DOI: 10.1042/bj20101791.Peer-Reviewed Original ResearchConceptsErbB familyDifferent molecular contextsIntracellular kinase domainImportant regulatory elementsSrc kinase HckReceptor tyrosine kinasesHomologous receptor tyrosine kinasesSequence similarityKinase domainRegulatory elementsDimer interfaceSubdomain motionsInactive conformationKey residuesEGFR activationMolecular contextTyrosine kinasePresent molecular dynamics studyBond networkActive conformationConformational statesKinaseErbB kinasesMolecular dynamics analysisSalt bridge
2010
ErbB3/HER3 intracellular domain is competent to bind ATP and catalyze autophosphorylation
Shi F, Telesco SE, Liu Y, Radhakrishnan R, Lemmon MA. ErbB3/HER3 intracellular domain is competent to bind ATP and catalyze autophosphorylation. Proceedings Of The National Academy Of Sciences Of The United States Of America 2010, 107: 7692-7697. PMID: 20351256, PMCID: PMC2867849, DOI: 10.1073/pnas.1002753107.Peer-Reviewed Original ResearchConceptsKinase domainIntracellular kinase domainReceptor tyrosine kinase familyTyrosine kinase familyErbB2/HER2/Neu