2020
Systems biology approaches to macromolecules: the role of dynamic protein assemblies in information processing
Rukhlenko O, Kholodenko B, Kolch W. Systems biology approaches to macromolecules: the role of dynamic protein assemblies in information processing. Current Opinion In Structural Biology 2020, 67: 61-68. PMID: 33126139, PMCID: PMC8062579, DOI: 10.1016/j.sbi.2020.09.007.Peer-Reviewed Original ResearchConceptsProtein assembliesProtein complex dynamicsDynamic protein assembliesMacromolecular protein assembliesSignal transduction networksSystems biology approachMEK-ERK pathwayProtein complexesTransduction networksCellular processesBiology approachMolecular machinesRAS-RAFOncogenic mutationsStructural studiesDrug resistanceTemporal dynamicsAssemblyRecent progressTumorigenesisMutationsPicture highlightsFine tuningPathwayDynamic process
2005
Signaling through Receptors and Scaffolds: Independent Interactions Reduce Combinatorial Complexity
Borisov N, Markevich N, Hoek J, Kholodenko B. Signaling through Receptors and Scaffolds: Independent Interactions Reduce Combinatorial Complexity. Biophysical Journal 2005, 89: 951-966. PMID: 15923229, PMCID: PMC1366644, DOI: 10.1529/biophysj.105.060533.Peer-Reviewed Original ResearchConceptsProtein complexesComplex signaling networksDistinct physiological responsesSignaling networksAdaptor proteinDocking siteMolecular eventsTemporal dynamicsPhysiological responsesDistinct sitesIndependent interactionsBranched networkSeparate domainsMolecular speciesDomain-oriented approachCombinatorial increaseReceptorsIndividual sitesSitesComplexesScaffoldsSpeciesTens of thousandsProteinDifferent sites