2024
Calcium flow at ER-TGN contact sites facilitates secretory cargo export
Ramazanov B, Parchure A, Di Martino R, Kumar A, Chung M, Kim Y, Griesbeck O, Schwartz M, Luini A, von Blume J. Calcium flow at ER-TGN contact sites facilitates secretory cargo export. Molecular Biology Of The Cell 2024, 35: ar50. PMID: 38294859, PMCID: PMC11064664, DOI: 10.1091/mbc.e23-03-0099.Peer-Reviewed Original Research
2014
Coherent Raman tissue imaging in the brain.
Saar BG, Freudiger CW, Xu X, Huttner A, Kesari S, Young G, Xie XS. Coherent Raman tissue imaging in the brain. Cold Spring Harbor Protocols 2014, 2014: pdb.top081695. PMID: 24786507, DOI: 10.1101/pdb.top081695.Peer-Reviewed Original ResearchConceptsMultiphoton-excited fluorescenceCRS imagingCRS techniqueCoherent anti-Stokes RamanCoherent Raman scattering techniquesAnti-Stokes RamanLabel-free chemical imagingLabel-free imagingClass of moleculesDrug moleculesRaman scattering techniqueVibrational signaturesChemical imagingFluorescent moleculesScattering techniquesRaman scatteringHigh spatial resolutionMolecular speciesMultiphoton microscopySimilar imaging parametersEndogenous fluorophoresMoleculesSpatial resolutionFluorescent labelingInstrumentation requirements
2011
Synthesis and Characterization of Self-Assembled DNA Nanostructures
Lin C, Ke Y, Chhabra R, Sharma J, Liu Y, Yan H. Synthesis and Characterization of Self-Assembled DNA Nanostructures. Methods In Molecular Biology 2011, 749: 1-11. PMID: 21674361, DOI: 10.1007/978-1-61779-142-0_1.ChaptersConceptsDNA nanostructuresDNA nanotechnologySelf-assembled DNA nanostructuresSuch nanoscale objectsStructural DNA nanotechnologyCharacterization of SelfDNA-based nanodevicesExcellent yieldsNanoscale objectsNanostructuresArtificial nanostructuresMolecular speciesBuilding blocksNanotechnologyFast evolvementMain building blocksNanoarchitecturesLarge varietySynthesisMaterialsNanodevicesPreparationCharacterizationBuilding materialsYield
2009
Designer DNA Nanoarchitectures
Lin C, Liu Y, Yan H. Designer DNA Nanoarchitectures. Biochemistry 2009, 48: 1663-1674. PMID: 19199428, PMCID: PMC2765550, DOI: 10.1021/bi802324w.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsStructural DNA nanotechnologyDNA nanotechnologyDNA nanoarchitecturesSelf-assembled architecturesWatson-Crick base pairing rulesProtein-protein interactionsBase pairing rulesDNA nanostructuresMulticomponent nanomachinesPrinciples of DNAArtificial nanostructuresNanometer precisionHelical DNA structureUnicellular diatomsFunctional groupsDNA structureNanotechnologyNanostructuresMolecular speciesNanoarchitecturesSuch eleganceExciting progressHigh yieldsBiological systemsDNA
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
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