Featured Publications
Fibronectin is a smart adhesive that both influences and responds to the mechanics of early spinal column development
Guillon E, Das D, Jülich D, Hassan AR, Geller H, Holley S. Fibronectin is a smart adhesive that both influences and responds to the mechanics of early spinal column development. ELife 2020, 9: e48964. PMID: 32228864, PMCID: PMC7108867, DOI: 10.7554/elife.48964.Peer-Reviewed Original ResearchMeSH KeywordsAdhesivesAnimalsExtracellular MatrixFemaleFibronectinsHumansMaleMesodermMorphogenesisNeural TubeSpineZebrafishConceptsNeural tubeParaxial mesodermZebrafish neural tubeNormal vertebrate developmentVertebrate trunkVertebrate developmentFibronectin remodelingFibronectin matrixConvergence defectsMorphogenesisExtracellular matrixMesodermFibronectinColumn developmentSmart adhesivesCadherinMutantsAdhesive lap jointsAdhesionLap jointsSymmetric interfacesRemodelingShear stressDefects
2016
A Sawtooth Pattern of Cadherin 2 Stability Mechanically Regulates Somite Morphogenesis
McMillen P, Chatti V, Jülich D, Holley SA. A Sawtooth Pattern of Cadherin 2 Stability Mechanically Regulates Somite Morphogenesis. Current Biology 2016, 26: 542-549. PMID: 26853361, PMCID: PMC4822709, DOI: 10.1016/j.cub.2015.12.055.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCadherinsExtracellular MatrixMesodermMorphogenesisSomitesZebrafishZebrafish ProteinsConceptsECM assemblyGenetic mosaicsPosterior somitesDifferential cadherin expressionExtracellular matrixCell-ECM adhesionFN matrix assemblyBoundary formationVertebrate gastrulationSomite boundariesSomite morphogenesisCytoskeletal contractilityParaxial mesodermEmbryonic precursorsCDH activityMatrix assemblyCadherin expressionCDH2SomitesTissue boundariesIntegrin α5SomitogenesisCell sortingCell aggregatesAssembly
2009
Control of extracellular matrix assembly along tissue boundaries via Integrin and Eph/Ephrin signaling
Jülich D, Mould AP, Koper E, Holley SA. Control of extracellular matrix assembly along tissue boundaries via Integrin and Eph/Ephrin signaling. Development 2009, 136: 2913-2921. PMID: 19641014, DOI: 10.1242/dev.038935.Peer-Reviewed Original Research
2005
Integrinα5 and Delta/Notch Signaling Have Complementary Spatiotemporal Requirements during Zebrafish Somitogenesis
Ju¨lich D, Geisler R, Consortium T, Holley S. Integrinα5 and Delta/Notch Signaling Have Complementary Spatiotemporal Requirements during Zebrafish Somitogenesis. Developmental Cell 2005, 8: 575-586. PMID: 15809039, DOI: 10.1016/j.devcel.2005.01.016.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsAnimals, Genetically ModifiedBody PatterningCell PolarityExtracellular MatrixFibronectinsGene Expression Regulation, DevelopmentalIn Situ HybridizationIntegrin alpha5Intracellular Signaling Peptides and ProteinsMembrane ProteinsMolecular Sequence DataMorphogenesisPhenotypePoint MutationReceptors, NotchRecombinant Fusion ProteinsSignal TransductionSomitesZebrafishZebrafish ProteinsConceptsFibronectin matrix assemblyDelta/Notch signalingMatrix assemblyNotch pathway mutantsEntire body axisZebrafish somitogenesisVertebrate embryogenesisPathway mutantsDouble mutantSomite defectsSomite formationPosterior somitesGenetic controlSomitogenesisNotch signalingNotch pathwayEpithelial transitionSpatiotemporal requirementsBody axisCell polarizationSegmentation defectsPoint mutationsMutantsComplete lossSkeletal muscle
1999
8 Somitogenesis in Zebrafish
Holley S, Nüsslein-Volhard C. 8 Somitogenesis in Zebrafish. Current Topics In Developmental Biology 1999, 47: 247-277. PMID: 10595307, DOI: 10.1016/s0070-2153(08)60727-9.Peer-Reviewed Original ResearchConceptsSomite segmentationSegment polarity genesSpecific muscle typesExtension of axonsPolarity genesNotochord formationDanio rerioSomite developmentGenetic analysisMedial somiteMutantsSomitesGenesEmbryological studiesPrimary motoneuronsSomitogenesisSlow muscle fibersZebrafishNotochordMuscle typesDevelopment of motoneuronsDifferentiationMorphological transitionDrosophilaRerio