2023
Correction: Trio family proteins as regulators of cell migration and morphogenesis in development and disease – mechanisms and cellular contexts
Bircher J, Koleske A. Correction: Trio family proteins as regulators of cell migration and morphogenesis in development and disease – mechanisms and cellular contexts. Journal Of Cell Science 2023, 136 PMID: 36763488, PMCID: PMC11034500, DOI: 10.1242/jcs.260984.Peer-Reviewed Original Research
2021
Trio family proteins as regulators of cell migration and morphogenesis in development and disease – mechanisms and cellular contexts
Bircher JE, Koleske AJ. Trio family proteins as regulators of cell migration and morphogenesis in development and disease – mechanisms and cellular contexts. Journal Of Cell Science 2021, 134: jcs248393. PMID: 33568469, PMCID: PMC7888718, DOI: 10.1242/jcs.248393.Peer-Reviewed Original ResearchConceptsFamily proteinsCellular contextProtein-protein interaction domainsHuman diseasesProtein trafficking pathwaysLarge multidomain proteinCell surface receptorsTrio proteinsUNC-73Cell morphogenesisProtein traffickingTrafficking pathwaysMultidomain proteinsInteraction domainInteraction partnersKey regulatorBiological contextTissue organizationCell migrationSurface receptorsProteinTrio familiesRecent discoveryMorphogenesisRegulator
2003
Do Filopodia Enable the Growth Cone to Find Its Way?
Koleske AJ. Do Filopodia Enable the Growth Cone to Find Its Way? Science Signaling 2003, 2003: pe20. PMID: 12759482, DOI: 10.1126/stke.2003.183.pe20.Peer-Reviewed Original ResearchConceptsEna/VASP proteinsVASP proteinsEna/VASP family proteinsGrowth conesActin filament elongationNeuronal growth conesGrowth cone filopodiaCaenorhabditis elegansFamily proteinsFilament elongationAxon guidanceSensory organsFilopodiaGuidance cuesNonneuronal cellsProteinDrosophilaElegansLamellipodiaNervous system