2010
Proliferative arrest of neural cells induces prion protein synthesis, nanotube formation, and cell‐to‐cell contacts
Miyazawa K, Emmerling K, Manuelidis L. Proliferative arrest of neural cells induces prion protein synthesis, nanotube formation, and cell‐to‐cell contacts. Journal Of Cellular Biochemistry 2010, 111: 239-247. PMID: 20518071, PMCID: PMC2930104, DOI: 10.1002/jcb.22723.Peer-Reviewed Original ResearchConceptsProliferative arrestTerminal differentiationCell division arrestT antigenStationary cellsNeuronal precursor cellsDivision arrestHost prion proteinKey developmental timesSV-40 T antigenAdherent junctionsDevelopmental timeProtein synthesisLiving cellsMRNA transcriptsPrion proteinNeural cellsPrecursor cellsCell contactGrowth conesDNA-synthesizing cellsCellsReduced serumNeuritic processesDifferentiation
2005
Prototypical Type I E-cadherin and Type II Cadherin-7 Mediate Very Distinct Adhesiveness through Their Extracellular Domains*
Chu YS, Eder O, Thomas WA, Simcha I, Pincet F, Ben-Ze'ev A, Perez E, Thiery JP, Dufour S. Prototypical Type I E-cadherin and Type II Cadherin-7 Mediate Very Distinct Adhesiveness through Their Extracellular Domains*. Journal Of Biological Chemistry 2005, 281: 2901-2910. PMID: 16253998, DOI: 10.1074/jbc.m506185200.Peer-Reviewed Original ResearchConceptsType II cadherinsE-cadherinIntercellular adhesivenessChimeric cadherinsTissue morphogenesisCadherin expression levelsCytoskeletal complexCytoplasmic tailCadherin-7Adherent junctionsCell doubletsCadherinExtracellular domainType ICell adhesivityExpression levelsStable complexesLow adhesivityCellsMorphogenesisAdhesivityComplexesProfound implicationsHigh adhesivityRegulation
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