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dc.contributor.authorMaekawa, Hiromi
dc.contributor.authorSchiebel, Elmar
dc.date.accessioned2009-08-24T16:15:00Z
dc.date.available2009-08-24T16:15:00Z
dc.date.issued2004-06
dc.identifier.citationCLIP-170 family members: a motor-driven ride to microtubule plus ends. 2004, 6 (6):746-8 Dev. Cellen
dc.identifier.issn1534-5807
dc.identifier.pmid15177023
dc.identifier.doi10.1016/j.devcel.2004.05.017
dc.identifier.urihttp://hdl.handle.net/10541/78395
dc.description.abstractCLIP-170 family proteins regulate microtubule plus end dynamics. Two reports published in this issue of Developmental Cell show that Bik1 and tip1p, the CLIP-170-like proteins of budding and fission yeast, are carried to microtubule plus ends by kinesin motor proteins. These findings indicate a complex interplay between microtubule-associated proteins and suggest a novel mechanism by which kinesin proteins stabilize microtubules.
dc.language.isoenen
dc.subjectCancer Proteinsen
dc.subject.meshCarrier Proteins
dc.subject.meshGlycoproteins
dc.subject.meshHeat-Shock Proteins
dc.subject.meshIntermediate Filament Proteins
dc.subject.meshKinesin
dc.subject.meshMicrotubule-Associated Proteins
dc.subject.meshMicrotubules
dc.subject.meshMolecular Motor Proteins
dc.subject.meshNeoplasm Proteins
dc.subject.meshSaccharomyces cerevisiae Proteins
dc.subject.meshSaccharomycetales
dc.subject.meshSchizosaccharomyces
dc.subject.meshSchizosaccharomyces pombe Proteins
dc.titleCLIP-170 family members: a motor-driven ride to microtubule plus ends.en
dc.typeArticleen
dc.contributor.departmentThe Paterson Institute for Cancer Research, Wilmslow Road, Manchester M20 4BX, United Kingdom.en
dc.identifier.journalDevelopmental Cellen
html.description.abstractCLIP-170 family proteins regulate microtubule plus end dynamics. Two reports published in this issue of Developmental Cell show that Bik1 and tip1p, the CLIP-170-like proteins of budding and fission yeast, are carried to microtubule plus ends by kinesin motor proteins. These findings indicate a complex interplay between microtubule-associated proteins and suggest a novel mechanism by which kinesin proteins stabilize microtubules.


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