Microtubule self-organization is gravity-dependent Cyril Papaseit, Nathalie Pochon, and James Tabony* Laboratoire Re´sonance Magne´tique en Biologie Me´tabolique, De´partement de Biologie Mole´culaire et Structurale, Direction des Sciences du Vivant, - Katanin - Document - PDFSEARCH.IO - Document Search Engine

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	Microtubule self-organization is gravity-dependent Cyril Papaseit, Nathalie Pochon, and James Tabony* Laboratoire Re´sonance Magne´tique en Biologie Me´tabolique, De´partement de Biologie Mole´culaire et Structurale, Direction des Sciences du Vivant, Add to Reading List Document Date: 2011-03-26 16:49:10 Open Document File Size: 847,76 KB Share Result on Facebook City Modena / Berlin / L. A. / Cambridge / London / New York / Solna / / Company Swedish Space Corporation / / Country United States / Italy / United Kingdom / Sweden / / / Facility University of Colorado / / IndustryTerm disorganized microtubule network / chemical pattern / tubulin solution / reaction-diffusion systems / chemical reactions / flight hardware / chemical instability / chemical trails / homogeneous solution / launch site / homogenous solution / biological systems / Chemical energy / chemical reaction / physical chemical processes / / Organization Microtubule / Centre National / US Federal Reserve / Cambridge Univ. / University of Colorado / Boulder / European Space Agency / / Person Nathalie Pochon / J. Richard McIntosh / Cyril Papaseit / James Tabony / Nat / / Product acetic acid / / ProvinceOrState New York / Colorado / / RadioStation Am 279 / / Technology gene expression / from an initially homogenous solution / gel electrophoresis / / URL www.pnas.org͞cgi͞doi͞10.1073͞pnas.140029597 / www.pnas.org / / SocialTag Cytoskeleton Microtubule Tubulin Formins Katanin Microtubule-associated protein Biology Cell biology Proteins