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Cytoskeleton / Proteins / Motor proteins / Cell cycle / Microtubule / Spindle apparatus / Tubulin / Kinetochore / Kinesin / Biology / Cell biology / Mitosis


The growth speed of microtubules with XMAP215-coated beads coupled to their ends is increased by tensile force Anastasiya Trushkoa, Erik Schäfferb,1,2, and Jonathon Howarda,2,3 a Max Planck Institute of Molecular Cell B
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Document Date: 2013-09-13 08:47:21

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City

Molodtsov / Dresden / Tübingen / New Haven / /

Company

Rapp Polymere GmbH / Sigma-Aldrich / /

Country

Germany / /

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EntertainmentAwardEvent

Emmy / /

Event

FDA Phase / /

Facility

University of Colorado Boulder / University of Tübingen / C terminus / N terminus / Plant Molecular Biology / Dam1 complex / Yale University / /

IndustryTerm

tubulin solution / bead protocol / antibody solution / imaging / energy / /

MarketIndex

nm) and the / /

NaturalFeature

Bead MT / /

Organization

red cross / Department of Molecular Biophysics & Biochemistry / Center for Plant Molecular Biology / EDC / Technische Universität Dresden / Max Planck Institute of Molecular Cell Biology and Genetics / University of Colorado Boulder / Universität Tübingen / University of Tübingen / European Research Council / bBiotechnology Center / NHS / Yale University / /

Person

Anita Jannasch / Mohammed Mahamdeh / J. Richard McIntosh / Volker Bormuth / Heike Petzold / Per Widlund / Jonathon Howarda / Anastasiya Trushkoa / Erik Schäfferb / /

/

Position

Walker / representative / XMAP215-coated Author / Snyder MP / /

Product

Sigma / polyethylene glycol / XMAP215 / /

ProgrammingLanguage

MATLAB / /

ProvinceOrState

Alabama / Aurora / Connecticut / /

Technology

laser / coupling protocol / antibodies / polymerization / bead protocol / /

URL

www.pnas.org/cgi/doi/10.1073/pnas.1218053110 / /

SocialTag