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Megan T Valentine

Showing results (1-10 of 65) with videos related to

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The Review of Scientific Instruments|June 7, 2012
High-force NdFeB-based magnetic tweezers device optimized for microrheology experimentsJun Lin, Megan T Valentine
Methods in Cell Biology|August 27, 2013
Determining the structure-mechanics relationships of dense microtubule networks with confocal microscopy and magnetic tweezers-based microrheologyYali Yang, Megan T Valentine
Current Opinion in Cell Biology|December 26, 2006
To step or not to step? How biochemistry and mechanics influence processivity in Kinesin and Eg5Megan T Valentine, Susan P Gilbert
Cytoskeleton (Hoboken, N.J.)|December 15, 2015
The +TIP coordinating protein EB1 is highly dynamic and diffusive on microtubules, sensitive to GTP analog, ionic strength, and EB1 concentrationBenjamin J Lopez, Megan T Valentine
The Review of Scientific Instruments|June 1, 2015
Design and optimization of arrays of neodymium iron boron-based magnets for magnetic tweezers applicationsNicholas A Zacchia, Megan T Valentine
The Review of Scientific Instruments|October 1, 2022
A compact rotary magnetic tweezers device for dynamic material analysisJohn P Berezney, Megan T Valentine
Biochimica Et Biophysica Acta|July 31, 2015
Molecular control of stress transmission in the microtubule cytoskeletonBenjamin J Lopez, Megan T Valentine
Cytoskeleton (Hoboken, N.J.)|August 28, 2014
Mechanical effects of EB1 on microtubules depend on GTP hydrolysis state and presence of paclitaxelBenjamin J Lopez, Megan T Valentine
Biophysical Journal|September 16, 2009
Force and premature binding of ADP can regulate the processivity of individual Eg5 dimersMegan T Valentine, Steven M Block
Soft Matter|June 25, 2025
Hacktive matter: data-driven discovery through hackathon-based cross-disciplinary codingMegan T Valentine, Rae M Robertson-Anderson
Pageof 7

Showing results (1-10 of 65) with videos related to

Sort By:
Pageof 7
The Review of Scientific Instruments|June 7, 2012
High-force NdFeB-based magnetic tweezers device optimized for microrheology experimentsJun Lin, Megan T Valentine
Methods in Cell Biology|August 27, 2013
Determining the structure-mechanics relationships of dense microtubule networks with confocal microscopy and magnetic tweezers-based microrheologyYali Yang, Megan T Valentine
Current Opinion in Cell Biology|December 26, 2006
To step or not to step? How biochemistry and mechanics influence processivity in Kinesin and Eg5Megan T Valentine, Susan P Gilbert
Cytoskeleton (Hoboken, N.J.)|December 15, 2015
The +TIP coordinating protein EB1 is highly dynamic and diffusive on microtubules, sensitive to GTP analog, ionic strength, and EB1 concentrationBenjamin J Lopez, Megan T Valentine
The Review of Scientific Instruments|June 1, 2015
Design and optimization of arrays of neodymium iron boron-based magnets for magnetic tweezers applicationsNicholas A Zacchia, Megan T Valentine
The Review of Scientific Instruments|October 1, 2022
A compact rotary magnetic tweezers device for dynamic material analysisJohn P Berezney, Megan T Valentine
Biochimica Et Biophysica Acta|July 31, 2015
Molecular control of stress transmission in the microtubule cytoskeletonBenjamin J Lopez, Megan T Valentine
Cytoskeleton (Hoboken, N.J.)|August 28, 2014
Mechanical effects of EB1 on microtubules depend on GTP hydrolysis state and presence of paclitaxelBenjamin J Lopez, Megan T Valentine
Biophysical Journal|September 16, 2009
Force and premature binding of ADP can regulate the processivity of individual Eg5 dimersMegan T Valentine, Steven M Block
Soft Matter|June 25, 2025
Hacktive matter: data-driven discovery through hackathon-based cross-disciplinary codingMegan T Valentine, Rae M Robertson-Anderson
Pageof 7