Meredith Betterton Portrait
Professor
Physics
mdb@colorado.edu
(303) 735-6135

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Research Interests:

I'm interested in the physics of cell division and related biophysics. My current projects address motor protein dynamics and microtubule length regulation, cytoskeletal active matter, mitotic spindle assembly and regulation, chromosome segregation in cell division, and disordered proteins in the nuclear pore complex.

Recent Publications:

  1. H.-S. Kuan and M. D. Betterton, "Motor protein accumulation on antiparallel microtubule overlaps,"ÌýÌý(2015).
  2. R. Blackwell, O. Sweezy-Schindler, C. Baldwin, L. E Hough, M. A. Glser, and M. D. Betterton, "Microscopic origins of anisotropic active stress in motor-driven nematic liquid crystals,"ÌýSoft MatterÌýDOI: 10.1039/C5SM02506K (2016).Ìý.
  3. H.-S. Kuan, R. Blackwell, L. E. Hough, M. A. Glaser, and M. D. Betterton, "Hysteresis, reentrance, and glassy dynamics in systems of self-propelled rods,"ÌýPhysical Review EÌý92, 060501 (2015).ÌýÌý.
  4. T. Gao, R. Blackwell, M. A. Glaser, M. D. Betterton, and M. J. Shelley, "Multiscale modeling and simulation of microtubule-motor protein assemblies,"ÌýPhysical Review E92, 062709 (2015).ÌýÌý.
  5. T. Gao, R. Blackwell, M. A. Glaser, M. D. Betterton, and M. J. Shelley, "Multiscale polar theory of microtubule and motor-protein assemblies,"ÌýPhysical Review LettersÌý114, 048101 (2015),Ìý.Ìý
  6. M. D. Betterton and J. R.ÌýMcIntosh, "Regulation of chromosome speeds in mitosis,"Cellular and Molecular BioengineeringÌý6, 418-430 (2013).Ìý.
  7. H.-S. Kuan and M. D. Betterton, "Biophysics of filament length regulation by molecular motors,"ÌýPhysical BiologyÌý10, 036004 (2013).Ìý.
  8. T. Kuriabova, M. D. Betterton, and M. A. Glaser, "Linear aggregation and liquid-crystalline order: comparison of Monte Carlo simulation and analytic theory,"ÌýJournal of Materials ChemistryÌý20, 10366-10383 (2010).Ìý. Selected as aÌýÌýby theÌýJournal of Materials Chemistry.
  9. L. E. Hough, A. Schwabe, M. A. Glaser, J. R.ÌýMcIntosh, and M. D. Betterton, "Microtubule depolymerization by the kinesin-8 motor Kip3p: a mathematical model,"Biophysical JournalÌý96, 3050 (2009).Ìý.