Spindle Working Group Meeting

Poster Titles

Name	Institute	Poster Title
Christopher Edelmaier	University of Colorado Boulder	Investigating How Chromosome Mechanics Contribute to Mitosis Fidelity
Colm Kelleher	Harvard University	Biophysics of Chromosome Segregation Errors in Mammalian Oocytes
Florencio Balboa Usabiaga	Flatiron Institute	A computational approach to centrosome separation
Gunar Fabig	Technische Universität Dresden	Ultrastructure of k-fibers in 3D-reconstructured mammalian spindles in mitosis
Hai-Yin Wu	Harvard University	Cortical Pulling Drives Pronuclear Migration and Rotation, and Spindle Positioning and Oscillation
Maya Anjur-Dietrich	Harvard University	Forces That Move Chromosomes and Position the Spindle
Sami Bashar	University of Wyoming	Exploring the Mechanics of Aster Positioning Using Photopatterned Hydrogel Enclosures
Sebastian Fuerthauer	Flatiron Institute	Actively cross-linked microtubule networks
Taylor Sulerud	University of Wyoming	Geometric asymmetry and dynein perturbations help elucidate the mechanism of aster translocation in Xenopus laevis extract
Wen Yan	Flatiron Institute	Active Matter Self-Assembly Simulator (AMSAS)}: Combining biophysics and mechanics on HPC
Will Conway	Harvard University	Towards Measuring In-Vivo NDC80c Binding Kinetics from FLIM-FRET Fluctuations
Zach Geisterfer	University of Wyoming	Characterizing the Relationship Between Microtubule Growing End Density and Microtubule Growth Rates