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N. Tajielyato, J. Alper, and E. Alexov. Modeling Tubulin E-Hooks Interactions with Dynein Microtubule Binding Domain. PROTEIN SCIENCE, volume 27, pages 198-198, 2018.

N. Tajielyato, L. Li, Y. Peng, J. Alper, and E. Alexov. E-hooks provide guidance and a soft landing for the microtubule binding domain of dynein. Scientific reports, Nature Publishing Group, volume 8, issue 1, pages 1-10, 2018.

S. C. Godar, H. Lovelace, J. Eller, M. Spencer, L. Li, G. Hamilton, H. Sanabria, E. Alexov, and J. Alper. Single Molecule Study of Long-Range Electrostatic Binding Affinity of Cytoplasmic Dynein's Microtubule Binding Domain. Biophysical Journal, Elsevier, volume 114, issue 3, pages 512a, 2018.

L. Li, Z. Jia, Y. Peng, S. Godar, I. Getov, S. Teng, J. Alper, and E. Alexov. Forces and Disease: Electrostatic force differences caused by mutations in kinesin motor domains can distinguish between disease-causing and non-disease-causing mutations. Scientific reports, Nature Publishing Group, volume 7, issue 1, pages 1-12, 2017.

L. Li, J. Alper, and E. Alexov. Multi-Scale Investigation on the Mechanisms of Dyneins’ Motion on Microtubule. Biophysical Journal, Elsevier, volume 112, issue 3, pages 261a, 2017.

L. Li, J. Alper, and E. Alexov. Cytoplasmic dynein binding, run length, and velocity are guided by long-range electrostatic interactions. Scientific reports, Nature Publishing Group, volume 6, issue 1, pages 1-12, 2016.

L. Li, J. Alper, and E. Alexov. Multiscale method for modeling binding phenomena involving large objects: application to kinesin motor domains motion along microtubules. Scientific reports, Nature Publishing Group, volume 6, issue 1, pages 1-12, 2016.