| Intracellular fluid mechanics: Coupling cytoplasmic flow with active cytoskeletal gel A Mogilner, A Manhart Annual Review of Fluid Mechanics 50, 347-370, 2018 | 95 | 2018 |
| Large-scale mitochondrial DNA analysis in Southeast Asia reveals evolutionary effects of cultural isolation in the multi-ethnic population of Myanmar M Summerer, J Horst, G Erhart, H Weißensteiner, S Schönherr, D Pacher, ... BMC evolutionary biology 14, 1-12, 2014 | 71 | 2014 |
| Nuclear scaling is coordinated among individual nuclei in multinucleated muscle fibers SE Windner, A Manhart, A Brown, A Mogilner, MK Baylies Developmental cell 49 (1), 48-62. e3, 2019 | 58 | 2019 |
| Mechanical positioning of multiple nuclei in muscle cells A Manhart, S Windner, M Baylies, A Mogilner PLoS computational biology 14 (6), e1006208, 2018 | 42 | 2018 |
| An extended Filament Based Lamellipodium Model produces various moving cell shapes in the presence of chemotactic signals A Manhart, D Oelz, C Schmeiser, N Sfakianakis Journal of theoretical biology 382, 244-258, 2015 | 39 | 2015 |
| Analyzing collective motion with machine learning and topology D Bhaskar, A Manhart, J Milzman, JT Nardini, KM Storey, CM Topaz, ... Chaos: An Interdisciplinary Journal of Nonlinear Science 29 (12), 2019 | 38 | 2019 |
| A continuum model for nematic alignment of self-propelled particles P Degond, A Manhart, H Yu arXiv preprint arXiv:1509.03124, 2015 | 28 | 2015 |
| Centering and symmetry breaking in confined contracting actomyosin networks N Ierushalmi, M Malik-Garbi, A Manhart, E Abu Shah, BL Goode, ... Elife 9, e55368, 2020 | 26 | 2020 |
| An age-structured continuum model for myxobacteria P Degond, A Manhart, H Yu Mathematical Models and Methods in Applied Sciences 28 (09), 1737-1770, 2018 | 20 | 2018 |
| Quantitative regulation of the dynamic steady state of actin networks A Manhart, TA Icheva, C Guerin, T Klar, R Boujemaa-Paterski, M Thery, ... Elife 8, e42413, 2019 | 18 | 2019 |
| Agent-based modeling: case study in cleavage furrow models A Mogilner, A Manhart Molecular biology of the cell 27 (22), 3379-3384, 2016 | 16 | 2016 |
| Numerical treatment of the filament-based lamellipodium model (FBLM) A Manhart, D Oelz, C Schmeiser, N Sfakianakis Modeling cellular systems, 141-159, 2017 | 14 | 2017 |
| Kinetic modelling of colonies of myxobacteria S Hittmeir, L Kanzler, A Manhart, C Schmeiser arXiv preprint arXiv:2001.02711, 2020 | 9 | 2020 |
| Large-scale dynamics of self-propelled particles moving through obstacles: model derivation and pattern formation P Aceves-Sanchez, P Degond, EE Keaveny, A Manhart, ... Bulletin of Mathematical Biology 82, 1-39, 2020 | 7 | 2020 |
| Reverse-engineering forces responsible for dynamic clustering and spreading of multiple nuclei in developing muscle cells A Manhart, M Azevedo, M Baylies, A Mogilner Molecular biology of the cell 31 (16), 1802-1814, 2020 | 4 | 2020 |
| Existence of and decay to equilibrium of the filament end density along the leading edge of the lamellipodium A Manhart, C Schmeiser Journal of Mathematical Biology 74, 169-193, 2017 | 4 | 2017 |
| Mathematical modeling of Myosin induced bistability of Lamellipodial fragments S Hirsch, A Manhart, C Schmeiser Journal of mathematical biology 74, 1-22, 2017 | 3 | 2017 |
| How environment affects active particle swarms: a case study P Degond, A Manhart, S Merino-Aceituno, D Peurichard, L Sala Royal Society Open Science 9 (12), 220791, 2022 | 2 | 2022 |
| Chaos in synthetic microbial communities BD Karkaria, A Manhart, AJH Fedorec, CP Barnes PLoS Computational Biology 18 (10), e1010548, 2022 | 2 | 2022 |
| Counter-propagating wave patterns in a swarm model with memory A Manhart Journal of Mathematical Biology 78 (3), 655-682, 2019 | 2 | 2019 |
