| A molecular pathway determining left-right asymmetry in chick embryogenesis M Levin, RL Johnson, CD Sterna, M Kuehn, C Tabin Cell 82 (5), 803-814, 1995 | 876 | 1995 |
| Left–right asymmetry in embryonic development: a comprehensive review M Levin Mechanisms of development 122 (1), 3-25, 2005 | 475 | 2005 |
| Asymmetries in H+/K+-ATPase and cell membrane potentials comprise a very early step in left-right patterning M Levin, T Thorlin, KR Robinson, T Nogi, M Mercola Cell 111 (1), 77-89, 2002 | 420 | 2002 |
| Role of membrane potential in the regulation of cell proliferation and differentiation S Sundelacruz, M Levin, DL Kaplan Stem cell reviews and reports 5 (3), 231-246, 2009 | 397 | 2009 |
| Bioelectric controls of cell proliferation: ion channels, membrane voltage and the cell cycle DJ Blackiston, KA McLaughlin, M Levin Cell cycle 8 (21), 3527-3536, 2009 | 364 | 2009 |
| Large-scale biophysics: ion flows and regeneration M Levin Trends in cell biology 17 (6), 261-270, 2007 | 290 | 2007 |
| Early, H+-V-ATPase-dependent proton flux is necessary for consistent left-right patterning of non-mammalian vertebrates DS Adams, KR Robinson, T Fukumoto, S Yuan, RC Albertson, P Yelick, ... Development 133 (9), 1657-1671, 2006 | 271 | 2006 |
| H+ pump-dependent changes in membrane voltage are an early mechanism necessary and sufficient to induce Xenopus tail regeneration DS Adams, A Masi, M Levin Development 134 (7), 1323-1335, 2007 | 263 | 2007 |
| Serotonin signaling is a very early step in patterning of the left-right axis in chick and frog embryos T Fukumoto, IP Kema, M Levin Current Biology 15 (9), 794-803, 2005 | 241 | 2005 |
| Left/Right Patterning Signals and the Independent Regulation of Different Aspects ofSitusin the Chick Embryo M Levin, S Pagan, DJ Roberts, J Cooke, MR Kuehn, CJ Tabin Developmental biology 189 (1), 57-67, 1997 | 235 | 1997 |
| Membrane potential controls adipogenic and osteogenic differentiation of mesenchymal stem cells S Sundelacruz, M Levin, DL Kaplan PloS one 3 (11), e3737, 2008 | 233 | 2008 |
| Gap junctions are involved in the early generation of left–right asymmetry M Levin, M Mercola Developmental biology 203 (1), 90-105, 1998 | 221 | 1998 |
| Molecular bioelectricity in developmental biology: new tools and recent discoveries: control of cell behavior and pattern formation by transmembrane potential gradients M Levin Bioessays 34 (3), 205-217, 2012 | 215 | 2012 |
| Left-right asymmetry determination in vertebrates M Mercola, M Levin Annual Review of cell and developmental Biology 17 (1), 779-805, 2001 | 215 | 2001 |
| Molecular bioelectricity: how endogenous voltage potentials control cell behavior and instruct pattern regulation in vivo M Levin Molecular biology of the cell 25 (24), 3835-3850, 2014 | 210 | 2014 |
| Morphogenetic fields in embryogenesis, regeneration, and cancer: non-local control of complex patterning M Levin Biosystems 109 (3), 243-261, 2012 | 207 | 2012 |
| Apoptosis is required during early stages of tail regeneration in Xenopus laevis AS Tseng, DS Adams, D Qiu, P Koustubhan, M Levin Developmental biology 301 (1), 62-69, 2007 | 204 | 2007 |
| Bioelectromagnetics in morphogenesis M Levin Bioelectromagnetics 24 (5), 295-315, 2003 | 201 | 2003 |
| Gap junction-mediated transfer of left-right patterning signals in the early chick blastoderm is upstream of Shh asymmetry in the node M Levin, M Mercola Development 126 (21), 4703-4714, 1999 | 196 | 1999 |
| Bioelectric mechanisms in regeneration: unique aspects and future perspectives M Levin Seminars in cell & developmental biology 20 (5), 543-556, 2009 | 194 | 2009 |
