| Axon branching requires interactions between dynamic microtubules and actin filaments EW Dent, K Kalil Journal of Neuroscience 21 (24), 9757-9769, 2001 | 508 | 2001 |
| Netrin-1 and semaphorin 3A promote or inhibit cortical axon branching, respectively, by reorganization of the cytoskeleton EW Dent, AM Barnes, F Tang, K Kalil Journal of Neuroscience 24 (12), 3002-3012, 2004 | 348 | 2004 |
| Reorganization and movement of microtubules in axonal growth cones and developing interstitial branches EW Dent, JL Callaway, G Szebenyi, PW Baas, K Kalil Journal of Neuroscience 19 (20), 8894-8908, 1999 | 327 | 1999 |
| Branch management: mechanisms of axon branching in the developing vertebrate CNS K Kalil, EW Dent Nature Reviews Neuroscience 15 (1), 7-18, 2014 | 313 | 2014 |
| Touch and go: guidance cues signal to the growth cone cytoskeleton K Kalil, EW Dent Current opinion in neurobiology 15 (5), 521-526, 2005 | 277 | 2005 |
| Common mechanisms underlying growth cone guidance and axon branching K Kalil, G Szebenyi, EW Dent Journal of neurobiology 44 (2), 145-158, 2000 | 254 | 2000 |
| Projections of the cerebellar and dorsal column nuclei upon the thalamus of the rhesus monkey K Kalil Journal of Comparative Neurology 195 (1), 25-50, 1981 | 239 | 1981 |
| A light and electron microscopic study of regrowing pyramidal tract fibers K Kalil, T Reh Journal of Comparative Neurology 211 (3), 265-275, 1982 | 237 | 1982 |
| Regrowth of severed axons in the neonatal central nervous system: establishment of normal connections K Kalil, T Reh Science 205 (4411), 1158-1161, 1979 | 212 | 1979 |
| Elevated synthesis of an axonally transported protein correlates with axon outgrowth in normal and injured pyramidal tracts K Kalil, JH Skene Journal of Neuroscience 6 (9), 2563-2570, 1986 | 204 | 1986 |
| Dynamic behaviors of growth cones extending in the corpus callosum of living cortical brain slices observed with video microscopy MC Halloran, K Kalil Journal of Neuroscience 14 (4), 2161-2177, 1994 | 194 | 1994 |
| Wnt5a induces simultaneous cortical axon outgrowth and repulsive axon guidance through distinct signaling mechanisms L Li, BI Hutchins, K Kalil Journal of Neuroscience 29 (18), 5873-5883, 2009 | 190 | 2009 |
| Spontaneous calcium transients in developing cortical neurons regulate axon outgrowth F Tang, EW Dent, K Kalil Journal of Neuroscience 23 (3), 927-936, 2003 | 169 | 2003 |
| Netrin-1 induces axon branching in developing cortical neurons by frequency-dependent calcium signaling pathways F Tang, K Kalil Journal of Neuroscience 25 (28), 6702-6715, 2005 | 164 | 2005 |
| Guidance of callosal axons by radial glia in the developing cerebral cortex CR Norris, K Kalil Journal of Neuroscience 11 (11), 3481-3492, 1991 | 164 | 1991 |
| Fibroblast growth factor-2 promotes axon branching of cortical neurons by influencing morphology and behavior of the primary growth cone G Szebenyi, EW Dent, JL Callaway, C Seys, H Lueth, K Kalil Journal of Neuroscience 21 (11), 3932-3941, 2001 | 162 | 2001 |
| Axon guidance by growth cones and branches: common cytoskeletal and signaling mechanisms EW Dent, F Tang, K Kalil The Neuroscientist 9 (5), 343-353, 2003 | 157 | 2003 |
| Interstitial branches develop from active regions of the axon demarcated by the primary growth cone during pausing behaviors G Szebenyi, JL Callaway, EW Dent, K Kalil Journal of Neuroscience 18 (19), 7930-7940, 1998 | 154 | 1998 |
| Development of the pyramidal tract in the hamster. I. A light microscopic study T Reh, K Kalil Journal of Comparative Neurology 200 (1), 55-67, 1981 | 131 | 1981 |
| Patch-like termination of thalamic fibers in the putamen of the rhesus monkey: an autoradiographic study K Kalil Brain Research 140 (2), 333-339, 1978 | 125 | 1978 |
