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  • Burns, A. J., Herbert, T. M., Ward, S. M. & Sanders, K. M. (1997). Interstitial cells of Cajal in the guinea-pig gastrointestinal tract as revealed by c-Kit immunohistochemistry. Cell and Tissue Research 290, 1120.
  • Cayabyab, F. S., DeBruin, H., Jimenez, M. & Daniel, E. E. (1996). Ca2+ role in myogenic and neurogenic activities of canine ileum circular muscle. American Journal of Physiology 271, G10531066.
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  • El-Sharkawy, T. Y. & Daniel, E. E. (1975). Ionic mechanisms of intestinal electrical control activity. American Journal of Physiology 229, 12871298.
  • Huizinga, J. D., Farraway, L. & Den hertog, A. (1991). Generation of slow-wave-type action potentials in canine colon smooth muscle involves a non-L-type Ca2+ conductance. The Journal of Physiology 442, 1529.
  • Huizinga, J. D., Thuneberg, L., Kluppel, M., Malysz, J., Mikkelsen, H. B. & Bernstein, A. (1995). W/kit gene required for interstitial cells of Cajal and for intestinal pacemaker activity. Nature 373, 347349.DOI: 10.1038/373347a0
  • Langton, P., Ward, S. M., Carl, A., Norell, M. & Sanders, K. M. (1989). Spontaneous electrical activity of interstitial cells of Cajal isolated from canine proximal colon. Proceedings of the National Academy of Sciences of the USA 86, 72807284.
  • Lee, H. K. & Sanders, K. M. (1993). Comparison of ionic currents from interstitial cells and smooth muscle cells of canine colon. The Journal of Physiology 460, 135152.
  • Liu, J., Prosser, C. L. & Job, D. D. (1969). Ionic dependence of slow waves and spikes in intestinal muscle. American Journal of Physiology 217, 15421547.
  • Malysz, J., Richardson, D., Farraway, L., Christen, M. O. & Huizinga, J. D. (1995). Generation of slow wave type action potentials in the mouse small intestine involves a non-L-type calcium channel. Canadian Journal of Physiology and Pharmacology 73, 15021511.
  • Nishikawa, S., Kusakabe, M., Yoshinaga, K., Ogawa, M., Hayashi, S.-I., Kunisada, T., Era, T., Sakakura, T. & Nishikawa, S.-I. (1991). In utero manipulation of coat color formation by a monoclonal anti-c-kit antibody: two distinct waves of c-kit dependency during melanocyte development. EMBO Journal 10, 21112118.
  • Ohba, M., Sakamoto, Y. & Tomita, T. (1975). The slow wave in the circular muscle of the guinea-pig stomach. The Journal of Physiology 253, 505516.
  • Ohba, M., Sakamoto, Y. & Tomita, T. (1977). Effects of sodium, potassium and calcium ions on the slow wave in the circular muscle of the guinea-pig stomach. The Journal of Physiology 267, 167180.
  • Sanders, K. M. (1996). A case for interstitial cells of Cajal as pacemakers and mediators of neurotransmission in the gastrointestinal tract. Gastroenterology 111, 492515.
  • Szurszewski, J. H. (1987). Electrical basis for gastrointestinal motility. In Physiology of the Gastrointestinal Tract, ed. Johnson, L. R., pp. 1435. Rave Press, New York .
  • Tokutomi, N., Maeda, H., Tokutomi, Y., Sato, D., Sugita, M., Nishikawa, S., Nishikawa, S., Nakao, J., Imamura, T. & Nishi, K. (1995). Rhythmic Cl current and physiological roles of the intestinal c-kit-positive cells. Pflügers Archiv 431, 169177.
  • Tomita, T. (1981). Electrical activity (spikes and slow waves) in gastrointestinal smooth muscle. In Smooth Muscle: An Assessment of Current Knowledge, ed. Bulbring, E., Brading, A. F., Jones, A. W. & Tomita, T., pp. 127156. University of Texas Press, Austin , TX , USA .
  • Torihashi, S., Ward, S. M., Nishikawa, S.-I., Nishi, K., Kobayashi, S. & Sanders, K. M. (1995). c-kit-dependent development of interstitial cells and electrical activity in the murine gastrointestinal tract. Cell and Tissue Research 280, 97111.
  • Ward, S. M., Burns, A. J., Torihashi, S. & Sanders, K. M. (1994). Mutation of the proto-oncogene c-kit blocks development of interstitial cells and electrical rhythmicity in the murine intestine. The Journal of Physiology 480, 9197.
  • Ward, S. M. & Sanders, K. M. (1992a). Dependence of electrical slow waves of canine colonic smooth muscle on calcium current. The Journal of Physiology 455, 307319.
  • Ward, S. M. & Sanders, K. M. (1992b). Upstroke component of electrical slow waves in canine colonic smooth muscle due to nifedipine-resistant Ca2+ current. The Journal of Physiology 455, 321337.