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Davidson, Brad; Swalla, Billie J (2002) A molecular analysis of ascidian metamorphosis reveals activation of an innate immune response. Development 129:4739-51
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Dallman, J E; Dorman, J B; Moody, W J (2000) Action potential waveform voltage clamp shows significance of different Ca2+ channel types in developing ascidian muscle. J Physiol 524 Pt 2:375-86
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Moody, W J (1998) The development of voltage-gated ion channels and its relation to activity-dependent development events. Curr Top Dev Biol 39:159-85
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Dallman, J E; Davis, A K; Moody, W J (1998) Spontaneous activity regulates calcium-dependent K+ current expression in developing ascidian muscle. J Physiol 511 ( Pt 3):683-93
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Greaves, A A; Davis, A K; Dallman, J E et al. (1996) Co-ordinated modulation of Ca2+ and K+ currents during ascidian muscle development. J Physiol 497 ( Pt 1):39-52
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Davis, A K; Greaves, A A; Dallman, J E et al. (1995) Comparison of ionic currents expressed in immature and mature muscle cells of an ascidian larva. J Neurosci 15:4875-84
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Villaz, M; Cinniger, J C; Moody, W J (1995) A voltage-gated chloride channel in ascidian embryos modulated by both the cell cycle clock and cell volume. J Physiol 488 ( Pt 3):689-99
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Linsdell, P; Moody, W J (1995) Electrical activity and calcium influx regulate ion channel development in embryonic Xenopus skeletal muscle. J Neurosci 15:4507-14
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Linsdell, P; Moody, W J (1994) Na+ channel mis-expression accelerates K+ channel development in embryonic Xenopus laevis skeletal muscle. J Physiol 480 ( Pt 3):405-10
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