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  • Alger B. E. & Nicoll, R. A. (1982). Pharmacological evidence for two kinds of GABA receptors on rat hippocampal pyramidal cells studied in vitro. Journal of Physiology 328, 125141.
  • Ballanyi K. & Grafe, P. (1985). An intracellular analysis of γ-aminobutyric-acid-associated ion movements in rat sympathetic neurones. Journal of Physiology 365, 4158.
  • Barker J. L. & Ransom, B. R. (1978). Amino acid pharmacology of mammalian central neurones grown in tissue culture. Journal of Physiology 280, 331354.
  • Bormann, J., Hamill, O. P. & Sakmann, B. (1987). Mechanism of anion permeation through channels gated by glycine and γ-aminobutyric acid in mouse cultured spinal neurones. Journal of Physiology 385, 243286.
  • Cerne R. & Spain, W. J. (1997). GABAA mediated afterdepolarization in pyramidal neurons from rat neocortex. Journal of Neurophysiology 77, 10391045.
  • Clayton G. H., Owens, G. C., Wolff, J. S. & Smith, R. L. (1998). Ontogeny of cation Cl cotransporter expression in rat neocortex. Brain Research. Developmental Brain Research 109, 281292.
  • Connors B. W., Malenka, R. C. & Silva, L. R. (1988). Two inhibitory postsynaptic potentials, and GABAA and GABAB receptor-mediated responses in neocortex of rat and cat. Journal of Physiology 406, 443468.
  • Dallwig, R., Deitmer, J. W. & Backus, K. H. (1999). On the mechanism of GABA-induced currents in cultured rat cortical neurons. Pflügers Archiv 437, 289297.
  • Defazio R. A., Keros, S., Quick, M. W. & Hablitz, J. J. (2000). Potassium-coupled chloride cotransport controls intracellular chloride in rat neocortical pyramidal neurons. Journal of Neuroscience 20, 80698076.
  • Ebihara, S., Shirato, K., Harata, N. & Akaike, N. (1995). Gramicidin-perforated patch recording: GABA response in mammalian neurones with intact intracellular chloride. Journal of Physiology 484, 7786.
  • Hara, M., Inoue, M., Yasukura, T., Ohnishi, S., Mikami, Y. & Inagaki, C. (1992). Uneven distribution of intracellular Cl in rat hippocampal neurons. Neuroscience Letters 143, 135138.
  • Jarolimek, W., Lewen, A. & Misgeld, U. (1999). A furosemide-sensitive K+-Cl cotransporter counteracts intracellular Cl accumulation and depletion in cultured rat midbrain neurons. Journal of Neuroscience 19, 46954704.
  • Kaila, K., Voipio, J., Paalasmaa, P., Pasternack, M. & Deisz, R. A. (1993). The role of bicarbonate in GABAA receptor-mediated IPSPs of rat neocortical neurones. Journal of Physiology 464, 273289.
  • Kakazu, Y., Uchida, S., Nakagawa, T., Akaike, N. & Nabekura, J. (2000). Reversibility and cation selectivity of the K+-Cl cotransport in rat central neurons. Journal of Neurophysiology 84, 281288.
  • Kavalali E. T., Zhuo, M., Bito, H. & Tsien, R. W. (1997). Dendritic Ca2+ channels characterized by recordings from isolated hippocampal dendritic segments. Neuron 18, 651663.
  • Kuner T. & Augustine, G. J. (2000). A genetically encoded ratiometric indicator for chloride: capturing chloride transients in cultured hippocampal neurons. Neuron 27, 447459.
  • Morishita W. & Alger, B. E. (2001). Direct depolarization and antidromic action potentials transiently suppress dendritic IPSPs in hippocampal CA1 pyramidal cells. Journal of Neurophysiology 85, 480484.
  • Owens D. F., Boyce, L. H., Davis, M. B. E. & Kriegstein, A. (1996). Excitatory GABA responses in embryonic and neonatal cortical slices demonstrated by gramicidin perforated-patch recordings and calcium imaging. Journal of Neuroscience 16, 64166423.
  • Payne J. A. (1997). Functional characterization of the neuronal-specific K-Cl cotransporter: implications for [K+]o regulation. American Journal of Physiology 273, C15161525.
  • Perkins K. L. (1999). Cl accumulation does not account for the depolarizing phase of the synaptic GABA response in hippocampal pyramidal cells. Journal of Neurophysiology 82, 768777.
  • Pettit D. L. & Augustine, G. J. (2000). Distribution of functional glutamate and GABA receptors on hippocampal pyramidal cells and interneurons. Journal of Neurophysiology 84, 2838.
  • Scharfman H. E. & Sarvey, J. M. (1987). Responses to GABA recorded from identified rat visual cortical neurons. Neuroscience 23, 407422.
  • Staley K. J. & Proctor, W. R. (1999). Modulation of mammalian dendritic GABAA receptor function by the kinetics of Cl and HCO3 transport. Journal of Physiology 519, 693712.
  • Staley K. J., Soldo, B. L. & Proctor, W. R. (1995). Ionic mechanisms of neuronal excitation by inhibitory GABAA receptors. Science 269, 977981.
  • Takigawa T. & Alzheimer, C. (1999). G protein-activated inwardly rectifying K+ (GIRK) currents in dendrites of rat neocortical pyramidal cells. Journal of Physiology 517, 385390.
  • Thompson S. M., Deisz, R. A. & Prince, D. A. (1988). Relative contributions of passive equilibrium and active transport to the distribution of chloride in mammalian cortical neurons. Journal of Neurophysiology 60, 105124.
  • Thompson S. M. & Gahwiler, B. H. (1989a). Activity-dependent disinhibition. I. Repetitive stimulation reduces IPSP driving force and conductance in the hippocampus in vitro. Journal of Neurophysiology 61, 501511.
  • Thompson S. M. & Gahwiler, B. H. (1989b). Activity-dependent disinhibition. II. Effects of extracellular potassium, furosemide, and membrane potential on ECl- in hippocampal CA3 neurons. Journal of Neurophysiology 61, 512523.
  • Van brederode J. F. M. & Spain, W. J. (1995). Differences in inhibitory synaptic input between layer II-III and layer V neurons of the cat neocortex. Journal of Neurophysiology 74, 11491166.