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Interneurons of the hippocampus
Hippocampus, 1998T. Freund, G. Buzsáki
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Nature Reviews Neuroscience, 2001
Local-circuit, gamma-aminobutyric acid-releasing inhibitory interneurons of the hippocampus and cortex have traditionally been considered as the regulators of principal neuron activity--the yin to the excitatory yang. Recent evidence indicates that, in addition to that role, their network connectivity and the properties of their intrinsic voltage-gated
C J, McBain, A, Fisahn
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Local-circuit, gamma-aminobutyric acid-releasing inhibitory interneurons of the hippocampus and cortex have traditionally been considered as the regulators of principal neuron activity--the yin to the excitatory yang. Recent evidence indicates that, in addition to that role, their network connectivity and the properties of their intrinsic voltage-gated
C J, McBain, A, Fisahn
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Thalamic Inhibitory Interneurone
Nature, 1966SINCE the investigations of Renshaw1 and Eccles et al.2 on the central inhibitory action of antidromic impulses in motoneuronal axons, indirect evidence has accumulated which suggests that a similar mechanism occurs at higher levels of the neuraxis3. Physiological identification of neural units responsible for such effects has proved to be technically ...
L A, Marco, T S, Brown
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Interneuron Diversity series: Interneuron research – challenges and strategies
Trends in Neurosciences, 2003The field of interneuron research has come of age. An influx of new data has shed light on many areas, but has also highlighted major challenges. The articles in this review series will address several of these challenges, including developing a standardized classification scheme, defining how the integrative properties of interneurons shape their ...
David D, Mott, Raymond, Dingledine
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Local commissural interneurons integrate information from intersegmental coordinating interneurons
Journal of Comparative Neurology, 2003AbstractThe information that coordinates movements of swimmerets on different segments of the crayfish abdomen is conducted by interneurons that originate in each abdominal ganglion. These interneurons project axons to neighboring ganglia and beyond. To discover the anatomy of these axons in their target ganglia, we used Neurobiotin and dextran‐Texas ...
Brian, Mulloney, Wendy M, Hall
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