CHAPTER 21 – Hippocampal Formation

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[11]  C. Köhler,et al.  The substance P innervation of the rat hippocampal region , 2004, Anatomy and Embryology.

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[13]  V. Chan‐Palay,et al.  Somatostatin and vasoactive intestinal polypeptide-like immunoreactive cells and terminals in the retrohippocampal region of the rat brain , 2004, Anatomy and Embryology.

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[16]  M. Witter,et al.  Projections from the presubiculum and the parasubiculum to morphologically characterized entorhinal-hippocampal projection neurons in the rat , 2004, Experimental Brain Research.

[17]  K. Lingenhöhl,et al.  Morphological characterization of rat entorhinal neurons in vivo: soma-dendritic structure and axonal domains , 2004, Experimental Brain Research.

[18]  C. Léránth,et al.  Calcium-binding proteins are concentrated in the CA2 field of the monkey hippocampus: a possible key to this region's resistance to epileptic damage , 2004, Experimental Brain Research.

[19]  E. Neafsey,et al.  Hippocampal input to a “visceral motor” corticobulbar pathway: an anatomical and electrophysiological study in the rat , 2004, Experimental Brain Research.

[20]  T. Kosaka,et al.  Tyrosine hydroxylase-immunoreactive intrinsic neurons in the rat cerebral cortex , 2004, Experimental Brain Research.

[21]  D. Amaral,et al.  Evidence for a ventral septal projection to the hippocampal formation of the rat , 2004, Experimental Brain Research.

[22]  C. Ribak,et al.  GABAergic cells in the dentate gyrus appear to be local circuit and projection neurons , 2004, Experimental Brain Research.

[23]  S. Bayer,et al.  Changes in the total number of dentate granule cells in juvenile and adult rats: A correlated volumetric and 3H-thymidine autoradiographic study , 2004, Experimental Brain Research.

[24]  F. H. Lopes da Silva,et al.  Electrophysiological characterization of interlaminar entorhinal connections: an essential link for re‐entrance in the hippocampal–entorhinal system , 2003, The European journal of neuroscience.

[25]  M. Witter,et al.  Amygdala input promotes spread of excitatory neural activity from perirhinal cortex to the entorhinal-hippocampal circuit. , 2003, Journal of neurophysiology.

[26]  G. Stuart,et al.  Excitatory Actions of GABA in the Cortex , 2003, Neuron.

[27]  M. Witter,et al.  Topographical and laminar organization of subicular projections to the parahippocampal region of the rat , 2003, The Journal of comparative neurology.

[28]  M. Witter,et al.  Morphological and numerical analysis of synaptic interactions between neurons in deep and superficial layers of the entorhinal cortex of the rat , 2003, Hippocampus.

[29]  H. Bokor,et al.  Cellular architecture of the nucleus reuniens thalami and its putative aspartatergic/glutamatergic projection to the hippocampus and medial septum in the rat , 2002, The European journal of neuroscience.

[30]  S. Totterdell,et al.  Nitric oxide-containing pyramidal neurons of the subiculum innervate the CA1 area , 2002, Experimental Brain Research.

[31]  M. Witter,et al.  The intralaminar and midline nuclei of the thalamus. Anatomical and functional evidence for participation in processes of arousal and awareness , 2002, Brain Research Reviews.

[32]  Paul Leonard Gabbott,et al.  Morphological evidence that CA1 hippocampal afferents monosynaptically innervate PV-containing neurons and NADPH-diaphorase reactive cells in the medial prefrontal cortex (Areas 25/32) of the rat , 2002, Brain Research.

[33]  M. Moser,et al.  Reduced fear expression after lesions of the ventral hippocampus , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[34]  Shane M. O’Mara,et al.  Physiological evidence for a possible projection from dorsal subiculum to hippocampal area CA1 , 2002, Experimental Brain Research.

[35]  Yasuhisa Nakamura,et al.  Fos expression in afferents to the rat midline thalamus following immobilization stress , 2002, Neuroscience Research.

[36]  Menno P. Witter,et al.  Place Cells and Place Recognition Maintained by Direct Entorhinal-Hippocampal Circuitry , 2002, Science.

[37]  A. Loewy,et al.  CNS inputs to the suprachiasmatic nucleus of the rat , 2002, Neuroscience.

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[40]  T. H. Brown,et al.  Three classes of pyramidal neurons in layer V of rat perirhinal cortex , 2002, Hippocampus.

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[42]  L W Swanson,et al.  Connections of the nucleus incertus , 2001, The Journal of comparative neurology.

[43]  R. Burwell Borders and cytoarchitecture of the perirhinal and postrhinal cortices in the rat , 2001, The Journal of comparative neurology.

[44]  T. H. Brown,et al.  Predominance of Late-Spiking Neurons in Layer VI of Rat Perirhinal Cortex , 2001, The Journal of Neuroscience.

[45]  M. Witter,et al.  Intrinsic connectivity of the rat subiculum: I. Dendritic morphology and patterns of axonal arborization by pyramidal neurons , 2001, The Journal of comparative neurology.

[46]  N. Ishizuka,et al.  Laminar organization of the pyramidal cell layer of the subiculum in the rat , 2001, The Journal of comparative neurology.

[47]  S. O’Mara,et al.  The subiculum: a review of form, physiology and function , 2001, Progress in Neurobiology.

[48]  E. Jolkkonen,et al.  Projections from the amygdalo‐piriform transition area to the amygdaloid complex: A PHA‐l study in rat , 2001, The Journal of comparative neurology.

[49]  R. Vertes,et al.  Collateral projections from the median raphe nucleus to the medial septum and hippocampus , 2001, Brain Research Bulletin.

[50]  Mark Stewart,et al.  Propagation of synchronous epileptiform events from subiculum backward into area CA1 of rat brain slices , 2001, Brain Research.

[51]  G. Buzsáki,et al.  The apical shaft of CA1 pyramidal cells is under GABAergic interneuronal control , 2001, Neuroscience.

[52]  R. S. Sloviter,et al.  Substance P receptor expression by inhibitory interneurons of the rat hippocampus: Enhanced detection using improved immunocytochemical methods for the preservation and colocalization of GABA and other neuronal markers , 2001, The Journal of comparative neurology.

[53]  T. Dugladze,et al.  Properties of entorhinal cortex deep layer neurons projecting to the rat dentate gyrus , 2001, The European journal of neuroscience.

[54]  F. H. Lopes da Silva,et al.  Reciprocal connections between the entorhinal cortex and hippocampal fields CA1 and the subiculum are in register with the projections from CA1 to the subiculum , 2001, Hippocampus.

[55]  F. H. Lopes da Silva,et al.  Evidence for a direct projection from the postrhinal cortex to the subiculum in the rat , 2001, Hippocampus.

[56]  P. Buckmaster,et al.  Somatostatin‐immunoreactive interneurons contribute to lateral inhibitory circuits in the dentate gyrus of control and epileptic rats , 2001, Hippocampus.

[57]  R. Vertes,et al.  Collateral projections from the supramammillary nucleus to the medial septum and hippocampus , 2000, Synapse.

[58]  Morten Raastad,et al.  The hippocampal lamella hypothesis revisited 1 1 Published on the World Wide Web on 12 October 2000. , 2000, Brain Research.

[59]  D. Finch,et al.  Responses of rat subicular neurons to convergent stimulation of lateral entorhinal cortex and CA1 in vivo , 2000, Brain Research.

[60]  N Spruston,et al.  Resting and active properties of pyramidal neurons in subiculum and CA1 of rat hippocampus. , 2000, Journal of neurophysiology.

[61]  M. Witter,et al.  Calretinin in the entorhinal cortex of the rat: Distribution, morphology, ultrastructure of neurons, and co‐localization with γ‐aminobutyric acid and parvalbumin , 2000, The Journal of comparative neurology.

[62]  M. Witter,et al.  Differential distribution of barrel or visual cortex Evoked responses along the rostro-caudal axis of the peri- and postrhinal cortices , 2000, Brain Research.

[63]  R. Linke,et al.  Convergent and complementary projections of the caudal paralaminar thalamic nuclei to rat temporal and insular cortex. , 2000, Cerebral cortex.

[64]  F. H. Lopes da Silva,et al.  Networks of the Hippocampal Memory System of the Rat: The Pivotal Role of the Subiculum a , 2000, Annals of the New York Academy of Sciences.

[65]  M. Witter,et al.  Anatomical Organization of the Parahippocampal‐Hippocampal Network , 2000, Annals of the New York Academy of Sciences.

[66]  M. Witter,et al.  Presubicular Input to the Dendrites of Layer‐V Entorhinal Neurons in the Rat , 2000, Annals of the New York Academy of Sciences.

[67]  H. Scharfman,et al.  The parahippocampal region. Implications for neurological and psychiatric diseases. Introduction. , 2000, Annals of the New York Academy of Sciences.

[68]  A. Ylinen,et al.  Reciprocal Connections between the Amygdala and the Hippocampal Formation, Perirhinal Cortex, and Postrhinal Cortex in Rat: A Review , 2000, Annals of the New York Academy of Sciences.

[69]  S A Deadwyler,et al.  Differential Information Processing by Hippocampal and Subicular Neurons , 2000, Annals of the New York Academy of Sciences.

[70]  R. Burwell The Parahippocampal Region: Corticocortical Connectivity , 2000, Annals of the New York Academy of Sciences.

[71]  A. Lörincz,et al.  Two‐Phase Computational Model Training Long‐Term Memories in the Entorhinal‐Hippocampal Region , 2000, Annals of the New York Academy of Sciences.

[72]  John M. Beggs,et al.  Prolonged synaptic integration in perirhinal cortical neurons. , 2000, Journal of neurophysiology.

[73]  H. Bokor,et al.  The supramammillo-hippocampal and supramammillo-septal glutamatergic/aspartatergic projections in the rat: a combined [3H]d-aspartate autoradiographic and immunohistochemical study , 2000, Neuroscience.

[74]  T. Kishi,et al.  Topographical organization of projections from the subiculum to the hypothalamus in the rat , 2000, The Journal of comparative neurology.

[75]  M. Witter,et al.  Nucleus reuniens thalami innervates γ aminobutyric acid positive cells in hippocampal field CA1 of the rat , 2000, Neuroscience Letters.

[76]  H. Markram,et al.  Organizing principles for a diversity of GABAergic interneurons and synapses in the neocortex. , 2000, Science.

[77]  F. H. Lopes da Silva,et al.  Cortico‐hippocampal communication by way of parallel parahippocampal‐subicular pathways , 2000, Hippocampus.

[78]  F. Wouterlood,et al.  Sparse colocalization of somatostatin‐ and GABA‐immunoreactivity in the entorhinal cortex of the rat , 2000, Hippocampus.

[79]  Robert E. Hampson,et al.  Distribution of spatial and nonspatial information in dorsal hippocampus , 1999, Nature.

[80]  M. Witter,et al.  Perirhinal cortex input to the hippocampus in the rat: evidence for parallel pathways, both direct and indirect. A combined physiological and anatomical study , 1999, The European journal of neuroscience.

[81]  E. Gould,et al.  Rapid extension of axons into the CA3 region by adult‐generated granule cells , 1999, The Journal of comparative neurology.

[82]  R. Linke Organization of projections to temporal cortex originating in the thalamic posterior intralaminar nucleus of the rat , 1999, Experimental Brain Research.

[83]  J. Michael Wyss,et al.  Efferent connections of the anteromedial nucleus of the thalamus of the rat , 1999, Brain Research Reviews.

[84]  L. Haberly,et al.  Intrinsic and efferent connections of the endopiriform nucleus in rat , 1999, The Journal of comparative neurology.

[85]  M. Stewart Columnar activity supports propagation of population bursts in slices of rat entorhinal cortex , 1999, Brain Research.

[86]  R. Vertes,et al.  Projections of the median raphe nucleus in the rat , 1999, The Journal of comparative neurology.

[87]  F. Gage,et al.  Adult‐generated neurons in the dentate gyrus send axonal projections to field CA3 and are surrounded by synaptic vesicles , 1999, The Journal of comparative neurology.

[88]  M. Cassell,et al.  Perirhinal cortex projections to the amygdaloid complex and hippocampal formation in the rat , 1999, The Journal of comparative neurology.

[89]  L. Acsády,et al.  Medial septal and median raphe innervation of vasoactive intestinal polypeptide-containing interneurons in the hippocampus , 1999, Neuroscience.

[90]  A. Pitkänen,et al.  Projections from the lateral, basal, and accessory basal nuclei of the amygdala to the hippocampal formation in rat , 1999, The Journal of comparative neurology.

[91]  M. Cassell,et al.  Cascade projections from somatosensory cortex to the rat basolateral amygdala via the parietal insular cortex , 1998, The Journal of comparative neurology.

[92]  M. Cassell,et al.  Cortical, thalamic, and amygdaloid connections of the anterior and posterior insular cortices , 1998, The Journal of comparative neurology.

[93]  D. Amaral,et al.  Cortical afferents of the perirhinal, postrhinal, and entorhinal cortices of the rat , 1998 .

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[95]  D. Amaral,et al.  Entorhinal cortex of the rat: Organization of intrinsic connections , 1998, The Journal of comparative neurology.

[96]  J. Taube Head direction cells and the neurophysiological basis for a sense of direction , 1998, Progress in Neurobiology.

[97]  S Totterdell,et al.  Light and electron microscopic study of neuronal nitric oxide synthase‐immunoreactive neurons in the rat subiculum , 1998, The Journal of comparative neurology.

[98]  R. Miles,et al.  How Many Subtypes of Inhibitory Cells in the Hippocampus? , 1998, Neuron.

[99]  M. Witter,et al.  Subicular efferents are organized mostly as parallel projections: A double‐labeling, retrograde‐tracing study in the rat , 1998, The Journal of comparative neurology.

[100]  F. D. da Silva,et al.  Comparison of the electrophysiology and morphology of layers III and II neurons of the rat medial entorhinal cortex in vitro , 1998, The European journal of neuroscience.

[101]  T. Gloveli,et al.  The perforant path projection from the medial entorhinal cortex layer III to the subiculum in the rat combined hippocampal–entorhinal cortex slice , 1998, The European journal of neuroscience.

[102]  D. Amaral,et al.  Perirhinal and postrhinal cortices of the rat: Interconnectivity and connections with the entorhinal cortex , 1998, The Journal of comparative neurology.

[103]  T. Deller The anatomical organization of the rat fascia dentata: new aspects of laminar organization as revealed by anterograde tracing with Phaseolus vulgaris-Leucoagglutinin (PHAL) , 1998, Anatomy and Embryology.

[104]  M. Moser,et al.  Functional differentiation in the hippocampus , 1998, Hippocampus.

[105]  M. Witter,et al.  Entorhinal cortex of the rat: Cytoarchitectonic subdivisions and the origin and distribution of cortical efferents , 1998, Hippocampus.

[106]  M. Wayner,et al.  Lateral Hypothalamic Stimulation Inhibits Dentate Granule Cell LTP: Direct Connections , 1997, Brain Research Bulletin.

[107]  Z. Borhegyi,et al.  The supramammillary nucleus innervates cholinergic and GABAergic neurons in the medial septum-diagonal band of Broca complex , 1997, Neuroscience.

[108]  M. Stewart Antidromic and orthodromic responses by subicular neurons in rat brain slices , 1997, Brain Research.

[109]  Nobuaki Tamamaki,et al.  Organization of the entorhinal projection to the rat dentate gyrus revealed by Dil anterograde labeling , 1997, Experimental Brain Research.

[110]  L. Swanson,et al.  Connections of the rat lateral septal complex 1 Published on the World Wide Web on 2 June 1997. 1 , 1997, Brain Research Reviews.

[111]  M. Witter,et al.  Parallel input to the hippocampal memory system through peri‐ and postrhinal cortices , 1997, Neuroreport.

[112]  F. H. Lopes da Silva,et al.  Nucleus Reuniens Thalami Modulates Activity in Hippocampal Field CA1 through Excitatory and Inhibitory Mechanisms , 1997, The Journal of Neuroscience.

[113]  A. Mason,et al.  Differential expression of NADPH-diaphorase between electrophysiologically-defined classes of pyramidal neurons in rat ventral subiculum, in vitro , 1997, Neuroscience.

[114]  Z. Borhegyi,et al.  Distinct substance P- and calretinin-containing projections from the supramammillary area to the hippocampus in rats; a species difference between rats and monkeys , 1997, Experimental Brain Research.

[115]  M. Stewart,et al.  Presubicular and Parasubicular Cortical Neurons of the Rat: Functional Separation of Deep and Superficial Neurons in Vitro , 1997, The Journal of physiology.

[116]  M. Jouvet,et al.  Afferent projections to the rat nuclei raphe magnus, raphe pallidus and reticularis gigantocellularis pars α demonstrated by iontophoretic application of choleratoxin (subunit b) , 1997, Journal of Chemical Neuroanatomy.

[117]  J. Lübke,et al.  Septal innervation of mossy cells in the hilus of the rat dentate gyrus: an anterograde tracing and intracellular labeling study , 1997, Experimental Brain Research.

[118]  S. Totterdell,et al.  Morphology and distribution of electrophysiologically defined classes of pyramidal and nonpyramidal neurons in rat ventral subiculum in vitro , 1997, The Journal of comparative neurology.

[119]  G Buzsáki,et al.  Interneurons in the Hippocampal Dentate Gyrus: an In Vivo intracellular Study , 1997, The European journal of neuroscience.

[120]  F. Mascagni,et al.  Projections of the lateral entorhinal cortex to the amygdala: a Phaseolus vulgaris leucoagglutinin study in the rat , 1997, Neuroscience.

[121]  A. Pitkänen,et al.  Distribution of calretinin‐immunoreactivity in the rat entorhinal cortex: Coexistence with GABA , 1997, The Journal of comparative neurology.

[122]  Floris G. Wouterlood,et al.  GABAergic Presubicular Projections to the Medial Entorhinal Cortex of the Rat , 1997, The Journal of Neuroscience.

[123]  A. Alonso,et al.  Morphological characteristics of layer II projection neurons in the rat medial entorhinal cortex , 1997, Hippocampus.

[124]  M. Stewart,et al.  Presubicular and parasubicular cortical neurons of the rat: Electrophysiological and morphological properties , 1997, Hippocampus.

[125]  R. J. Meijer,et al.  Collateral projections from the rat hippocampal formation to the lateral and medial prefrontal cortex , 1997, Hippocampus.

[126]  G. Buzsáki,et al.  Entorhinal cortical innervation of parvalbumin‐containing neurons (basket and chandelier cells) in the rat ammon's horn , 1998, Hippocampus.

[127]  M. Molinari,et al.  Branched connections to the septum and to the entorhinal cortex from the hippocampus, amygdala, and diencephalon in the rat , 1996, Brain Research Bulletin.

[128]  J. Lübke,et al.  Regional variability and postsynaptic targets of chandelier cells in the hippocampal formation of the rat , 1996, The Journal of comparative neurology.

[129]  L. Swanson,et al.  Organization of projections from the basomedial nucleus of the amygdala: A PHAL study in the rat , 1996, The Journal of comparative neurology.

[130]  M. Frotscher,et al.  Heterogeneity of the commissural projection to the rat dentate gyrus: a Phaseolus vulgaris leucoagglutinin tracing study , 1996, Neuroscience.

[131]  A. Mason,et al.  Neuronal diversity in the subiculum: correlations with the effects of somatostatin on intrinsic properties and on GABA-mediated IPSPs in vitro. , 1996, Journal of Neurophysiology.

[132]  W. Staines,et al.  Efferent projections of the anterior perirhinal cortex in the rat , 1996, The Journal of comparative neurology.

[133]  M. Frotscher,et al.  The alvear pathway of the rat hippocampus , 1996, Cell and Tissue Research.

[134]  T. Freund,et al.  Differences between Somatic and Dendritic Inhibition in the Hippocampus , 1996, Neuron.

[135]  M P Witter,et al.  Projections from the nucleus reuniens thalami to the entorhinal cortex, hippocampal field CA1, and the subiculum in the rat arise from different populations of neurons , 1996, The Journal of comparative neurology.

[136]  C. Léránth,et al.  GABAergic neurons in the rat dentate gyrus are innervated by subcortical calretinin‐containing afferents , 1996, The Journal of comparative neurology.

[137]  R. Miettinen,et al.  Coexistence of parvalbumin and GABA in nonpyramidal neurons of the rat entorhinal cortex , 1996, Brain Research.

[138]  P. Somogyi,et al.  Synaptic target selectivity and input of GABAergic basket and bistratified interneurons in the CA1 area of the rat hippocampus , 1996, Hippocampus.

[139]  T. Freund,et al.  Pyramidal cell dendrites are the primary targets of calbindin D28k‐immunoreactive interneurons in the hippocampus , 1996, Hippocampus.

[140]  D. Amaral,et al.  A quantitative analysis of the dendritic organization of pyramidal cells in the rat hippocampus , 1995, The Journal of comparative neurology.

[141]  T. Freund,et al.  Synaptic Input of Horizontal Interneurons in Stratum Oriens of the Hippocampal CA1 Subfield: Structural Basis of Feed‐back Activation , 1995, The European journal of neuroscience.

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[143]  R. Moore,et al.  Efferent projections of the paraventricular thalamic nucleus in the rat , 1995, The Journal of comparative neurology.

[144]  R. Vertes,et al.  Ascending projections of the posterior nucleus of the hypothalamus: PHA‐L analysis in the rat , 1995, The Journal of comparative neurology.

[145]  T. van Groen,et al.  Projections from the anterodorsal and anteroveniral nucleus of the thalamus to the limbic cortex in the rat , 1995, The Journal of comparative neurology.

[146]  P. Schwartzkroin,et al.  Physiological and Morphological Heterogeneity of Dentate Gyrus—Hilus Interneurons in the Gerbil Hippocampus In Vivo , 1995, The European journal of neuroscience.

[147]  N. Tamamaki,et al.  Preservation of topography in the connections between the subiculum, field CA1, and the entorhinal cortex in rats , 1995, The Journal of comparative neurology.

[148]  E. Audinat,et al.  Afferent connections of the medial frontal cortex of the rat. II. Cortical and subcortical afferents , 1995, The Journal of comparative neurology.

[149]  M. Witter,et al.  Parvalbumin-immunoreactive neurons in the entorhinal cortex of the rat: localization, morphology, connectivity and ultrastructure , 1995, Journal of neurocytology.

[150]  Kazunori Yoshida,et al.  Topographical projections from the medial septum-diagonal band complex to the hippocampus: a retrograde tracing study with multiple fluorescent dyes in rats , 1995, Neuroscience Research.

[151]  M. Frotscher,et al.  Phaseolus vulgaris –leucoagglutinin tracing of commissural fibers to the rat dentate gyrus: Evidence for a previously unknown commissural projection to the outer molecular layer , 1995, The Journal of comparative neurology.

[152]  M. Witter,et al.  Quantitative morphological analysis of subicular terminals in the rat entorhinal cortex , 1995, Hippocampus.

[153]  D. Amaral,et al.  Perirhinal and postrhinal cortices of the rat: A review of the neuroanatomical literature and comparison with findings from the monkey brain , 1995, Hippocampus.

[154]  Mark G. Packard,et al.  Anterograde and retrograde tracing of projections from the ventral tegmental area to the hippocampal formation in the rat , 1994, Brain Research Bulletin.

[155]  C. Verney,et al.  Mesolimbic dopaminergic neurons innervating the hippocampal formation in the rat: a combined retrograde tracing and immunohistochemical study , 1994, Brain Research.

[156]  M. Frotscher,et al.  Associational and commissural afferents of parvalbumin‐immunoreactive neurons in the rat hippocampus: A combined immunocytochemical and PHA‐L study , 1994, The Journal of comparative neurology.

[157]  W. Levy,et al.  Ultrastructural identification of entorhinal cortical synapses in CA1 stratum lacunosum‐moleculare of the rat , 1994, Hippocampus.

[158]  C. Bernard,et al.  Model of local connectivity patterns in CA3 and CA1 areas of the hippocampus , 1994, Hippocampus.

[159]  Hideshi Shibata,et al.  Terminal distribution of projections from the retrosplenial area to the retrohippocampal region in the rat, as studied by anterograde transport of biotinylated dextran amine , 1994, Neuroscience Research.

[160]  G. Buzsáki,et al.  Inhibitory CA1-CA3-hilar region feedback in the hippocampus. , 1994, Science.

[161]  L. Acsády,et al.  Principal cells are the postsynaptic targets of supramammillary afferents in the hippocampus of the rat , 1994, Hippocampus.

[162]  M. Frotscher,et al.  Mossy cells of the rat fascia dentata are glutamate‐immunoreactive , 1994, Hippocampus.

[163]  M. P. Witter,et al.  Multiple anterograde tracing, combining Phaseolus vulgaris leucoagglutinin with rhodamine- and biotin-conjugated dextran amine , 1994, Journal of Neuroscience Methods.

[164]  P. Somogyi,et al.  The hippocampal CA3 network: An in vivo intracellular labeling study , 1994, The Journal of comparative neurology.

[165]  T. Freund,et al.  Precision and Variability in Postsynaptic Target Selection of Inhibitory Cells in the Hippocampal CA3 Region , 1993, The European journal of neuroscience.

[166]  H. Shibata Direct projections from the anterior thalamic nuclei to the retrohippocampal region in the rat , 1993, The Journal of comparative neurology.

[167]  Joseph E LeDoux,et al.  Organization of rodent auditory cortex: anterograde transport of PHA-L from MGv to temporal neocortex. , 1993, Cerebral cortex.

[168]  M. Frotscher,et al.  Chandelier cells in the hippocampal formation of the rat: The entorhinal area and subicular complex , 1993, The Journal of comparative neurology.

[169]  N. Tamamaki,et al.  Projection of the entorhinal layer II neurons in the rat as revealed by intracellular pressure‐injection of neurobiotin , 1993, Hippocampus.

[170]  K M Harris,et al.  Occurrence and three-dimensional structure of multiple synapses between individual radiatum axons and their target pyramidal cells in hippocampal area CA1 , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[171]  R. Weinberg,et al.  Neurons in rat hippocampus that synthesize nitric oxide , 1993, The Journal of comparative neurology.

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