Selective presence of a giant saccular organelle in the axon initial segment of a subpopulation of layer V pyramidal neurons

[1]  Hongkui Zeng,et al.  Correlated gene expression and target specificity demonstrate excitatory projection neuron diversity. , 2015, Cerebral cortex.

[2]  M. Evans,et al.  Calcineurin Signaling Mediates Activity-Dependent Relocation of the Axon Initial Segment , 2013, The Journal of Neuroscience.

[3]  F. Guillemot,et al.  The CB1 Cannabinoid Receptor Drives Corticospinal Motor Neuron Differentiation through the Ctip2/Satb2 Transcriptional Regulation Axis , 2012, The Journal of Neuroscience.

[4]  H. Kuba Structural tuning and plasticity of the axon initial segment in auditory neurons , 2012, The Journal of physiology.

[5]  J. DeFelipe,et al.  Colocalization of α-actinin and synaptopodin in the pyramidal cell axon initial segment. , 2012, Cerebral cortex.

[6]  Greg J. Stuart,et al.  Signal Processing in the Axon Initial Segment , 2012, Neuron.

[7]  Laurence O Trussell,et al.  Control of firing patterns through modulation of axon initial segment T‐type calcium channels , 2012, The Journal of physiology.

[8]  Yousheng Shu,et al.  Short- and Long-Term Plasticity at the Axon Initial Segment , 2011, The Journal of Neuroscience.

[9]  J. DeFelipe,et al.  In vitro maturation of the cisternal organelle in the hippocampal neuron's axon initial segment , 2011, Molecular and Cellular Neuroscience.

[10]  Amy S. Lee,et al.  The critical role of GRP78 in physiologic and pathologic stress. , 2011, Current opinion in cell biology.

[11]  Javier DeFelipe,et al.  A Stereological Study of Synapse Number in the Epileptic Human Hippocampus , 2011, Front. Neuroanat..

[12]  Yuguo Yu,et al.  P/Q and N Channels Control Baseline and Spike-Triggered Calcium Levels in Neocortical Axons and Synaptic Boutons , 2010, The Journal of Neuroscience.

[13]  Matthew N. Rasband,et al.  The axon initial segment and the maintenance of neuronal polarity , 2010, Nature Reviews Neuroscience.

[14]  Francisco Clascá,et al.  Mapping of fluorescent protein-expressing neurons and axon pathways in adult and developing Thy1-eYFP-H transgenic mice , 2010, Brain Research.

[15]  C. Blackstone,et al.  Further assembly required: construction and dynamics of the endoplasmic reticulum network , 2010, EMBO reports.

[16]  M. Grubb,et al.  Activity-dependent relocation of the axon initial segment fine-tunes neuronal excitability , 2010, Nature.

[17]  Harunori Ohmori,et al.  Presynaptic activity regulates Na+ channel distribution at the axon initial segment , 2010, Nature.

[18]  Fudong Liu,et al.  Disruption of the Axon Initial Segment Cytoskeleton Is a New Mechanism for Neuronal Injury , 2009, The Journal of Neuroscience.

[19]  L. Trussell,et al.  Axon Initial Segment Ca2+ Channels Influence Action Potential Generation and Timing , 2009, Neuron.

[20]  Andreas Vlachos,et al.  A role for the spine apparatus in LTP and spatial learning , 2008, Behavioural Brain Research.

[21]  D. McCormick,et al.  Cortical Action Potential Backpropagation Explains Spike Threshold Variability and Rapid-Onset Kinetics , 2008, The Journal of Neuroscience.

[22]  Y. Nakatani,et al.  Protein 600 Is a Microtubule/Endoplasmic Reticulum-Associated Protein in CNS Neurons , 2008, The Journal of Neuroscience.

[23]  S. Nelson,et al.  Layer V neurons in mouse cortex projecting to different targets have distinct physiological properties. , 2007, Journal of neurophysiology.

[24]  Thomas Deller,et al.  Loss of the cisternal organelle in the axon initial segment of cortical neurons in synaptopodin‐deficient mice , 2007, The Journal of comparative neurology.

[25]  J. DeFelipe,et al.  The distribution of chandelier cell axon terminals that express the GABA plasma membrane transporter GAT-1 in the human neocortex. , 2007, Cerebral cortex.

[26]  P. Arlotta,et al.  Neuronal subtype specification in the cerebral cortex , 2007, Nature Reviews Neuroscience.

[27]  Z. Molnár,et al.  Towards the classification of subpopulations of layer V pyramidal projection neurons , 2006, Neuroscience Research.

[28]  J. DeFelipe,et al.  Correlation of transcriptome profile with electrical activity in temporal lobe epilepsy , 2006, Neurobiology of Disease.

[29]  Paola Arlotta,et al.  Neuronal Subtype-Specific Genes that Control Corticospinal Motor Neuron Development In Vivo , 2005, Neuron.

[30]  B. Gähwiler,et al.  Selective neurofilament (SMI-32, FNP-7 and N200) expression in subpopulations of layer V pyramidal neurons in vivo and in vitro. , 2004, Cerebral cortex.

[31]  K. Mikoshiba,et al.  Kinesin dependent, rapid, bi-directional transport of ER sub-compartment in dendrites of hippocampal neurons , 2004, Journal of Cell Science.

[32]  Rafael Yuste,et al.  Quantitative morphologic classification of layer 5 neurons from mouse primary visual cortex , 2003, The Journal of comparative neurology.

[33]  M. C. Angulo,et al.  Distinct local circuits between neocortical pyramidal cells and fast-spiking interneurons in young adult rats. , 2003, Journal of neurophysiology.

[34]  M. Blaustein,et al.  Structural complexity and functional diversity of endoplasmic reticulum Ca2+ stores , 2001, Trends in Neurosciences.

[35]  J. Meldolesi,et al.  Head-to-tail oligomerization of calsequestrin , 2001, The Journal of cell biology.

[36]  M. Berridge,et al.  Calcium signalling--an overview. , 2001, Seminars in cell & developmental biology.

[37]  G. Feng,et al.  Imaging Neuronal Subsets in Transgenic Mice Expressing Multiple Spectral Variants of GFP , 2000, Neuron.

[38]  H. Markram,et al.  Physiology and anatomy of synaptic connections between thick tufted pyramidal neurones in the developing rat neocortex. , 1997, The Journal of physiology.

[39]  D. Kernell,et al.  Calreticulin expression in spinal motoneurons of the rat , 1996, Journal of Chemical Neuroanatomy.

[40]  G. Warren,et al.  Characterization of a cis-Golgi matrix protein, GM130 , 1995, The Journal of cell biology.

[41]  D. O'Leary,et al.  Connectional distinction between callosal and subcortically projecting cortical neurons is determined prior to axon extension. , 1993, Developmental biology.

[42]  A. Larkman,et al.  Correlations between morphology and electrophysiology of pyramidal neurons in slices of rat visual cortex. I. Establishment of cell classes , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[43]  A. Larkman,et al.  Correlations between morphology and electrophysiology of pyramidal neurons in slices of rat visual cortex. II. Electrophysiology , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[44]  B. Schofield,et al.  Dendritic morphology and axon collaterals of corticotectal, corticopontine, and callosal neurons in layer V of primary visual cortex of the hooded rat , 1988, The Journal of comparative neurology.

[45]  D. O'Leary,et al.  A transient pyramidal tract projection from the visual cortex in the hamster and its removal by selective collateral elimination. , 1986, Brain research.

[46]  R. Mooney,et al.  The structural and functional characteristics of striate cortical neurons that innervate the superior colliculus and lateral posterior nucleus in hamster , 1986, Neuroscience.

[47]  D. O'Leary,et al.  Occipital cortical neurons with transient pyramidal tract axons extend and maintain collaterals to subcortical but not intracortical targets , 1985, Brain Research.

[48]  P. Somogyi,et al.  A new type of specific interneuron in the monkey hippocampus forming synapses exclusively with the axon initial segments of pyramidal cells , 1983, Brain Research.

[49]  T. Kosaka The axon initial segment as a synaptic site: Ultrastructure and synaptology of the initial segment of the pyramidal cell in the rat hippocampus (CA3 region) , 1980, Journal of neurocytology.

[50]  T. Powell,et al.  A study of the axon initial segment and proximal axon of neurons in the primate motor and somatic sensory cortices. , 1979, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[51]  T. Powell,et al.  Synapses on the axon hillocks and initial segments of pyramidal cell axons in the cerebral cortex. , 1969, Journal of cell science.

[52]  Alan Peters,et al.  THE SMALL PYRAMIDAL NEURON OF THE RAT CEREBRAL CORTEX , 1968, Zeitschrift für Zellforschung und Mikroskopische Anatomie.

[53]  Alan Peters,et al.  THE SMALL PYRAMIDAL NEURON OF THE RAT CEREBRAL CORTEX The Axon Hillock and Initial Segment , 1968 .

[54]  Sanford L. Palay,et al.  THE AXON HILLOCK AND THE INITIAL SEGMENT , 1968, The Journal of cell biology.

[55]  D. Debanne,et al.  Axon physiology. , 2011, Physiological reviews.

[56]  R G Sola,et al.  Histopathology and reorganization of chandelier cells in the human epileptic sclerotic hippocampus. , 2004, Brain : a journal of neurology.

[57]  P. Somogyi,et al.  The cisternal organelle as a Ca2+-storing compartment associated with GABAergic synapses in the axon initial segment of hippocampal pyramidal neurones , 1994, Experimental Brain Research.

[58]  G. Paxinos,et al.  The Rat Brain in Stereotaxic Coordinates , 1983 .