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Общее количество найденных документов : 94
Показаны документы с 1 по 20
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1.
| Harris Kristen M. Dendritic spines: Cellular spicializations imparting both stability and flexibility to synaptic function // Annu. Rev. Neurosci.. -Palo Alto (Calif.), 1994, Vol. 17.-С.341-371
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2.
| Takacs J. Developmental dynamics of Purkinje cells and dendritic spines in rat cerebellar cortex // J. Neurosci. Res., 1994. Vol. 38, N 5.-С.515-530
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3.
| Belichenko Pavel V. Studies on the 3-dimensional architecture of dendritic spines and varicosities in human cortex by confocal laser scanning microscopy and Lucifer Yellow microinjections // J. Neurosci. Meth., 1995. Vol. 57, N 1.-С.55-61
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4.
| Segal Imaging of calcium variations in living dendritic spines of cultured rat hippocampal neurons // J. Physiol., 1995. Vol. 486, N 2.-С.283-295
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| Bannister N.J. Dendritic morphology of CA1 pyramidal neurones from the rat hippocampus II: Spine distributions // J. Compar. Neurol., 1995. Vol. 360, N 1.-С.161-171
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6.
| Papa M. Confocal laser microscopy in studying dendritic spine dinamic morphology: A powerful approach to the mechanisms underlying memory // Quad. anat. prat., 1994, N 1-4.-С.19-34
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7.
| Segal Fast imaging of [Ca][i] reveals presence of voltage-gated calcium channels in dendritic spines of cultured hippocampal neurons // J. Neurophysiol., 1995. Vol. 74, N 1.-С.484-488
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8.
| Johnson Randall R. Microcircuitry of forward and feedback connections within rat visual cortex // J. Compar. Neurol., 1996. Vol. 368, N 3.-С.383-398
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9.
| Segal Fast imaging of [Ca][i] reveals presence of voltage-gated calcium channels in dendritic spines of cultured hippocampal neurons // J. Neurophysiol., 1995. Vol. 74, N 1.-С.484-488
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10.
| Intracellular Ca{2+} stores can account for the time course of LTP induction: A model of Ca{2+} dynamics in dendritic spines // J. Neurophysiol., 1995. Vol. 74, N 3.-С.1046-1055
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| Intracellular Ca{2+} stores can account for the time course of LTP induction: A model of Ca{2+} dynamics in dendritic spines // J. Neurophysiol., 1995. Vol. 74, N 3.-С.1046-1055
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12.
| Dendritic spines form "collars" in hippocampal granule cells // NeuroReport, 1995. Vol. 6, N 11.-С.1557-1561
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13.
| Forgie Margaret L. Unilateral lesions of the forelimb area of rat motor cortex: Lack of evidence for use-dependent neural growth in the undamaged hemisphere // Brain Res., 1996. Vol. 710, N 1-2.-С.249-259
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14.
| Dendritic spine loss on human cortical pyramidal neurons in schizophrenia // J. Anat., 1996. Vol. 188, N 1.-С.223
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15.
| Distribution of inositol-1,4,5-trisphosphate and ryanodine receptors in rat neostriatum // Brain Res., 1997. Vol. 756, N 1-2.-С.9-21
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16.
| Distribution of inositol-1,4,5-trisphosphate and ryanodine receptors in rat neostriatum // Brain Res., 1997. Vol. 756, N 1-2.-С.9-21
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17.
| Shepherd Gordon M. The dendritic spine: A multifunctional integrative unit // J. Neurophysiol., 1996. Vol. 75, N 6.-С.2197-2210
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18.
| Heterogeneity in the molecular composition of excitatory postsynaptic sites during development of hippocampal neurons in culture // J. Neurosci., 1998. Vol. 18, N 4.-С.1217-1229
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19.
| Blackwell K.T. Pattern matching in a model of dendritic spines // Network: Comput. Neur. Syst., 1998. Vol. 9, N 1.-С.107-121
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20.
| Svoboda Shining light on spiny matters // Nature Neurosci., 1998. Vol. 1, N 2.-С.93-94
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