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Общее количество найденных документов : 43
Показаны документы с 1 по 20
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1.
| Ситдикова Г.Ф. Пресинаптические эффекты монооксида углерода в нервно-мышечном синапсе лягушки // Докл. РАН, 2005. Т. 403, N 1.-С.121-125
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| Петрова Л.Н. Влияние интерлейкина-1'бета' на NMDA-индуцированный захват {45}CA{2+} в синаптосомы коры мозга крыс // Бюл. эксперим. биол. и мед., 2005. Т. 140, N 12.-С.645-646
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3.
| Wu L.G. Presynaptic calcium is increased during normal synaptic transmission and paired-pulse facilitation, lut not in longterm potentiation in area CA1 of hippocampus // J. Neurosci., 1994. Vol. 14, N 2.-С.645-654
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4.
| Value of (123 I) FP-CIT to estimate importance of degeneration in nigrostriatal pathway in patients with presynaptic Parkinsonism // Eur. J. Nucl. Med. and Mol. Imag., 2002. Vol. 29, прил. 1.-С.281
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| Value of (123 I) FP-CIT to estimate importance of degeneration in nigrostriatal pathway in patients with presynaptic Parkinsonism // Eur. J. Nucl. Med. and Mol. Imag., 2002. Vol. 29, прил. 1.-С.281
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6.
| Ubiquitin carboxyl-terminal hydrolase L1 is required for maintaining the structure and function of the neuromuscular junction // Proc. Nat. Acad. Sci. USA, 2010. Vol. 107, N 4.-С.1636-1641
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7.
| Thyrotropin-releasing hormone has profound presynaptic action on cultured spinal cord neurons // Sunapse, 1990. Vol. 6, N 9.-С.169-174
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| Three-dimensional structure of a presynaptic neurotoxic phospholipase A2 from Daboia russelli pulchella at 2.4 A resolution // J. Mol. Biol., 2000. Vol. 296, N 4.-С.1117-1126
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| The atomic resolution structure of bucandin, a novel toxin isolated from the Malayan krait, determined by direct methods // Acta crystallogr. D, 2000. Vol. 56, N 11.-С.1401-1407
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10.
| Tang Crystal structure of agkistrodotoxin, a presynaptic neurotoxin // J. Toxicol. Toxin Rev., 1998. Vol. 17, N 4.-С.548
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11.
| Tang Dopamine D[2] and D[3] receptors inhibit dopamine release // J. Pharmacol. and Exp. Ther., 1994. Vol. 270, N 2.-С.475-479
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12.
| Takikawa Actions of adenosine on spontaneous or evoked tramsmitter release at the frog neuromuscular junction // Neurosci. Res., 1990, Suppl. N11.-С.122
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13.
| Stevens Charles F. Changes in reliability of synaptic function as a mechanism for plasticity // Nature. -Gr. Brit., 1994. Vol. 371, N 6499.-С.704-707
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14.
| Schaechter J.D. Activation of protein kinase C by arachidonic acid selectively enhances the phosphorylation of GAP-43 in nerve terminal membranes // J. Neurosci., 1993. Vol. 13, N 10.-С.4361-4371
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15.
| Regulation of kinetic and pharmacological properties of synaptic NMDA receptors depends on presynaptic exocytosis in rat hippocampal neurones // J. Physiol., 1998. Vol. 508, N 2.-С.495-502
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16.
| Regehr Wade G. The role of presynaptic calcium in short-term enhancement at the hippocampal mossy fiber synapse // J. Neurosci., 1994. Vol. 14, N 2.-С.525-537
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17.
| Quinlan Michelle E. Short-term potentiation of mEPSCs requires N-, P/Q- and L-type Ca{2+} channels and mitochondria in the supraoptic nucleus // J. Physiol., 2008. Vol. 586, N 13.-С.3147-3161
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18.
| Qian Inhibition of synaptic transmission by neuropeptide Y in rat hippocampal area CA1: Modulation of presynaptic Ca{2+} entry // J. Neurosci., 1997. Vol. 17, N 21.-С.8169-8177
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19.
| Presynaptic control of subunit composition of NMDA receptors mediating synaptic plasticity // J. Neurosci., 1997. Vol. 17, N 8.-С.2766-2774
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20.
| Presynaptic control of modulatory fibers by their neural network targets // J. Neurosci., 1992. Vol. 12, N 7.-С.2706-2714
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