Поисковый запрос: (<.>S=ДОФАМИНОВЫЙ ТРАНСПОРТЕР<.>) |
Общее количество найденных документов : 11
Показаны документы с 1 по 11
|
1.
| Heterogeneous subregional binding patterns of {3}H-WIN 35,428 and {3}H-GBR 12,935 are differentially regulated by chronic cocaine self-administration // J. Neurosci., 1994. Vol. 14, N 5.-С.2966-2979
|
2.
| Alterations in brain monoamines and GABA[A] receptors in transgenic mice overexpressing TGF'альфа' // Pharmacol., Biochem. and Behav., 1995. Vol. 50, N 4.-С.593-600
|
3.
| Wilson Julie M. The vesicular monoamine transporter, in contrast to the dopamine transporter, is not altered by chronic cocaine self-administration in the rat // J. Neurosci., 1996. Vol. 16, N 10.-С.3507-3510
|
4.
| Wilson Julie M. The vesicular monoamine transporter, in contrast to the dopamine transporter, is not altered by chronic cocaine self-administration in the rat // J. Neurosci., 1996. Vol. 16, N 10.-С.3507-3510
|
5.
| Substrate transport and cocaine binding of human dopamine transporter is reduced by substitution of carboxyl tail with that of bovine dopamine transporter // NeuroReport, 1997. Vol. 8, N 11.-С.2591-2594
|
6.
| Cocaine self-administration in dopamine-transporter knockout mice // Nature Neurosci., 1998. Vol. 1, N 2.-С.132-137
|
7.
| Unilateral infusion of a dopamine transporter antisense into the substantia nigra protects against MDMA-induced serotonergic deficits in the ipsilateral striatum // Neuroscience, 2002. Vol. 114, N 4.-С.917-924
|
8.
| Unilateral infusion of a dopamine transporter antisense into the substantia nigra protects against MDMA-induced serotonergic deficits in the ipsilateral striatum // Neuroscience, 2002. Vol. 114, N 4.-С.917-924
|
9.
| Changes of dopamine transporter function in striatum during acute morphine addiction and its abstinence in rhesus monkey // Chin. Med. J., 2006. Vol. 119, N 21.-С.1802-1807
|
10.
| Madras Bertha K. Cocaine neurobiology: From targets to treatment // Cell Biology of Addiction. -Cold Spring Harbor (N.Y.), 2006.-С.239-269
|
11.
| Madras Bertha K. Cocaine neurobiology: From targets to treatment // Cell Biology of Addiction. -Cold Spring Harbor (N.Y.), 2006.-С.239-269
|
&uf('+1W2226#',v2226), ?>
|