(50) Production(s) de VIGNES M.
Kainate receptors are involved in synaptic plasticity. Auteur(s): Bortolotto Z. A., Clarke V. R., Delany C. M., Parry M. C., Smolders I., Vignes M., Ho K. H., Miu P., Brinton B. T., Fantaske R., Ogden A., Gates M., Ornstein P. L., Lodge D., Bleakman D., Collingridge G. L. (Article) Publié: Nature, vol. 402 p.297-301 (1999) |
Altered distribution of Galphah/type 2 transglutaminase following catecholamine deprivation is associated with depression of adrenoreceptor signal transduction in cultured ventricular zone germinal cells. Auteur(s): Gill L. S., Pabbathi V. K., Vignes M., Haynes L. W. (Article) Publié: Brain Research, vol. 788 p.95-103 (1998) |
The GluR5 subtype of kainate receptor regulates excitatory synaptic transmission in areas CA1 and CA3 of the rat hippocampus. Auteur(s): Vignes M., Clarke V. R., Parry M. J., Bleakman D., Lodge D., Ornstein P. L., Collingridge G. L. (Article) Publié: Neuropharmacology, vol. 37 p.1269-77 (1998) |
Catecholaminergic regulation of proliferation and survival in rat forebrain paraventricular germinal cells. Auteur(s): Pabbathi V. K., Brennan H., Muxworthy A., Gill L., Holmes F. E., Vignes M., Haynes L. W. (Article) Publié: Brain Research, vol. 760 p.22-33 (1997) |
The synaptic activation of kainate receptors. Auteur(s): Vignes M., Collingridge G. L. (Article) Publié: Nature, vol. 388 p.179-82 (1997) |
Regulation of glutamate release by presynaptic kainate receptors in the hippocampus. Auteur(s): Chittajallu R., Vignes M., Dev K. K., Barnes J. M., Collingridge G. L., Henley J. M. (Article) Publié: Nature, vol. 379 p.78-81 (1996) |
Intra- vs extracellular calcium regulation of neurotransmitter-stimulated phosphoinositide breakdown. Auteur(s): Vignes M., Blanc E., Sassetti I., Récasens M. (Article) Publié: Neurochemistry International, vol. 28 p.145-53 (1996) |