Epinephrine in the Central Nervous SystemJon M. Stolk, David C. U'Prichard, Kjell Fuxe Oxford University Press, 1988 - Всего страниц: 379 Long thought to be unimportant in central nervous system activity, epinephrine is now known to play a key role in the brain's regulation of blood pressure, cardiovascular function, and other autonomic activities. This encyclopedic volume, written by leading international researchers, offers a comprehensive account of the chemical neuroanatomy, genetics, chemistry, and pharmacology of CNS epinephrine and its effects on behavior and autonomic function. |
Содержание
Inbred Rat Strains | 78 |
Morphology of Brain Epinephrine Systems 9 Steroid Control of Neurotransmitter | 94 |
Morphometric Studies on Epinephrine | 117 |
Авторские права | |
Не показаны другие разделы: 20
Другие издания - Просмотреть все
Epinephrine in the Central Nervous System Jon M. Stolk,David C. U'Prichard,Kjell Fuxe Просмотр фрагмента - 1988 |
Часто встречающиеся слова и выражения
a-methyldopa a₁ a₂ a2-adrenoceptors adenylate cyclase adrenal adrenergic neurons adrenergic receptors adrenoceptors affinity Agnati agonist amine antagonist binding sites Biochem Biol blood pressure Brain Res brainstem catecholamine caudal cell bodies cell group ceptors Chem chromaffin cells clonidine cortex dopamine dorsal down-regulation drugs effects enzyme epinephrine epinephrine levels epinephrine neurons fibers function Fuxe glucocorticoid Goldstein growth hormone guanine Hökfelt hypertensive hypertensive rats hypothalamus idazoxan imipramine immunoreactivity increase inhibition injection interactions Kalia labeled Leibowitz ligand locus coeruleus mediated medulla oblongata membranes mg/kg N-methyltransferase nephrine nerve neurons neuropeptide Neurosci noradrenergic norepinephrine Pharmacol pharmacological phenylethanolamine phenylethanolamine N-methyltransferase Physiol PNMT activity PNMT inhibitor PNMT-positive postsynaptic prazosin pretreatment protein rat brain rauwolscine region regulation release renergic response rine role rostral Saavedra SK&F SPGNs spinal cord ẞ-adrenergic stimulation studies substrate subtypes synthesis terminals tion tissue treatment U'Prichard ventrolateral medulla vivo yohimbine