The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
about
VMAT2: a dynamic regulator of brain monoaminergic neuronal function interacting with drugs of abuseTrace amine-associated receptors and their ligandsOctopamine regulates sleep in drosophila through protein kinase A-dependent mechanismsTrace Amines and the Trace Amine-Associated Receptor 1: Pharmacology, Neurochemistry, and Clinical ImplicationsThe angular interval between the direction of progression and body orientation in normal, alcohol- and cocaine treated fruit fliesCrystal Structure and Substrate Specificity of Drosophila 3,4-Dihydroxyphenylalanine DecarboxylaseFollowing the trace of elusive aminesCocaine tolerance in honey beesTime flies like an arrow. Fruit flies like crack?Regulation of chloride permeability by endogenously produced tyramine in the Drosophila Malpighian tubule.The Protective Effect of Minocycline in a Paraquat-Induced Parkinson's Disease Model in Drosophila is Modified in Altered Genetic Backgrounds.Analysis of biogenic amines in a single Drosophila larva brain by capillary electrophoresis with fast-scan cyclic voltammetry detection.Two functional but noncomplementing Drosophila tyrosine decarboxylase genes: distinct roles for neural tyramine and octopamine in female fertility.Drosophila melanogaster G protein-coupled receptors.Neuroprotective effects of compounds with antioxidant and anti-inflammatory properties in a Drosophila model of Parkinson's diseaseDrosophila, a genetic model system to study cocaine-related behaviors: a review with focus on LIM-only proteins.Identification of multiple functional receptors for tyramine on an insect secretory epithelium.Determination of salsolinol, norsalsolinol, and twenty-one biogenic amines using micellar electrokinetic capillary chromatography-electrochemical detection.Biogenic amines in microdissected brain regions of Drosophila melanogaster measured with micellar electrokinetic capillary chromatography-electrochemical detectionMicrocolumn separation of amine metabolites in the fruit fly.Analysis of biogenic amine variability among individual fly heads with micellar electrokinetic capillary chromatography-electrochemical detection.Molecular and pharmacological properties of insect biogenic amine receptors: lessons from Drosophila melanogaster and Apis mellifera.Down-regulation of Decapping Protein 2 mediates chronic nicotine exposure-induced locomotor hyperactivity in DrosophilaDrosophila Ube3a regulates monoamine synthesis by increasing GTP cyclohydrolase I activity via a non-ubiquitin ligase mechanism.Tyramine and octopamine: antagonistic modulators of behavior and metabolism.Are Caenorhabditis elegans receptors useful targets for drug discovery: pharmacological comparison of tyramine receptors with high identity from C. elegans (TYRA-2) and Brugia malayi (Bm4).Freeze-drying as sample preparation for micellar electrokinetic capillary chromatography-electrochemical separations of neurochemicals in Drosophila brains.Drosophila vesicular monoamine transporter mutants can adapt to reduced or eliminated vesicular stores of dopamine and serotoninDrug-seeking behavior in an invertebrate system: evidence of morphine-induced reward, extinction and reinstatement in crayfish.Coordination and modulation of locomotion pattern generators in Drosophila larvae: effects of altered biogenic amine levels by the tyramine beta hydroxlyase mutation.Capillary electrophoresis-mass spectrometry-based detection of drugs and neurotransmitters in Drosophila brain.Effects of cocaine on honey bee dance behaviourChemical measurements in Drosophila.Drug-sensitive reward in crayfish: an invertebrate model system for the study of SEEKING, reward, addiction, and withdrawalWhen a TRP goes bad: transient receptor potential channels in addiction.Selected recent in vivo studies on chemical measurements in invertebrates.Ethological analyses of crayfish behavior: a new invertebrate system for measuring the rewarding properties of psychostimulantsGenetic distortion of the balance between punishment and relief learning in Drosophila.LIM homeobox gene-dependent expression of biogenic amine receptors in restricted regions of the C. elegans nervous system.d-Amphetamine stimulates unconditioned exploration/approach behaviors in crayfish: towards a conserved evolutionary function of ancestral drug reward.
P2860
Q22242306-E29469B4-10D7-4E43-94D1-F8A467EA6EE4Q24564985-23DEB788-B284-469A-A619-7C6FD9657487Q24656630-D582E55C-2141-4B8A-AF05-BA903533A4B4Q26752602-847F54BE-A60C-4AAD-8FCF-4A2E36F3259EQ27304772-DD3A14D1-55E8-4EE8-B08F-84BD6C79CA93Q27659151-93AEA378-D2F5-4FF1-9C8E-0DA1A300F2DBQ28346021-FF390495-C23F-4D93-A189-F53E96298F3CQ28533467-15CC6B26-583A-46F0-A78B-B392170E5D27Q30309107-26C0DD1C-883D-4DDF-9F0F-44034D2BA36FQ30310229-AA69CCFD-88E9-48AB-AAD2-64208191E22BQ30425537-9393BD9E-78C7-42AE-B099-B9BEB0F7EC36Q30427850-8A022D73-B7F0-4343-A94E-C8790228E6F2Q30435848-7652488C-06B7-4A45-B118-CE2B034AFF63Q30887477-3C7A9A61-867F-475E-8E28-F69CD1A2233AQ33499111-9BF9FA6C-1D96-4A49-B99C-307FA9713319Q33642755-6F622522-6FEC-4A79-BA89-B74BB4109F82Q33669529-E7A6741D-3F74-4DAC-B408-025D691B7857Q33941251-6D9DC358-3546-4C7C-A480-0F555AE5FF28Q34126320-5DA551C4-8BD2-4605-97E7-AA0B8A4DC746Q34314146-A07DEA57-CB0E-41E7-95AD-C1B27E3C8CE7Q34339826-9DAE4D65-91F3-46C6-9C96-9B3FA4118457Q34344342-D61255A5-EC0B-4906-8417-6FFDDD161F39Q34540821-F582FEFC-5CD3-43F7-9A4B-2D93F7D749B5Q34580149-72F3A8BB-7349-4ED5-A538-6CC7F289CAC0Q35207262-2DDC47A1-AA31-44FB-ABFC-4692495E48E6Q36196893-ADFBBF02-C481-4148-AE68-0B766ADC96B4Q36760723-811D6B8C-1BC5-4C8B-B0E5-609DF0C26F14Q37102620-1EC4710E-9151-4B42-97ED-D7B1D5F15134Q37159807-CB54E6A4-7876-4995-877A-BC590121B3B4Q37169308-72127E04-AF12-49DF-BF0C-CF406D7E9C71Q37224144-F68245E2-DE9F-4242-B6BE-923AB104C53CQ37289624-0F72E6E9-7371-4FFA-872D-9A992E9B62EEQ37449842-35234B78-0543-4D22-95E4-1C2237783056Q37823697-9E5F10C0-389C-4027-84BC-30819324ED37Q38028262-0946232F-BD59-492D-B5FF-349AC1C74F62Q38342169-5A190EAA-2D8B-412E-ABD5-FCB7C9D5F764Q38663425-B5032D45-B542-4328-8D51-F76699EC424FQ39311044-7059FBCD-5F1E-4CC8-AF69-B3C2A1172ABDQ41130545-4E290393-EFEC-4A20-B74F-B0AD0B8E7FCCQ41512043-D2C6CB84-B179-4F85-AC09-AE28D5AEA0C0
P2860
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
description
1999 nî lūn-bûn
@nan
1999 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@ast
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@en
type
label
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@ast
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@en
prefLabel
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@ast
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@en
P1433
P1476
The trace amine tyramine is essential for sensitization to cocaine in Drosophila.
@en
P2093
P304
P356
10.1016/S0960-9822(99)80389-3
P407
P577
1999-08-01T00:00:00Z