scholarly article | Q13442814 |
P50 | author | Bernardo L. Sabatini | Q29169188 |
P2093 | author name string | Adam J Granger | |
Arpiar Saunders | |||
P2860 | cites work | Dopaminergic Terminals in the Nucleus Accumbens But Not the Dorsal Striatum Corelease Glutamate | Q22255504 |
Prefrontal acetylcholine release controls cue detection on multiple timescales | Q24674069 | ||
A direct GABAergic output from the basal ganglia to frontal cortex. | Q26254039 | ||
Dopaminergic neurons inhibit striatal output through non-canonical release of GABA | Q28276335 | ||
Specific long-term memory traces in primary auditory cortex | Q30457602 | ||
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Cholinergic axons modulate GABAergic signaling among hippocampal interneurons via postsynaptic alpha 7 nicotinic receptors | Q30495011 | ||
Fast modulation of visual perception by basal forebrain cholinergic neurons | Q30594116 | ||
Dorsal raphe neurons signal reward through 5-HT and glutamate. | Q30644751 | ||
A cortical circuit for gain control by behavioral state | Q33698298 | ||
Striatal cholinergic neurotransmission requires VGLUT3 | Q33801599 | ||
Dale's principle | Q33887256 | ||
Ultrastructural evidence for diffuse transmission by monoamine and acetylcholine neurons of the central nervous system | Q34093870 | ||
Glutamatergic signaling by mesolimbic dopamine neurons in the nucleus accumbens | Q34116323 | ||
Habenula "cholinergic" neurons co-release glutamate and acetylcholine and activate postsynaptic neurons via distinct transmission modes | Q34164067 | ||
A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex. | Q34219089 | ||
Cholinergic Pathways and the Ascending Reticular Activating System of the Human Braina | Q34300002 | ||
Acetylcholine as a neuromodulator: cholinergic signaling shapes nervous system function and behavior | Q34304101 | ||
Cortical map reorganization enabled by nucleus basalis activity | Q34459799 | ||
Cholinergic interneurons mediate fast VGluT3-dependent glutamatergic transmission in the striatum | Q34841740 | ||
Deterministic functions of cortical acetylcholine. | Q35211418 | ||
Prolonged disynaptic inhibition in the cortex mediated by slow, non-α7 nicotinic excitation of a specific subset of cortical interneurons | Q35874078 | ||
Recurrent network activity drives striatal synaptogenesis | Q36009922 | ||
Mechanisms generating dual-component nicotinic EPSCs in cortical interneurons | Q36474829 | ||
Single rodent mesohabenular axons release glutamate and GABA | Q36832519 | ||
Synaptic release of GABA by AgRP neurons is required for normal regulation of energy balance | Q37143482 | ||
Phasic acetylcholine release and the volume transmission hypothesis: time to move on. | Q37450800 | ||
Midbrain dopamine neurons sustain inhibitory transmission using plasma membrane uptake of GABA, not synthesis. | Q37726179 | ||
Neurotransmitter corelease: mechanism and physiological role | Q37952856 | ||
Cholinergic circuit modulation through differential recruitment of neocortical interneuron types during behaviour | Q38216256 | ||
Melanocortin-4 receptors expressed by cholinergic neurons regulate energy balance and glucose homeostasis | Q41958823 | ||
Basal forebrain neurons adjacent to the globus pallidus co-express GABAergic and cholinergic marker mRNAs | Q42458574 | ||
Mood regulation. GABA/glutamate co-release controls habenula output and is modified by antidepressant treatment. | Q42465895 | ||
Cholinergic neurons containing GABA-like and/or glutamic acid decarboxylase-like immunoreactivities in various brain regions of the rat | Q42518981 | ||
A shared vesicular carrier allows synaptic corelease of GABA and glycine | Q42685815 | ||
Role of ACh-GABA cotransmission in detecting image motion and motion direction | Q42734048 | ||
Ultrastructural distribution of the alpha7 nicotinic acetylcholine receptor subunit in rat hippocampus. | Q43757454 | ||
A disinhibitory microcircuit for associative fear learning in the auditory cortex. | Q44450801 | ||
Green fluorescent protein expression and colocalization with calretinin, parvalbumin, and somatostatin in the GAD67-GFP knock-in mouse. | Q44629132 | ||
Two isoforms of glutamate decarboxylase: why? | Q45345778 | ||
The basal forebrain cholinergic system is required specifically for behaviorally mediated cortical map plasticity. | Q46023259 | ||
Reversible inhibition of GABAA receptors by alpha7-containing nicotinic receptors on the vertebrate postsynaptic neurons | Q46058018 | ||
Cholinergic modulation of responses to single tones produces tone-specific receptive field alterations in cat auditory cortex | Q46090424 | ||
The vesicular glutamate transporter VGLUT3 synergizes striatal acetylcholine tone | Q46751646 | ||
Corelease of two fast neurotransmitters at a central synapse. | Q47837764 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P407 | language of work or name | English | Q1860 |
P577 | publication date | 2015-02-27 | |
P1433 | published in | eLife | Q2000008 |
P1476 | title | Corelease of acetylcholine and GABA from cholinergic forebrain neurons | |
P478 | volume | 4 |
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