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Reactome (instancebrowser)
Reactome: A Curated Pathway Database
Details
SurnameMahajan
InitialsSS
AffiliationNYU School of Medicine, Department of Biochemistry
Hunter College School of Health Sciences
Author of summation(s)
3,4-dihydroxyphenylacetic acid, generated after oxidation of...
3-methoxytyramine generated by COMT after methylation of dop...
5-hydroxyindole acetaldehyde is then catalyzed by aldehyde d...
Acetylcholine binding activates postsynaptic acetylchloine r...
Acetylcholine is actively transported from the cytosol to th...
Acetylcholine neurotransmitter release cycle involves synthe...
Acetylcholine synaptic vesicle contains Rab3 ( GTPase), syna...
Acetylcholinesterase (ACHE) oligomers (comprising monomers, ...
Activated CaMKIV phosphorylates CREB at S133 thereby initiat...
Activated MAPK/ERK activates RSK in its C terminal kinase do...
Activation of classical kir channels results in K+ efflux wh...
Activation of Kir 3 channels occurs after binding of G beta ...
Activation of TWIK channels results in low outward K+ curre...
Activation of voltage gated potassium channel is triggered b...
Alternately dopamine is metabolized to homovanillic acid in ...
AMPA receptors are functionally either Ca permeable or Ca im...
AMPA receptors bind glutamate, released in the synaptic clef...
At resting membrane potential the NMDA receptor is blocked b...
ATP sensitive K+ channels couple intracellular metabolism wi...
Binding of G beta gamma activates the GIRK/Kir3 channels tha...
Binding of RasGRF to Ca2+/Calmodulin in the presence of hig...
Biotin (Btn) is an essential cofactor in a variety of carbox...
Ca2+ activated potassium channels are expressed in neuronal ...
Ca2+ fluxes through NMDA receptors in the post-synaptic neur...
Ca2+ influx from the extracellular space into the presynapti...
Ca2+ influx through the NMDA receptor initiates subsequent m...
Ca2+ influx through the NMDA receptor leads to the activatio...
Ca2+ signal generated through NMDA receptor in the post-syna...
CaMKII gets activated upon Ca2+ influx through the NMDA rece...
CaMKII is an important regulator of neuronal plasticity. CaM...
CaMKII is composed of a homo or hetero dodecamer of four sub...
CaMKII is fully activated upon Ca2+/Calmodulin binding. In a...
CaMKIV is activated in a multi-step mechanism in an Ca2+/Cal...
CaMKK is fully activated upon binding Ca2+/Calmodulin after ...
Chemical synapses are specialized junctions that are used fo...
Classical Kir channels are inwardly rectifying K+ channels w...
Communication at the synapse involves the release of glutama...
Constitutively recycling GluR2 containing AMPA receptors in ...
CREB is phosphorylated at serine 133 by any of the four isof...
Delta, gamma and epsilon subunits are predominantly found in...
Docking and priming of clathrin sculpted acetylcholine loade...
Docking and priming of clathrin sculpted Noradrenaline loade...
Docking occurs once the synaptic vesicle has moved from the ...
Dopamine in the cytosol is metabolized to 3-methoxytyramine ...
Dopamine is oxidized to 3,4-dihydroxyphenylacetic acid by mo...
Dopamine is transported from the cytosol into the reacidifi...
Dopamine loaded synaptic vesicles are docked, inside the syn...
Dopamine neurotransmitter cycle occurs in dopaminergic neuro...
Dopamine once taken up by the dopamine transporter from the ...
Each AMPA receptor subunit binds one glutamate molecule in t...
Each AMPA receptor subunit binds one glutamate molecule in t...
Excess L-Glutamate released by the pre-synaptic neuron in th...
Excitatory synaptic transmission in the brain is carried out...
Functional GABA B receptors are heteromers of GABA B1 and B2...
GABA A (rho) receptors are highly expressed in the retina an...
GABA B receptors are coupled to Gproteins and function by in...
GABA B receptors are G protein coupled receptors that are ac...
GABA B receptors are metabotropic receptors that are functio...
GABA is a major inhibitory neurotransmitter in the mammalian...
GABA is converted to succinate semialdehyde by 4-aminobutyra...
GABA is loaded into the synaptic vesicle by inihibitory amin...
GABA is metabolized to succinated by the serial action of tw...
GABA loaded synaptic vesicles are docked at the presynaptic ...
GABA synaptic vesicles are fused to the presynaptic terminal...
GABA synthesized uniquely by two forms of glutamate decarbox...
GAD1 or GAD67 is evenly spread throghout the neuronal cytopl...
GAD65 or GAD2 is concentrated in the nerve terminal region i...
Gamma aminobutyric acid (GABA) receptors are the major inhib...
GluR1-containing AMPA receptors are delivered to the synapse...
GluR2 containing AMPA receptors are constitutively recycled ...
GluR2 containing AMPA receptors are trafficked to the plasma...
Glutamate from the mitochondrial matrix is transported back ...
Glutamine at position 636 is replaced by arginine in an edit...
Glutamine from the astrocytes is exported to the extracellul...
Glutamine in neurons is transported into mitochondrial matri...
Glutamine uptake in neurons is carried out by Na+-dependant ...
GRIK2 is edited at the Q/R site at 621 where the glutamine i...
HCN channels are activated upon hyperpolarization of membran...
HCN channels require cAMP binding and hyperpolarization of ...
Homotetramers of Kir 1.1 function as inwardly rectifying po...
Hyperpolarization-activated and cyclic nucleotide gated (HCN...
In astrocytic glutamate-glutamine cycle, the excess glutamat...
In neuroendocrine cells such as pancreatic alpha-, beta-, an...
In the cytosol, choline O-acetyltransferase (CHAT) acetylate...
Increase in intracellular concentration of Ca2+ ions and mem...
Intermediate conductance K+ channels are restricted to non n...
Inwardly rectifying G protein activated K+ channels (GIRK) a...
Inwardly rectifying K+ channels (Kir channels) show an inwar...
Inwardly rectifying potassium transport are tetrameric chann...
Kainate receptor activation activates G protein coupled rece...
Kainate receptors are either Ca2+ permeable or impermeable d...
Kainate receptors are formed by the assembly of four subunit...
Kainate receptors are found both in the presynaptc terminals...
Kainate receptors bind glutamate in the ligand binding domai...
Kainate receptors in the presynaptic neuron are involved in ...
Kainate receptors that are assembled with subunits GRIK1-5, ...
Kainate receptors that are formed by subunits GRIK1 and or G...
Kir 2 channels form heterotetramers of any two of the four ...
Loading of the monoamine vesicle is preceded by acidifcation...
MAPK/ERK is phosphorylated at threonine 185 and tyrosine 1...
Membrane depolarization occurs due to glutamate dependent a...
Nascent synaptic vesicles are loaded with glutamate by VGLUT...
Neuotransmitter uptake by astrocytes is mediated by specific...
Neurotransmitter is stored in the synaptic vesicle in the pr...
Neurotransmitter released in the synaptic cleft binds to spe...
Nicotinic acetylcholine receptors (nAchR) are a subtype of a...
Nicotinic acetylcholine receptors are activated upon ligand ...
Nicotinic acetylcholine receptors are found in the postsynap...
Nicotinic acetylcholine receptors bind two molecules of liga...
Nicotinic acetylcholine receptors containing alpha2(3)-beta3...
Nicotinic acetylcholine receptors containing alpha3 beta2 al...
Nicotinic acetylcholine receptors containing alpha3 beta4 ar...
Nicotinic acetylcholine receptors containing alpha4(2) beta3...
Nicotinic acetylcholine receptors containing alpha4(3) beta ...
Nicotinic acetylcholine receptors containing alpha6-beta3 su...
Nicotinic acetylcholine receptors containing aplha4(2) beta2...
Nicotinic acetylcholine receptors containing homomeric penta...
Nicotinic acetylcholine receptors exhibit high influx of Ca2...
Nicotinic acetylcholne receptors that have low Ca2+ permeab...
NMDA receptors are a subtype of ionotropic glutamate recepto...
NMDA receptors are activated in a two step mechanism; first...
NMDA receptors are activated upon binding of two ligands, gl...
NMDA receptors require binding of two ligands; the agonist, ...
NMDAR complex consists of two NR1 subunits and two NR2 subun...
Noradrenalin release cycle consists of reacidification of th...
Noradrenaline is cleared from the synaptic cleft by Noaradre...
Noradrenaline is degraded by Monoamine oxidase A, which cont...
Nuclear targeting of CaMKII depends on several factors inclu...
Once vesicles are docked, primed and ready to be released fu...
Once vesicles are docked, primed and ready to be released fu...
Once vesicles are docked, primed and ready to be released fu...
PDK1 activates ribosomal S6 kinase (RSK) by phosphorylating ...
Postsynaptic acetylcholine receptors mediate Ca2+ currents ...
Potassium channels are tetrameric ion channels that are wide...
Presynaptic terminal acetylcholine receptors are located at ...
Protein kinase A has two regulatory subunits and two catalyt...
Raf is a downstream effector of ras. Raf is activated upon p...
RASGRF is activated upon binding of Ca2+/Calmodulin after Ca...
Repetitive presynaptic activity causes long lasting changes ...
Reuptake of GABA from the synapse terminates the action of G...
Ribosomal S6 kinase has four isoforms in humans and each of ...
Serotonergic neurotransmission affects a wide range of behav...
Serotonin is first metabolized to 5-hydroxyindole acetaldehy...
Serotonin is loaded into the clathrin sculpted monoamine tra...
Serotonin is synthesized in the serotonergic neurons in the ...
Serotonin loaded synaptic vesicles are docked, inside the sy...
Small conductance Ca2+ activated potassium channels (SKca) a...
Succinate semialdehyde dehydrogenase (SSADH) converts succin...
TALK is activated by increase in pH alkalinity in the extra...
Tandem pore domain K+ channels (K2p) produce leak K+ current...
TASK 1 and 3 are closely related both structurally and funct...
TASK are tandem repeat K+ channels that are sensitive to ext...
The action potential travels down the axon and reaches the p...
The activation of Kainate receptors by glutamate in the post...
The human brain contains at least 100 billion neurons, each ...
The human gene SLC6A3 encodes the sodium-dependent dopamine ...
The human gene SLC6A4 encodes the sodium-dependent serotonin...
The neurotransmitter in the synaptic cleft released by the p...
The proton gradient for the acetylcholine uptake is provided...
The trimeric complex formed between V-SNARE (VAMP) and the T...
THIK channels are K+ leak channels that are not regulated by...
THIK subfamily has 2 members, THIK1 and THIK 2. THIK 1 forms...
Trafficking of GluR2-containing receptors is governed by pro...
Transient increase in intracellular Ca2+ concentration after...
TREK channels are activated by mechanical stretch, pH temper...
TREK1 and TREK 2 are activated by physiochemical changes lik...
TRESK is expressed in spinal cord and brain and is involved ...
TRESK subfamily of tandem domain K+ channels has one only me...
TWIK channels exhibit very low current and comprise of TWIK1...
TWIK related alkaline pH activated K+ channels are activated...
Voltage-gated K+ channels (Kv) determine the excitability of...
Voltage-gated potassium channels are made up of 12 different...
Author of entries
'Activation of GIRK/Kir3 Channels' negatively regulates 'Ca2+ influx through voltage gated Ca2+ channels'
'ATP [cytosol]' negatively regulates 'Activation of ATP sensitive Potassium channels in neuroendocrine cells'
'Membrane depolarization upon activation of Ca impermeable AMPA receptors' is required for 'Unblocking of NMDA receptor'
'Munc 13 [cytosol]' positively regulates 'Synaptic vesicle docking and priming'
/figures/AMPARecptors_Figure1.jpg
/figures/AMPARecptors_Figure2.jpg
/figures/NeuronalGlutamateTransportOverviewFigure1.jpg
/figures/NMDA-Receptor-Dependent-Gene-Activation.jpg
0-acteylcholine bound to calcium permeable nictonic acteylcholine receptor complex [plasma membrane]
3-(S-L-cysteinyl)-L-tyrosine at 571
3-Methoxy-4-hydroxyphenylglycol [cytosol] C
4 aminobutyrate aminotransferase homodimer [mitochondrial matrix]
4-aminobutyrate transaminase activity of 4 aminobutyrate aminotransferase homodimer [mitochondrial matrix]
5-hydroxyindole acetaldehyde to 5-hydroxyindole acetic acid [Homo sapiens]
5HT [clathrin-sculpted monoamine transport vesicle lumen] CCP
ABAT [mitochondrial matrix] UKENBCdORRHHGURR
AcCho [extracellular region] C
AcCho is hydrolyzed to Cho and acetate by ACHE [Homo sapiens]
Acetylcholine Receptor (homomeric) [plasma membrane]
Acetylcholine receptor alpha3(2)-beta4(3) [plasma membrane]
Acetylcholine receptor alpha3-beta2-aplha5 [plasma membrane]
Acetylcholine receptor alpha3-beta4 [plasma membrane]
Acetylcholine receptor alpha3-beta4-apha5 [plasma membrane]
Acetylcholine Receptor alpha4(2)-beta2(3) subunits [plasma membrane]
acetylcholine receptor alpha6 aplha4 beta3 [plasma membrane]
Acetylcholine receptor alpha6 beta3 beta4 [plasma membrane]
Acetylcholine receptor containing alpha7 subunit [plasma membrane]
acetylcholine receptor subunits [plasma membrane]
Acetylcholine receptors alpha2(3) beta3(2) [plasma membrane]
Acetylcholine Receptors alpha4(3)-beta2(2) [plasma membrane]
Acetylcholine synaptic vesicle docking and priming [Homo sapiens]
ACHE [extracellular region] UKENBCdOORHGURPPPPPPDDDDDD
Activated B-raf complex [plasma membrane]
Activation of Ca2+ activated Potassium channels with Intermeidtance conductance [Homo sapiens]
Activation of NMDA Receptor [Homo sapiens]
Activation of Adenylate Cyclase [Homo sapiens]
Activation of AMPA receptors [Homo sapiens]
Activation of ATP sensitive Potassium channels in neuroendocrine cells [Homo sapiens]
Activation of Ca impermeable AMPA receptors [Homo sapiens]
Activation of Ca permeable AMPA receptors [Homo sapiens]
Activation of Ca permeable AMPA receptors [Homo sapiens]
Activation of Ca-permeable Kainate Receptor [Homo sapiens]
Activation of Ca-permeable Kainate receptors [Homo sapiens]
Activation of Ca2+ activated Potassium channels with large conductance [Homo sapiens]
Activation of Ca2+ activated Potassium channels with small conductance [Homo sapiens]
Activation of CaMK IV [Homo sapiens]
Activation of CaMKII [Homo sapiens]
Activation of CaMKK [Homo sapiens]
Activation of Edited Kainate receptors [Homo sapiens]
Activation of G protein gated Potassium channels [Homo sapiens]
Activation of GABAB receptors [Homo sapiens]
Activation of GIRK/Kir3 Channels [Homo sapiens]
Activation of GRIK3 homomer [Homo sapiens]
Activation of HCN channels [Homo sapiens]
Activation of highly calcium permeable nicotinic acetylcholine receptors [Homo sapiens]
Activation of highly calcium permeable postsynaptic nicotinic acetylcholine receptors [Homo sapiens]
Activation of highly sodium permeable nicotinic acetylcholine receptors [Homo sapiens]
Activation of Kainate Receptors upon glutamate binding [Homo sapiens]
Activation of MAPK [Homo sapiens]
Activation of Na-permeable Kainate Receptors [Homo sapiens]
Activation of Nicotinic Acetylcholine Receptors [Homo sapiens]
Activation of NMDA receptor upon glutamate binding and postsynaptic events [Homo sapiens]
Activation of Potassium transport channels [Homo sapiens]
Activation of RasGRF [Homo sapiens]
Activation of TALK [Homo sapiens]
Activation of tandem pore domain in a weak inwardly rectifying K+ channels [Homo sapiens]
Activation of TASK [Homo sapiens]
Activation of THIK [Homo sapiens]
Activation of TRESK [Homo sapiens]
Activation of TWIK-related K+ channel (TREK) [Homo sapiens]
Activation of voltage gated Potassium channels [Homo sapiens]
adenylate cyclase activity of Ca/calmodulin activated Adenylate Cyclase [plasma membrane]
AKAP5 [cytosol] UKENBCdORHGURPD
ALDH5A1 [mitochondrial matrix] UKENBCdORHGUR
amino acid transmembrane transporter activity of SLC38A2 [plasma membrane]
amino acid transmembrane transporter activity of Vesicular inhibitory amino acid transporter [Clathrin Sculpted Gamma-amino butyric acid transport vesicle membarne]
AMPA receptors (heteromers) with phopho GluR2 [plasma membrane]
AMPA receptors containing GluR1 (heteromers) [endocytic vesicle membrane]
AMPA receptors containing GluR1 (heteromers) [plasma membrane]
AMPA receptors containing GluR1 (homomers) [endocytic vesicle membrane]
AMPA receptors containing GluR1 and GluR2 [endocytic vesicle membrane]
AMPA receptors containing GluR1 and GluR2 [plasma membrane]
AMPA receptors containing GluR1 and Phospho GluR2 [plasma membrane]
AMPA receptors containing GluR2 (heteromers) [endocytic vesicle membrane]
AMPA receptors containing GluR2 (heteromers) [plasma membrane]
AMPA receptors containing GluR2 (homomers) [endocytic vesicle membrane]
AMPA receptors containing GluR2 (homomers) [plasma membrane]
AMPA receptors with phopho GluR2 (homomers) [plasma membrane]
AP2 complex [endocytic vesicle membrane]
AP2A [endocytic vesicle membrane]
AP2A1 [endocytic vesicle membrane] UKENBCdORHGUR
AP2A2-3 [endocytic vesicle membrane] UKENBCdORHGUR
AP2B1-1 [endocytic vesicle membrane] UKENBCdORHGURPPPDDD
AP2M1-2 [endocytic vesicle membrane] UKENBCdORHGURPD
AP2S1-1 [endocytic vesicle membrane] UKENBCdORHGUR
Astrocytic Glutamate-Glutamine Uptake And Metabolism [Homo sapiens]
ATP sensitive K+ channels-inwardly rectifying (SUR1) [plasma membrane]
ATP sensitive Potassium channels [Homo sapiens]
ATP sensitive Potassium channels [plasma membrane]
ATPase activity of Vesicle-fusing ATPase [cytosol]
Binding of acetylcholine to highly calcium permeable postsynaptic nicotinic acetylcholine receptors [Homo sapiens]
Binding of acetylcholine to highly sodium permeable acetylcholine receptors [Homo sapiens]
Binding of acetylcholine to highly calcium permeable acetylcholine receptors [Homo sapiens]
Binding of cAMP to HCN channels [Homo sapiens]
Ca impermeable AMPA receptor ligand binding [Homo sapiens]
Ca impermeable AMPA receptor ligand complex [plasma membrane]
Ca impermeable AMPA receptors (with phospho GluR2 S880) [plasma membrane]
Ca impermeable AMPA receptors [endocytic vesicle membrane]
Ca impermeable AMPA receptors [plasma membrane]
Ca permeable AMPA receptor ligand binding [Homo sapiens]
Ca permeable AMPA receptor ligand complex [plasma membrane]
Ca permeable AMPA receptors [endocytic vesicle membrane]
Ca permeable AMPA receptors [plasma membrane]
Ca/calmodulin activated Adenylate Cyclase [plasma membrane]
Ca2+ activated K+ channels [Homo sapiens]
Ca2+ influx through voltage gated Ca2+ channels [Homo sapiens]
CACNA1A [plasma membrane] UKENBCdOOOORRHHGURR
CACNA1B [plasma membrane] UKENBCdORHGUR
CACNA1E [plasma membrane] UKEOGU
CACNA2D1(1-?) [extracellular region] UKEOGU
CACNA2D2(19-1150) [extracellular region] UKEGU
CACNA2D3 [extracellular region] UKENBCdRHGUR
CACNB1 [cytosol] UKENBCdORHGURR
CACNB2 [cytosol] UKENBCdORHGUR
CACNB3 [cytosol] UKENBCdORHGUR
CACNB4 [cytosol] UKENBCdOOORRHHGURRPD
CACNG2 [endocytic vesicle membrane] UKENBCdORHGUR
CACNG2 [plasma membrane] UKENBCdORHGUR
CACNG3 [endocytic vesicle membrane] UKENBCdORHGUR
CACNG3 [plasma membrane] UKENBCdORHGUR
CACNG4 [endocytic vesicle membrane] UKENBCdORHGUR
CACNG4 [plasma membrane] UKENBCdORHGUR
CACNG8 [endocytic vesicle membrane] UKENBCdORHGUR
CACNG8 [plasma membrane] UKENBCdORHGUR
calmodulin-dependent protein kinase activity of Calcium/calmodulin-dependent protein kinase kinase 1 [cytosol]
calmodulin-dependent protein kinase activity of CaMKII [cytosol]
calmodulin-dependent protein kinase activity of CaMKII [endocytic vesicle membrane]
CaMKII [cytosol]
CaMKII [endocytic vesicle membrane]
CaMKII [nucleoplasm]
CaMKII [plasma membrane]
CaMKII alpha/beta [cytosol]
CaMKII alpha/beta subunits [nucleoplasm]
CaMKII alpha/beta subunits [plasma membrane]
CaMKII delta/gamma [cytosol]
CaMKII delta/gamma subunits [plasma membrane]
CaMKII enters cytoplasm [Homo sapiens]
CaMKII enters nucleus [Homo sapiens]
CaMKII gamma/delta subunits [nucleoplasm]
CaMKII subunits alpha/beta [endocytic vesicle membrane]
CaMKII subunits delta/gamma [endocytic vesicle membrane]
CaMKII-Ca2+/Calmodulin [plasma membrane]
CAMKK1 [cytosol] UKENBCdRRHHGURR
cation channel activity of HCN channel bound to cAMP [plasma membrane]
CH3COO- [extracellular region] CCP
CHRNA2 [plasma membrane] UKENBCdOORHGUR
CHRNA3 [plasma membrane] UKENBCdORHGUR
CHRNA4 [plasma membrane] UKENBCdOORHGUR
CHRNA5 [plasma membrane] UKENBCdORHGUR
CHRNA6 [plasma membrane] UKENBCdORHGUR
CHRNA7 [plasma membrane] UKKENNNBBBCCCdddORHGURR
CHRNA9 [plasma membrane] UKENBCdORHGUR
CHRNB2 [plasma membrane] UKENBCdOORHGUR
CHRNB3 [plasma membrane] UKENBCdORHGUR
CHRNB4 [plasma membrane] UKENBCdORHGUR
CHRND [plasma membrane] UKENBCdOOOORHGUR
CHRNE [plasma membrane] UKENBCdOOOOORHGUR
CHRNG [plasma membrane] UKENBCdOOORHGUR
Classical Kir channels [Homo sapiens]
COMT [plasma membrane] UKENBCdORRHHGURR
Conversion of GABA to Succinate Semialdehyde [Homo sapiens]
Conversion of succinate semialdehyde to succinate [Homo sapiens]
CPLX1 [cytosol] UKGU
CREB phosphorylation through the activation of Adenylate Cyclase [Homo sapiens]
CREB phosphorylation through the activation of CaMKII [Homo sapiens]
CREB phosphorylation through the activation of CaMKK [Homo sapiens]
CREB phosphorylation through the activation of Ras [Homo sapiens]
DA [extracellular region] CCP
Degradation of GABA [Homo sapiens]
Delta, epsilon, gamma subunits of acetylcholine receptor [plasma membrane]
DLG1 [cytosol] UKENBCdORHGURPD
DLG4 [endocytic vesicle membrane] UKEOGUPD
DNAJC5 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdRHGUR
DNAJC5 [plasma membrane] UKENBCdRHGUR
Docked acetylcholine loaded Synaptic Vesicle [plasma membrane]
Docked dopamine loaded synaptic vesicle [plasma membrane]
Docked GABA loaded synaptic vesicle [plasma membrane, clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane]
Docked Noradrenalin loaded synaptic vesicle [plasma membrane]
Docked serotonin loaded synaptic vesicle [plasma membrane]
Dopamine clearance from the synaptic cleft [Homo sapiens]
Dopamine loaded synaptic vesicle [clathrin-sculpted monoamine transport vesicle membrane]
Dopamine Neurotransmitter Release Cycle [Homo sapiens]
Dopamine synaptic vesicle docking and priming [Homo sapiens]
EAAC1 [plasma membrane] UKENBCdORHGUR
Edited GRIK 1 (GluR5) [plasma membrane] UKENBCdORHGUR
Edited GRIK1 and GRIK2 heteroteramer [plasma membrane]
Edited GRIK1 homomer [plasma membrane]
Edited GRIK2 (GluR6) [plasma membrane] UKENBCdORHGUR
Edited GRIK2 homomer [plasma membrane]
Edited Kainate Receptor binds glutamate [Homo sapiens]
Edited Kainate Receptor-glutamate complex [plasma membrane]
Edited Kainate receptors [plasma membrane]
Empty Glutamate Synaptic Vesicle [cytosol]
Endocytosis of Ca impermeable AMPA receptors [Homo sapiens]
Enzymatic degradation of dopamine by COMT [Homo sapiens]
Enzymatic degradation of Dopamine by monoamine oxidase [Homo sapiens]
EPB41L1 [cytosol] UKENBCdORHGUR
EPB41L1 [plasma membrane] UKENBCdORHGUR
excitatory extracellular ligand-gated ion channel activity of Ca impermeable AMPA receptors [plasma membrane]
excitatory extracellular ligand-gated ion channel activity of Ca permeable AMPA receptors [plasma membrane]
excitatory extracellular ligand-gated ion channel activity of NMDA receptor ligand complex [plasma membrane]
G protein gated Potassium channels [Homo sapiens]
G-protein activated inward rectifier potassium channel activity of GABA B receptor G-protein beta-gamma and Kir3 channel complex [extracellular region]
G-protein beta subunits (1-3) [plasma membrane]
G-protein beta-gamma subunits [plasma membrane]
G-protein Gamma subunits [plasma membrane]
G-protein-coupled receptor binding activity of GRIK3 homomer glutamate complex [plasma membrane]
GABA [mitochondrial matrix] CC
GABA A (rho) receptor activation [Homo sapiens]
GABA A receptor activation [Homo sapiens]
GABA B receptor activation [Homo sapiens]
GABA B receptor G-protein beta-gamma and Kir3 channel complex [plasma membrane]
GABA B receptor G-protein beta-gamma complex [plasma membrane]
GABA Loaded synaptic vesicle [clathrin-sculpted gamma-aminobutyric acid transport vesicle, cytosol]
GABA loaded synaptic vesicle Docking and Priming [Homo sapiens]
GABA receptor activation [Homo sapiens]
GABA synthesis [Homo sapiens]
GABA synthesis, release, reuptake and degradation [Homo sapiens]
GABRA2:ARHGEF9 [plasma membrane]
GABRQ [plasma membrane] UKENBCdORHGUR
GAD Complexes [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane]
GAD1 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdOORHGUR
GAD1 homodimer [cytosol]
GAD2 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdORHGURPD
GAD2 [plasma membrane] UKENBCdORHGURPD
Gamma subunit of VGCC (Stargazin) [endocytic vesicle membrane]
Gamma subunit of VGCC (Stargazin) [plasma membrane]
GluR1 receptors [plasma membrane]
Glutamate binding to NMDA receptor [Homo sapiens]
Glutamate Binding, Activation of AMPA Receptors and Synaptic Plasticity [Homo sapiens]
glutamate decarboxylase activity of GAD Complexes [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane]
glutamate decarboxylase activity of GAD1 homodimer [cytosol]
Glutamate Neurotransmitter Release Cycle [Homo sapiens]
Glutamate synaptic vesicle docking and priming [Homo sapiens]
glutamate uptake by astrocytes [Homo sapiens]
Glutamine transport from astrocytes [Homo sapiens]
GRIA3,GRIA4 [endocytic vesicle membrane]
GRIA3,GRIA4 [plasma membrane]
GRIA4 [endocytic vesicle membrane] UKENBCdORHGUR
GRIA4 [plasma membrane] UKENBCdORHGUR
GRIK 2 homomer [plasma membrane]
GRIK 3 homomer [plasma membrane]
GRIK1 [plasma membrane] UKENBCdORHGUR
GRIK1 and 2 heterotetramer [plasma membrane]
GRIK1 homomer [plasma membrane]
GRIK1, GRIK2, GRIK3 [plasma membrane]
GRIK2 [plasma membrane] UKENBCdORHGUR
GRIK2 interacting proteins [plasma membrane]
GRIK3 [plasma membrane] UKENBCdORHGUR
GRIK3 homomer binds glutamate [Homo sapiens]
GRIK3 homomer glutamate complex [plasma membrane]
GRIK4 [plasma membrane] UKENBCdORHGUR
GRIK4 heteromer with GRIK1/2/3 [plasma membrane]
GRIK4 interacting proteins [plasma membrane]
GRIK5 [plasma membrane] UKENBCdORHGUR
GRIK5 heteromer with GRIk1/2/3 [plasma membrane]
GRIN1 [plasma membrane] UKENBCdORHGURPD
GRIN2A [plasma membrane] UKENBCdORHGUR
GRIN2B [plasma membrane] UKENBCdORHGURPPPDDD
GRIN2C [plasma membrane] UKENBCdORHGUR
GRIN2D [plasma membrane] UKENBCdORHGUR
GRIP1 [cytosol] UKEOGU
GRIP1 [plasma membrane] UKEOGU
GRIP1/GRIP2 [cytosol]
GRIP1/GRIP2 [plasma membrane]
GRIP2 [cytosol] UKENBCdRHGURPPDD
GRIP2 [plasma membrane] UKENBCdRHGURPPDD
H+ [clathrin-sculpted acetylcholine transport vesicle lumen] CCP
H+ [clathrin-sculpted monoamine transport vesicle lumen] CCP
HCN channel bound to cAMP [plasma membrane]
HCN channel Homomer of subunit HCN1 [plasma membrane]
HCN channel Homomer of subunit HCN3 [plasma membrane]
HCN channel Homomer of subunit HCN4 [plasma membrane]
HCN channel Homomer of subunt HCN2 [plasma membrane]
HCN channels [Homo sapiens]
HCN channels [plasma membrane]
HCN1 [plasma membrane] UKENBCdORHGUR
HCN2 [plasma membrane] UKENBCdORHGUR
HCN3 [plasma membrane] UKENBCdRHGUR
HCN4 [plasma membrane] UKENBCdOORHGUR
Heterodimer of GAD1 and GAD2 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane]
HIAA [mitochondrial matrix] CC
HIALD [mitochondrial matrix] CCP
Highly calcium permeable nicotinic acetylcholine receptors [Homo sapiens]
Highly calcium permeable nicotinic acetylcholine receptors [plasma membrane]
Highly calcium permeable postsynaptic nicotinic acetylcholine receptors [plasma membrane]
Highly calcium permeable postsynaptic nicotinic acetylcholine receptors [Homo sapiens]
Highly sodium permeable acetylcholine nicotinic receptors [Homo sapiens]
Highly sodium permeable nicotinic acetylcholine receptors [plasma membrane]
Homodimer of GAD2 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane]
HSPA8 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdORHGUR
HSPA8 [plasma membrane] UKENBCdORHGUR
Inhibition of voltage gated Ca2+ channels via Gbeta/gamma subunits [Homo sapiens]
Inhibition of adenylate cyclase pathway [Homo sapiens]
inward rectifier potassium channel activity of ATP sensitive K+ channels-inwardly rectifying (SUR1) [plasma membrane]
inward rectifier potassium channel activity of kir2x heteroteramer [plasma membrane]
inward rectifier potassium channel activity of Potassium transport channels (Kir 1.1 and Kir 4.1/5.1) [plasma membrane]
Inwardly rectifying K+ channels [Homo sapiens]
Ionotropic activity of Kainate Receptors [Homo sapiens]
kaiante Receptors [plasma membrane]
kainate receptor binds glutamate [Homo sapiens]
Kainate receptor-glutamate complex [plasma membrane]
Kainate receptor-glutamate-Gprotein complex [plasma membrane]
KCNA1 [plasma membrane] UKENBCdOORHGUR
KCNA10 [plasma membrane] UKENBCdRHGUR
KCNA2 [plasma membrane] UKENBCdORHGUR
KCNA3 [plasma membrane] UKENBCdORHGUR
KCNA4 [plasma membrane] UKENBCdORHGUR
KCNA5 [plasma membrane] UKENBCdORHGUR
KCNA6 [plasma membrane] UKENBCdORHGUR
KCNA7 [plasma membrane] UKENBCdRHGUR
KCNAB2 [plasma membrane] UKENBCdORHGURPD
KCNAB3 [plasma membrane] UKENBCdORHGUR
KCNB2 [plasma membrane] UKENBCdORHGUR
KCNC1 [plasma membrane] UKENBCdORHGUR
KCNC2 [plasma membrane] UKENBCdRHGUR
KCNC3 [plasma membrane] UKENBCdOORHGUR
KCNC4 [plasma membrane] UKENBCdORRRHHHGURRRPPDD
KCND1 [plasma membrane] UKENBCdORHGUR
KCND2 [plasma membrane] UKENBCdORHGUR
KCND3 [plasma membrane] UKENBCdORHGURPD
KCNF1 [plasma membrane] UKENBCdORHGUR
KCNG1 [plasma membrane] UKENBCdORHGUR
KCNG3 [plasma membrane] UKENBCdORHGUR
KCNG4 [plasma membrane] UKENBCdORRHHGURR
KCNH2 [plasma membrane] UKENBCdOORRHHGURRPPDD
KCNH3 [plasma membrane] UKENBCdORHGUR
KCNH4 [plasma membrane] UKENBCdORHGUR
KCNH5 [plasma membrane] UKENBCdORHGUR
KCNH6 [plasma membrane] UKENBCdORHGUR
KCNH7 [plasma membrane] UKENBCdORHGUR
KCNH8 [plasma membrane] UKENBCdORHGUR
KCNJ1 [plasma membrane] UKENBCdOORRHHGURRRRR
KCNJ14 [plasma membrane] UKENBCdORRHHGURR
KCNJs transport K+ from cytosol to extracellular region [Homo sapiens]
KCNK1 [plasma membrane] UKENBCdORHGUR
KCNK10 [plasma membrane] UKENBCdORHGUR
KCNK13 [plasma membrane] UKENBCdORHGUR
KCNK16 [plasma membrane] UKENBCdORHGUR
KCNK17 [plasma membrane] UKENBCdORHGUR
KCNK18 [plasma membrane] UKENBCdRHGUR
KCNK2 [plasma membrane] UKENBCdORHGUR
KCNK3 [plasma membrane] UKENBCdORHGUR
KCNK4 [plasma membrane] UKENBCdORRHHGUR
KCNK6 [plasma membrane] UKENBCdORHGUR
KCNK7 [plasma membrane] UKENBCdORHGUR
KCNK7 homodimers [plasma membrane]
KCNK9 [plasma membrane] UKENBCdORHGUR
KCNN1 [plasma membrane] UKENBCdORHGUR
KCNN2 [plasma membrane] UKENBCdORHGURR
KCNN3 [plasma membrane] UKENBCdORHGUR
KCNN4 [plasma membrane] UKENBCdORHGUR
KCNQ1 [plasma membrane] UKENBCdOOOOORHGUR
KCNQ4 [plasma membrane] UKENBCdOORHGUR
KCNQ5 [plasma membrane] UKENBCdORHGUR
KCNS1 [plasma membrane] UKENBCdORHGUR
KCNS2 [plasma membrane] UKENBCdORHGUR
KCNV1 [plasma membrane] UKENBCdRHGUR
KCNV2 [plasma membrane] UKENBCdOORHGUR
kinase activity of Activated Raf [plasma membrane]
kinase activity of CaMKII [cytosol]
kinase activity of PDK1 [nucleoplasm]
kinase activity of Phospho(S221,S363,S380,T573)- ribosomal S6 kinase [nucleoplasm]
kinase activity of PRKACB-like proteins [nucleoplasm]
KIR 1.1 homotetramer [plasma membrane]
Kir 4.1/5.1 heterotetramer [plasma membrane]
Kir channels 2x [plasma membrane]
kir2x heteroteramer [plasma membrane]
Kv1 subunits of voltage gated potassium channels [plasma membrane]
Kv10 subunits of voltage gated potassium channels [plasma membrane]
Kv11 subunits of voltage gated potassium channels [plasma membrane]
Kv12 subunit of voltage gated potassium channels [plasma membrane]
Kv2 subunits of voltage gated potassium channels [plasma membrane]
Kv3 subunits of voltage gated potassium channels [plasma membrane]
Kv4 subunits of voltage gated potassium channels [plasma membrane]
Kv5 subunit of voltage gated potassium channels [plasma membrane]
Kv6 subunits of voltage gated potassium channels [plasma membrane]
Kv7 subunits of voltage gated potassium channels [plasma membrane]
Kv8 subunits of voltage gated potassium channels [plasma membrane]
Kv9 subunits of voltage gated potassium channels [plasma membrane]
L-amino acid transmembrane transporter activity of System N amino acid transporter 1 [plasma membrane]
L-Gln [extracellular region] CCP
L-Glutamate loading of synaptic vesicle [Homo sapiens]
L-Glutamate uptake by neurons [Homo sapiens]
L-glutamine 621 replaced with L-arginine
L-glutamine 636 replaced with L-arginine
L-Glutamine transport into neurons [Homo sapiens]
L-isoleucine 567 replaced with L-valine
ligand-gated ion channel activity of Edited Kainate receptors [plasma membrane]
ligand-gated ion channel activity of Highly calcium permeable nicotinic acetylcholine receptors [plasma membrane]
ligand-gated ion channel activity of Highly calcium permeable postsynaptic nicotinic acetylcholine receptors [plasma membrane]
ligand-gated ion channel activity of Highly sodium permeable nicotinic acetylcholine receptors [plasma membrane]
ligand-gated ion channel activity of kaiante Receptors [plasma membrane]
Loading of dopamine into synaptic veiscles [Homo sapiens]
Loading of GABA into clathrin sculpted GABA transport vesicle lumen [Homo sapiens]
loading of Serotonin in synaptic vesicles [Homo sapiens]
MDM2 [endocytic vesicle membrane] UKENBCdORHGURPPPPPPPPPPPDDDDDDDDDDD
MDM2 [plasma membrane] UKENBCdORHGURPPPPPPPPPPPDDDDDDDDDDD
Membrane depolarization upon activation of Ca impermeable AMPA receptors [Homo sapiens]
Metabolism of Noradrenaline [Homo sapiens]
Metabolism of serotonin [Homo sapiens]
Methylation of 3,4-dihydroxyphenylacetic acid to homovanillic acid [Homo sapiens]
methylation of Dopamine to form 3-Methoxytyramine [Homo sapiens]
methyltransferase activity of Catechol O-methyltransferase [plasma membrane]
monoamine transmembrane transporter activity of Sodium dependent Dopamine transporter [plasma membrane]
monoamine transmembrane transporter activity of Sodium dependent Serotonin transporter [plasma membrane]
monoamine transmembrane transporter activity of Vesicular monoamine transporter VMAT2 [clathrin sculpted monoamine transport vesicle membrane]
NAd [clathrin-sculpted glutamate transport vesicle lumen] CC
NAd [extracellular region] CC
NCALD [cytosol] UKENBCdORRRRRRRRHHHHHHHHGURRRRRRRR
NEFL [cytosol] UKENBCdOOORHGUR
neurotransmitter transporter activity of OCT2 [plasma membrane]
NMDA receptor complex [plasma membrane]
NMDA receptor ligand complex [plasma membrane]
NMDA receptor-Mg complex [plasma membrane]
Noradrenalin loaded synaptic vesicle [clathrin-coated endocytic vesicle]
Noradrenalin synaptic vesicle docking and priming [Homo sapiens]
Noradrenaline clearance from the synaptic cleft [Homo sapiens]
NR1 interacting proteins [plasma membrane]
NR2 interacting proteins [plasma membrane]
NR2 subunits [plasma membrane]
O-Acetylcholine bound to Acetylcholine receptor [plasma membrane]
O-acteylcholine bound to calcium permeable postsynaptic nicotinic acetylcholine receptors [plasma membrane]
O-phospho-L-serine at 221
O-phospho-L-serine at 338
O-phospho-L-serine at 363
O-phospho-L-serine at 380
O-phospho-L-threonine at 286
O-phospho-L-threonine at 287
O-phospho-L-threonine at 287
O-phospho-L-threonine at 287
O-phospho-L-threonine at 573
O-phospho-L-threonine at 573
Octamer of Voltage gated K+ channels [plasma membrane]
Oxidation of 3-Methoxytyramine to homovanillic acid [Homo sapiens]
oxidation of dopamine to 3,4dihydroxyphenylacetic acid (DOPAC) [Homo sapiens]
p-CAMKK1 [cytosol] UKENBCdRRHHGURR
p-S218,S360,S377,T570-RPS6KA2 [nucleoplasm] UKENBCdORHGUR
p-S221,S363,S380,T573-RPS6KA1 [nucleoplasm] UKENBCdORHGUR
p-S221,S363,S380,T573-RPS6KA6 [nucleoplasm] UKENBCdORHGUR
p-S227,S369,S386,T573-RPS6KA3 [nucleoplasm] UKENBCdOORHGUR
p-S338-BRAF [plasma membrane] UKENBCdOOOORHGURPPDD
p-S338-RAF1 [plasma membrane] UKENBCdORHGURPPPPPDDDDD
p-S360,S377,T570-RPS6KA2 [cytosol] UKENBCdORHGUR
p-S360,S377,T570-RPS6KA2 [nucleoplasm] UKENBCdORHGUR
p-S363,S380,T573-RPS6KA1 [cytosol] UKENBCdORHGUR
p-S363,S380,T573-RPS6KA1 [nucleoplasm] UKENBCdORHGUR
p-S363,S380,T573-RPS6KA6 [cytosol] UKENBCdORHGUR
p-S363,S380,T573-RPS6KA6 [nucleoplasm] UKENBCdORHGUR
p-S369,S386,T573-RPS6KA3 [cytosol] UKENBCdOORHGUR
p-S369,S386,T573-RPS6KA3 [nucleoplasm] UKENBCdOORHGUR
p-T286-CAMK2A [cytosol] UKENBCdORHGUR
p-T286-CAMK2A [endocytic vesicle membrane] UKENBCdORHGUR
p-T286-CAMK2A [nucleoplasm] UKENBCdORHGUR
p-T286-CAMK2A [plasma membrane] UKENBCdORHGUR
p-T287-CAMK2B [cytosol] UKENBCdORHGUR
p-T287-CAMK2B [endocytic vesicle membrane] UKENBCdORHGUR
p-T287-CAMK2B [nucleoplasm] UKENBCdORHGUR
p-T287-CAMK2B [plasma membrane] UKENBCdORHGUR
p-T287-CAMK2D [cytosol] UKENBCdORHGURRR
p-T287-CAMK2D [endocytic vesicle membrane] UKENBCdORHGURRR
p-T287-CAMK2D [nucleoplasm] UKENBCdORHGURRR
p-T287-CAMK2D [plasma membrane] UKENBCdORHGURRR
p-T287-CAMK2G [cytosol] UKEOGU
p-T287-CAMK2G [endocytic vesicle membrane] UKEOGU
p-T287-CAMK2G [nucleoplasm] UKEOGU
p-T287-CAMK2G [plasma membrane] UKEOGU
PDPK1 [nucleoplasm] UKENBCdORHGURPPPPPPPPPPPPPDDDDDDDDDDDDD
Phophorylation by PDK1 [Homo sapiens]
Phospho(S221,S363,S380,T573)- ribosomal S6 kinase [nucleoplasm]
Phospho(S363,S380,T573)- ribosomal S6 kinase [nucleoplasm]
Phospho(S363,S380,T573)-ribosomal S6 kinase [cytosol]
phosphorylated residue at unknown position
Phosphorylation by MAPK/ERK [Homo sapiens]
Phosphorylation of CREB by CaMKII [Homo sapiens]
Phosphorylation of CREB by CaMKIV [Homo sapiens]
Phosphorylation of CREB by PKA [Homo sapiens]
Phosphorylation of CREB by ribosomal protein S6 kinase [Homo sapiens]
PICK1 [endocytic vesicle membrane] UKENBCdORRRHHHGURRR
PICK1 [plasma membrane] UKENBCdORRRHHHGURRR
Post NMDA receptor activation events [Homo sapiens]
Postsynaptic nicotinic acetylcholine receptors [Homo sapiens]
potassium channel activity of BK channel [plasma membrane]
potassium channel activity of Intermediate conductance calcium-activated potassium channel protein 4 [plasma membrane]
potassium channel activity of Small conductance Ca2+ activated potassium channel [plasma membrane]
potassium channel activity of TALK 1and 2 [plasma membrane]
potassium channel activity of TASK [plasma membrane]
potassium channel activity of THIK1 homodimers [plasma membrane]
potassium channel activity of TREK homodimers [plasma membrane]
potassium channel activity of TRESK homodimer [plasma membrane]
potassium channel activity of TWIK channels [plasma membrane]
Potassium Channels [Homo sapiens]
Potassium transport channels [Homo sapiens]
Potassium transport channels (Kir 1.1 and Kir 4.1/5.1) [plasma membrane]
Presynaptic function of Kainate receptors [Homo sapiens]
Presynaptic nicotinic acetylcholine receptors [Homo sapiens]
RAB3A [clathrin-sculpted acetylcholine transport vesicle membrane] UKENBCdORHGUR
RAB3A [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdORHGUR
RAB3A [clathrin-sculpted glutamate transport vesicle membrane] UKENBCdORHGUR
RAB3A [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdORHGUR
RAB3A [plasma membrane] UKENBCdORHGUR
Raf activation [Homo sapiens]
Ras activation [Homo sapiens]
Ras activation uopn Ca2+ infux through NMDA receptor [Homo sapiens]
Ras guanyl-nucleotide exchange factor activity of RasGRF:Ca/calmodulin [plasma membrane]
RasGRF [plasma membrane]
RASGRF1 [plasma membrane] UKENBCdORHGURR
RASGRF2 [plasma membrane] UKENBCdRHGUR
RasGRF:Ca/calmodulin [plasma membrane]
RasGTP-B raf compex [plasma membrane]
Re-acidification of clathrin sculpted monoamine tranport vesicle lumen [Homo sapiens]
Re-acidification of the clathrin sculpted acetylcholine transport vesicle [Homo sapiens]
Release of acetylcholine at the synapse [Homo sapiens]
Release of docked dopamine loaded synaptic vesicle [Homo sapiens]
Release of docked serotonin loaded synaptic vesicle [Homo sapiens]
Release of GABA at the synapse [Homo sapiens]
release of L-Glutamate at the synapse [Homo sapiens]
Release of noradrenaline at the synapse [Homo sapiens]
Reuptake of dopamine from the synaptic cleft into neurons [Homo sapiens]
Reuptake of GABA [Homo sapiens]
Reuptake of serotonin from the synapse [Homo sapiens]
Ribosomal S6 kinase [cytosol]
RIMS1 [cytosol] UKENBCdOORHGURPD
RPS6KA1 [cytosol] UKENBCdORHGUR
RPS6KA2 [cytosol] UKENBCdORHGUR
RPS6KA3 [cytosol] UKENBCdOORHGUR
RPS6KA6 [cytosol] UKENBCdORHGUR
RSK activation [Homo sapiens]
Serotonin clearance from the synaptic cleft [Homo sapiens]
Serotonin loaded synaptic vesicle [clathrin-sculpted monoamine transport vesicle membrane]
Serotonin loaded synaptic vesicle docking and priming [Homo sapiens]
SLC17A7 [clathrin-sculpted glutamate transport vesicle membrane] UKENBCdRHGUR
SLC17A7 [plasma membrane] UKENBCdRHGUR
SLC18A2 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdORHGUR
SLC18A2 [plasma membrane] UKENBCdORHGUR
SLC18A3 [plasma membrane] UKENBCdORHGUR
SLC1A2 [plasma membrane] UKENBCdORHGUR
SLC1A3 [plasma membrane] UKENBCdORHGUR
SLC1A6 [plasma membrane] UKENBCdORHGUR
SLC1A7 [plasma membrane] UKENBCdORHGUR
SLC22A2 [plasma membrane] UKENBCdRHGUR
SLC32A1 [plasma membrane] UKENBCdRHGUR
SLC38A1 [plasma membrane] UKENBCdRRHHGURR
SLC6A3 [plasma membrane] UKENBCdORHGUR
Small conductance Ca2+ activated potassium channel [plasma membrane]
Small conductance Ca2+ activated potassium channel subunits [plasma membrane]
SNARE binding activity of Acetylcholine Loaded Synaptic Vesicle [cytosol]
SNARE binding activity of Docked acetylcholine loaded Synaptic Vesicle [plasma membrane]
SNARE binding activity of Docked dopamine loaded synaptic vesicle [plasma membrane]
SNARE binding activity of Docked GABA loaded synaptic vesicle [plasma membrane]
SNARE binding activity of Docked Noradrenalin loaded synaptic vesicle [plasma membrane]
SNARE binding activity of Docked serotonin loaded synaptic vesicle [plasma membrane]
SNARE binding activity of Dopamine loaded synaptic vesicle [clathrin sculpted monoamine transport vesicle membrane]
SNARE binding activity of GABA Loaded synaptic vesicle [Clathrin Sculpted Gamma-aminobutyric acid transport vesicle]
SNARE binding activity of Noradrenalin loaded synaptic vesicle [clathrin-coated endocytic vesicle]
SNARE binding activity of Serotonin loaded synaptic vesicle [clathrin sculpted monoamine transport vesicle membrane]
Sodium dependent Serotonin transporter [plasma membrane]
STXBP1-1 [cytosol] UKENBCdORHGUR
succinate-semialdehyde dehydrogenase activity of Succinate-semialdehyde dehydrogenase, mitochondrial [mitochondrial matrix]
SYN1 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdOORHGUR
SYN2 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdOGUR
SYN3 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdORHGUR
Synapsin [clathrin-sculpted monoamine transport vesicle membrane]
Synthesis of GABA by GAD1 [Homo sapiens]
Synthesis of GABA by GAD2 [Homo sapiens]
SYT1 [clathrin-sculpted acetylcholine transport vesicle membrane] UKENBCdORHGUR
SYT1 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdORHGUR
SYT1 [clathrin-sculpted glutamate transport vesicle membrane] UKENBCdORHGUR
SYT1 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdORHGUR
TALK 1and 2 [plasma membrane]
TALK 2 homomer [plasma membrane]
TALK1 homomer [plasma membrane]
Tandem of pore domain in a weak inwardly rectifying K+ channels (TWIK) [Homo sapiens]
Tandem pore domain halothane-inhibited K+ channel (THIK) [Homo sapiens]
Tandem pore domain potassium channels [Homo sapiens]
TARP-PSD95-Mdm2 [endocytic vesicle membrane]
TARP-PSD95-Mdm2 [plasma membrane]
TASK 1 homomer [plasma membrane]
TASK [plasma membrane]
TASK1/3 heterodimer [plasma membrane]
THIK1 homodimers [plasma membrane]
Trafficking of AMPA receptors [Homo sapiens]
Trafficking of GluR1-containing AMPA receptors [Homo sapiens]
Trafficking of GluR2-containing AMPA receptors [Homo sapiens]
Trafficking of GluR2-containing AMPA receptors to extrasynaptic sites [Homo sapiens]
Trafficking of GluR2-containing AMPA receptors to synapse [Homo sapiens]
Tranport of L-Glutamate (mitochondrial matrix) to cytosol [Homo sapiens]
Transport of L-Glutamine (cytosol) to mitochondrial matrix [Homo sapiens]
TREK homodimers [plasma membrane]
TREK members [plasma membrane]
TRESK homodimer [plasma membrane]
TWIK channels [plasma membrane]
TWIK related potassium channel (TREK) [Homo sapiens]
TWIK-related alkaline pH activated K+ channel (TALK) [Homo sapiens]
TWIK-related spinal cord K+ channel (TRESK) [Homo sapiens]
TWIK-releated acid-sensitive K+ channel (TASK) [Homo sapiens]
TWIK1 dimers [plasma membrane]
TWIK2 dimers [plasma membrane]
Unblocking of NMDA receptor [Homo sapiens]
Unblocking of NMDA receptor, glutamate binding and activation [Homo sapiens]
UNC13B [cytosol] UKENBCdORHGUR
Uptake of Noradrenaline [Homo sapiens]
VAMP2 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] UKENBCdORHGURPD
VAMP2 [clathrin-sculpted glutamate transport vesicle membrane] UKENBCdORHGURPD
VAMP2 [clathrin-sculpted glutamate transport vesicle membrane] UKENBCdORHGURPD
VAMP2 [clathrin-sculpted monoamine transport vesicle membrane] UKENBCdORHGURPD
VAMP2 [plasma membrane] UKENBCdORHGURPD
Voltage gated potassium channel subunits Kv1-12 [plasma membrane]
Voltage gated Potassium channels [Homo sapiens]
Voltage-gated K+ channel beta subunits [plasma membrane]
voltage-gated potassium channel activity of Octamer of Voltage gated K+ channels [plasma membrane]