| + |
glutamic acid | up-regulates activity 
chemical activation
|
GRID1 |
0.8 |
| Identifier |
Residue |
Sequence |
Organism |
Cell Line |
| SIGNOR-264468 |
|
|
Homo sapiens |
|
| pmid |
sentence |
| 27586965 |
Glutamate is the major excitatory neurotransmitter in the mammalian central nervous system (CNS) and exerts its biological activity through a variety of receptors. Glutamate receptors (GluRs) are divided into two major classes on the basis of the mechanism by which they relay their signal: the ionotropic glutamate receptors (iGluRs), which are ligand-gated cation channels, and the metabotropic glutamate receptors (mGluRs) that are G protein-coupled receptors |
|
| Publications: |
1 |
Organism: |
Homo Sapiens |
| + |
GRID1 | up-regulates quantity
relocalization
|
calcium(2+) |
0.8 |
| Identifier |
Residue |
Sequence |
Organism |
Cell Line |
| SIGNOR-264951 |
|
|
Homo sapiens |
|
| pmid |
sentence |
| 29953871 |
Ca2+ is arguably the most important second messenger in the brain because of its pivotal roles in presynaptic neurotransmitter release, postsynaptic responses, and plasticity induction. iGluRs and mGluRs can generate intracellular Ca2+ signals, albeit by different mechanisms, whose crosstalk has not been thoroughly explored (Figure 2C). iGluRs allow the influx of extracellular Ca2+ upon pore opening. This is widely acknowledged for NMDARs, which have a high Ca2+ conductance, but Ca2+ flux through AMPARs and KARs can still be substantial. |
|
| Publications: |
1 |
Organism: |
Homo Sapiens |
3.0
GRID1
- 
- 