SNAPc complex: A drug target and potential biomarker (P17836)

SNAPc complex: A drug target and potential biomarker

The SNAPc complex is a protein that plays a crucial role in the regulation of synaptic plasticity, which is the ability of the brain to change and adapt over time. The SNAPc complex is composed of four subunits: SNAP-1, SNAP-2, SNAP-3, and SNAP-4. Each subunit of the SNAPc complex has distinct functions, and together they work together to regulate the formation and stability of synapses, which are the structural units that connect neurons in the brain.

SNAP-1 is the first subunit of the SNAPc complex, and it is involved in the regulation of the strength of synapses. It does this by interacting with the protein postsynaptic density matrix (PSDM), which is a protein that helps to maintain the structure and stability of synapses. SNAP-1 has been shown to play a key role in the regulation of synaptic plasticity, and it has been identified as a potential drug target.

SNAP-2 is the second subunit of the SNAPc complex, and it is involved in the regulation of synaptic strength. It does this by interacting with the protein known as synaptophysin, which is a protein that helps to maintain the structure and stability of synapses. SNAP-2 has been shown to play a key role in the regulation of synaptic plasticity, and it has been identified as a potential drug target.

SNAP-3 is the third subunit of the SNAPc complex, and it is involved in the regulation of synaptic decay. It does this by interacting with the protein known as Parkin, which is a protein that helps to remove damaged synapses from the brain. SNAP-3 has been shown to play a key role in the regulation of synaptic plasticity, and it has been identified as a potential drug target.

SNAP-4 is the fourth and final subunit of the SNAPc complex, and it is involved in the regulation of synaptic plasticity. It does this by interacting with the protein known as Calbindin, which is a protein that helps to regulate the strength of synapses. SNAP-4 has been shown to play a key role in the regulation of synaptic plasticity, and it has been identified as a potential drug target.

The SNAPc complex is a protein that plays a crucial role in the regulation of synaptic plasticity, and it has been identified as a potential drug target. The SNAP-1, SNAP-2, SNAP-3, and SNAP-4 subunits of the SNAPc complex have distinct functions, and together they work together to regulate the formation and stability of synapses. Further research is needed to fully understand the role of the SNAPc complex in synaptic plasticity and to identify potential drug targets.

Protein Name: SNAPc Complex

More Common Targets

SNAPC1 | SNAPC2 | SNAPC3 | SNAPC4 | SNAPC5 | SNAPIN | SNAR-A1 | SNAR-A2 | SNAR-A3 | SNAR-B1 | SNAR-B2 | SNAR-C1 | SNAR-C3 | SNAR-D | SNAR-E | SNAR-G2 | SNAR-H | SNAR-I | SNARE complex | SNARP complex | SNCA | SNCA-AS1 | SNCAIP | SNCB | SNCG | SND1 | SND1-IT1 | SNED1 | SNF8 | SNF8P1 | SNHG1 | SNHG10 | SNHG11 | SNHG12 | SNHG14 | SNHG15 | SNHG16 | SNHG17 | SNHG18 | SNHG19 | SNHG20 | SNHG22 | SNHG25 | SNHG29 | SNHG3 | SNHG31 | SNHG32 | SNHG4 | SNHG5 | SNHG6 | SNHG7 | SNHG8 | SNHG9 | SNIP1 | SNN | SNORA1 | SNORA10 | SNORA10B | SNORA11 | SNORA11B | SNORA11E | SNORA12 | SNORA13 | SNORA14A | SNORA14B | SNORA15 | SNORA15B-1 | SNORA16A | SNORA16B | SNORA17A | SNORA17B | SNORA18 | SNORA19 | SNORA20 | SNORA21 | SNORA22 | SNORA23 | SNORA24 | SNORA25 | SNORA26 | SNORA27 | SNORA28 | SNORA29 | SNORA2A | SNORA2B | SNORA2C | SNORA30 | SNORA31 | SNORA32 | SNORA33 | SNORA35 | SNORA36A | SNORA36B | SNORA37 | SNORA38 | SNORA38B | SNORA3A | SNORA3B | SNORA4 | SNORA40