MS4A6E: A Protein Role in Cell Signaling and Intracellular Transport
MS4A6E: A Protein Role in Cell Signaling and Intracellular Transport
MS4A6E, also known as membrane-spanning 4-domains, subfamily A, member 6E, is a protein that plays a crucial role in various cellular processes. It is a member of the MS4A6 family, which is known for its role in cell signaling and Intracellular transport. MS4A6E is expressed in many different tissues and cells, including the brain, heart, and gastrointestinal tract.
One of the key functions of MS4A6E is its role in intracellular signaling. It is involved in a variety of signaling pathways, including the regulation of cell growth, differentiation, and survival. MS4A6E has been shown to play a negative role in the development and progression of various diseases, including cancer.
In addition to its role in intracellular signaling, MS4A6E is also involved in the regulation of cell adhesion. It is a member of the cadherin family, which is known for its role in cell-cell adhesion. MS4A6E has been shown to play a key role in the regulation of cell adhesion, as well as the development and progression of various diseases.
MS4A6E is also involved in the regulation of cell migration. It is a member of the vimentin family, which is known for its role in cell migration. MS4A6E has been shown to play a key role in the regulation of cell migration, as well as the development and progression of various diseases.
One of the challenges in studying MS4A6E is its complex structure. It is a transmembrane protein, which means that it spans the cell membrane. This makes it difficult to study, as the cytoplasm and the cell membrane are not the same. In addition, MS4A6E has a large number of potential binding sites, which makes it difficult to identify and study.
Despite these challenges, research into MS4A6E is ongoing. Many researchers are interested in studying its role in various diseases, including cancer. This is because MS4A6E has been shown to play a negative role in the development and progression of cancer. Researchers are also interested in studying its role in cell signaling and intracellular transport. This is because these processes are important for the proper functioning of cells, and understanding them can provide insights into the mechanisms of many diseases.
In conclusion, MS4A6E is a protein that plays a crucial role in various cellular processes. It is a member of the MS4A6 family, which is known for its role in cell signaling and intracellular transport. MS4A6E is expressed in many different tissues and cells, including the brain, heart, and gastrointestinal tract. It is involved in the regulation of cell growth, differentiation, and survival, as well as the regulation of cell adhesion and cell migration. Despite its complex structure and large number of potential binding sites, research into MS4A6E is ongoing, and its role in various diseases, including cancer, is of great interest.
Protein Name: Membrane Spanning 4-domains A6E
Functions: May be involved in signal transduction as a component of a multimeric receptor complex
More Common Targets
MS4A7 | MS4A8 | MSANTD1 | MSANTD2 | MSANTD3 | MSANTD4 | MSC | MSC-AS1 | MSGN1 | MSH2 | MSH3 | MSH4 | MSH5 | MSH5-SAPCD1 | MSH6 | MSI1 | MSI2 | MSL1 | MSL2 | MSL3 | MSL3P1 | MSLN | MSLNL | MSMB | MSMO1 | MSMP | MSN | MSNP1 | MSR1 | MSRA | MSRA-DT | MSRB1 | MSRB1P1 | MSRB2 | MSRB3 | MSRB3-AS1 | MSS51 | MST1 | MST1L | MST1P2 | MST1R | MSTN | MSTO1 | MSTO2P | MSX1 | MSX2 | MSX2P1 | MT1A | MT1B | MT1DP | MT1E | MT1F | MT1G | MT1H | MT1HL1 | MT1IP | MT1JP | MT1L | MT1M | MT1P1 | MT1P3 | MT1X | MT1XP1 | MT2A | MT3 | MT4 | MTA1 | MTA1-DT | MTA2 | MTA3 | MTAP | MTARC1 | MTARC2 | MTATP6P1 | MTATP8P1 | MTBP | MTCH1 | MTCH2 | MTCL1 | MTCO1P1 | MTCO1P12 | MTCO1P15 | MTCO2P33 | MTCO3P1 | MTCO3P12 | MTCP1 | MTDH | MTERF1 | MTERF2 | MTERF3 | MTERF4 | MTF1 | MTF2 | MTFMT | MTFP1 | MTFR1 | MTFR1L | MTFR2 | MTG1 | MTG2
