Target Name: FAAP100
NCBI ID: G80233
Other Name(s): FLJ22175 | Fanconi anemia core complex-associated protein 100 (isoform b) | C17orf70 | Fanconi anemia core complex 100 kDa subunit | FP100_HUMAN | FA core complex associated protein 100 | Fanconi anemia associated protein 100 kDa subunit | Fanconi anemia core complex associated protein 100 | FA core complex associated protein 100, transcript variant 2 | FAAP100 variant 2 | FLJ30151 | fanconi anemia-associated protein of 100 kDa | Fanconi anemia core complex-associated protein 100 | Fanconi anemia-associated protein, 100kDa

Discovering FAAP100: A Potential Drug Target

Fucosin is a protein that is expressed in various tissues of the body, including the lungs, heart, kidneys, and brain. It is a key player in the regulation of cell growth and differentiation, and is involved in the development and maintenance of tissues. The discovery of fucosin as a potential drug target (FAAP100) has significant implications for the treatment of various diseases.

FAAP100: A Potential Drug Target

The family of proteins known as the Fucosin- associated protein (FAAP) family plays a crucial role in the regulation of cellular processes that are essential for normal tissue growth and development. The FAAP100 protein is one of the members of this family and has been identified as a potential drug target.

The FAAP100 protein is a 22-kDa protein that is expressed in various tissues of the body. It is highly conserved and has a similar structure to other members of the FAAP family. The protein is involved in the regulation of cellular processes that are critical for normal tissue growth and development, such as cell adhesion, migration, and invasion.

FAAP100 is also involved in the regulation of cellular signaling pathways that are essential for the development and maintenance of tissues. For example, the FAAP100 protein is involved in the regulation of the Notch signaling pathway, a critical pathway that regulates the development and maintenance of neural tissues.

FAAP100 has also been shown to play a role in the regulation of cellular apoptosis, a process that is essential for the removal of damaged or dysfunctional cells. The FAAP100 protein is involved in the regulation of apoptosis by promoting the expression of genes that are involved in cell death, and by inhibiting the expression of genes that are involved in cell survival.

FAAP100 has also been shown to play a role in the regulation of cellular angiogenesis, the process by which new blood vessels are formed in the body. The FAAP100 protein is involved in the regulation of angiogenesis by promoting the expression of genes that are involved in blood vessel formation and by inhibiting the expression of genes that are involved in blood vessel regression.

The Potential Benefits of Treating with FAAP100

The discovery of FAAP100 as a potential drug target has significant implications for the treatment of various diseases. If approved, FAAP100 could be used to treat a variety of conditions, including cancer, neurodegenerative diseases, and respiratory diseases.

FAAP100 has been shown to play a role in the regulation of cellular processes that are critical for the development and maintenance of tissues, such as cell adhesion, migration, and invasion. By targeting the FAAP100 protein, researchers could potentially develop new treatments for diseases that are caused by the disruption of these processes.

FAAP100 is also involved in the regulation of cellular signaling pathways that are essential for the development and maintenance of tissues. By targeting the FAAP100 protein, researchers could potentially develop new treatments for diseases that are caused by the disruption of these signaling pathways.

FAAP100 is also involved in the regulation of cellular apoptosis, a process that is essential for the removal of damaged or dysfunctional cells. By targeting the FAAP100 protein, researchers could potentially develop new treatments for diseases that are caused by the disruption of this process.

FAAP100 is also involved in the regulation of cellular angiogenesis, the process by which new blood vessels are formed in the body. By targeting the FAAP100 protein, researchers could potentially develop new treatments for diseases that are caused by the disruption of this process.

Conclusion

FAAP100 is a protein that is expressed in various tissues

Protein Name: FA Core Complex Associated Protein 100

Functions: Plays a role in Fanconi anemia-associated DNA damage response network. Regulates FANCD2 monoubiquitination and the stability of the FA core complex. Induces chromosomal instability as well as hypersensitivity to DNA cross-linking agents, when repressed

More Common Targets

FAAP20 | FAAP24 | FABP1 | FABP12 | FABP2 | FABP3 | FABP4 | FABP5 | FABP5P1 | FABP5P10 | FABP5P11 | FABP5P2 | FABP5P3 | FABP5P7 | FABP6 | FABP7 | FABP7P1 | FABP9 | FACT complex | FADD | FADS1 | FADS2 | FADS2B | FADS3 | FADS6 | FAF1 | FAF2 | FAH | FAHD1 | FAHD2A | FAHD2B | FAHD2CP | FAIM | FAIM2 | FALEC | FAM104A | FAM104B | FAM106A | FAM106C | FAM107A | FAM107B | FAM110A | FAM110B | FAM110C | FAM110D | FAM111A | FAM111A-DT | FAM111B | FAM114A1 | FAM114A2 | FAM117A | FAM117B | FAM118A | FAM118B | FAM120A | FAM120A2P | FAM120AOS | FAM120B | FAM120C | FAM124A | FAM124B | FAM131A | FAM131B | FAM131B-AS2 | FAM131C | FAM133A | FAM133B | FAM133CP | FAM133DP | FAM135A | FAM135B | FAM136A | FAM136BP | FAM138A | FAM138B | FAM138C | FAM138D | FAM138F | FAM13A | FAM13A-AS1 | FAM13B | FAM13C | FAM149A | FAM149B1 | FAM151A | FAM151B | FAM153A | FAM153B | FAM153CP | FAM156A | FAM157A | FAM157B | FAM157C | FAM161A | FAM161B | FAM162A | FAM162B | FAM163A | FAM163B | FAM166A