AURKAIP1: A Potential Drug Target and Biomarker for Aurora-A Kinase Interaction

AURKAIP1: A Potential Drug Target and Biomarker for Aurora-A Kinase Interaction

Aurora-A kinase (Aurora-A) is a key enzyme involved in the control of cell proliferation and survival. The Aurora-A kinase is a protein that plays a crucial role in regulating cell cycle progression and apoptosis. It is composed of four subunits: A, B, C, and D. Aurora-A kinase is an essential protein for cell growth and development, and it is involved in many cellular processes, including cell division, apoptosis, and cell survival.

AURKAIP1 is a protein that interacts with Aurora-A kinase. It is a 21-kDa protein that is composed of 124 amino acid residues. AURKAIP1 is primarily localized to the endoplasmic reticulum (ER) and cytoplasm. It has been shown to interact with Aurora-A kinase, and this interaction is important for the function of Aurora-A kinase.

AURKAIP1 has been shown to play a critical role in the regulation of cell cycle progression and apoptosis. It is involved in the regulation of Aurora-A kinase activity, and it has been shown to inhibit the activity of Aurora-A kinase. This means that when Aurora-A kinase is activated, AURKAIP1 is able to inhibit its activity, thereby regulating cell cycle progression and apoptosis.

AURKAIP1 has also been shown to play a role in the regulation of cell survival. It is involved in the regulation of cell survival by controlling the apoptosis-associated protein (AP-1) expression. AP-1 is a protein that is involved in cell apoptosis, and it is composed of 41 amino acid residues. AURKAIP1 has been shown to interact with AP-1 and to regulate its expression. This means that when Aurora-A kinase is activated, AURKAIP1 is able to regulate the expression of AP-1, thereby controlling cell survival.

AURKAIP1 has been shown to play a critical role in the regulation of cellular processes, including cell growth, apoptosis, and cell survival. It is involved in the regulation of Aurora-A kinase activity, and it has been shown to inhibit the activity of Aurora-A kinase. This means that when Aurora-A kinase is activated, AURKAIP1 is able to inhibit its activity, thereby regulating cell cycle progression and apoptosis.

In conclusion, AURKAIP1 is a protein that interacts with Aurora-A kinase. It is a critical protein that plays a role in the regulation of cell cycle progression, apoptosis, and cell survival. AURKAIP1 has been shown to inhibit the activity of Aurora-A kinase, and this interaction is important for the function of Aurora-A kinase. Therefore, AURKAIP1 may be a potential drug target and biomarker for Aurora-A kinase interaction.

Protein Name: Aurora Kinase A Interacting Protein 1

Functions: May act as a negative regulator of Aurora-A kinase, by down-regulation through proteasome-dependent degradation

More Common Targets

AURKAP1 | AURKB | AURKC | Aurora Kinase | AUTS2 | AVEN | AVIL | AVL9 | AVP | AVPI1 | AVPR1A | AVPR1B | AVPR2 | AWAT1 | AWAT2 | AXDND1 | AXIN1 | AXIN2 | AXL | Axonemal dynein complex | AZGP1 | AZGP1P1 | AZGP1P2 | AZI2 | AZIN1 | AZIN2 | AZU1 | B-cell Antigen Receptor Complex | B2M | B3GALNT1 | B3GALNT2 | B3GALT1 | B3GALT1-AS1 | B3GALT2 | B3GALT4 | B3GALT5 | B3GALT5-AS1 | B3GALT6 | B3GALT9 | B3GAT1 | B3GAT1-DT | B3GAT2 | B3GAT3 | B3GLCT | B3GNT2 | B3GNT3 | B3GNT4 | B3GNT5 | B3GNT6 | B3GNT7 | B3GNT8 | B3GNT9 | B3GNTL1 | B4GALNT1 | B4GALNT2 | B4GALNT3 | B4GALNT4 | B4GALT1 | B4GALT2 | B4GALT3 | B4GALT4 | B4GALT5 | B4GALT6 | B4GALT7 | B4GAT1 | B4GAT1-DT | B7 antigen | B9D1 | B9D2 | BAALC | BAALC-AS1 | BAALC-AS2 | BAAT | BABAM1 | BABAM2 | BABAM2-AS1 | BACE1 | BACE1-AS | BACE2 | BACH1 | BACH2 | BAD | BAG1 | BAG2 | BAG3 | BAG4 | BAG5 | BAG6 | BAGE | BAGE2 | BAGE3 | BAGE4 | BAGE5 | BAHCC1 | BAHD1 | BAIAP2 | BAIAP2-DT | BAIAP2L1 | BAIAP2L2 | BAIAP3