LIG_CSL_BTD_1

In metazoa, the highly conserved Notch pathway plays an important role in embryonic development, cell fate determination, and maintenance processes. When the single-pass transmembrane Notch receptor binds to its ligand, Delta, a membrane-bound protein of neighbouring cells, three proteolytic cleavages take place and lead to the release of NotchIC, the intracellular domain and effector of Notch (18363556).NotchIC then translocates into the nucleus and regulates transcription of target genes by recruiting cofactors and assembling with them into the regulation-complex. The complex consists of intracellular Notch, the co-activating protein, Mastermind, and the transcription factor CSL (CBF1/RBPj𝜅; Su(H); Lag-1 20972443). In the complex, the β-trefoil domain (BTD) of CSL interacts with the RBPJ-associated molecule (RAM) intrinsically disordered domain (IDD) of the Notch protein.
This interaction is mainly managed by a short hydrophobic xWxP amino acid sequence in the Notch like proteins(Notch1, P46531; Notch2, Q04721; Notch3, Q9UM47; Notch4, Q99466; Lin-12, P14585; GLP1, P13508), which is highly conserved across species. In the complex, the W and P of the motif are directed into a hydrophobic pocket of the CSL BTD domain (Wilson,2006, 2FO1).
CSL also interacts with the corepressor KyoT2, A2AEX7 (Collins,2014) and RITA, RBP-J interacting and tubulin associated, P0CJ62 (Wacker,2011) via this motif. RITA exports CSL from the nucleus. Ataxin1, P5253 (Tong,2011) may also have the motif, though it has not been shown to be functional.
EBNA2, Q3KSV2 (Calderwood,2011); EBNA3, Q3KST2 (Calderwood,2011); EBNA6, P03204 (8627785) and K10, F5H9D8 (Heinzelmann,2010) are viral proteins that bind to CSL and thus take effect on gene-regulation of Notch-target genes. The viral proteins often have repeated xWxP motifs, suggesting that they bind multiple copies of CSL.