◀ Back to CLIP1

CLIP1 — MAPRE1

Pathways - manually collected, often from reviews:

• Reactome Reaction: MAPRE1 → CLIP1 (reaction) Kitajima et al., Nature 2004, Salic et al., Cell 2004, Kitajima et al., Curr Biol 2005, Hauf et al., PLoS Biol 2005, Kitajima et al., Nature 2006, Cheeseman et al., Nat Rev Mol Cell Biol 2008, Yamagishi et al., Nature 2008, Kawashima et al., Science 2010
• Reactome Reaction: MAPRE1 → CLIP1 (direct_complex)

Protein-Protein interactions - manually collected from original source literature:

Studies that report less than 10 interactions are marked with *

• IRef Biogrid Interaction: MAPRE1 — CLIP1 (direct interaction, pull down) Ligon et al., FEBS Lett 2006*
• Gene Ontology Complexes microtubule plus-end: microtubule plus-end complex (KIF18B-SLAIN2-CLIP1-MAPRE3-MAPRE1-KIF2C-MAPRE2) Sahin et al., Blood 2002, van der Vaart et al., J Cell Biol 2011, Tanenbaum et al., Curr Biol 2011
• Gene Ontology Complexes microtubule: microtubule complex (DNAH11-DYNLL2-INVS-TEKT4-KIF2C-KIF2B-TUBA3C-TUBA3E-EML6-EML4-CAPN6-FAM110C-TPGS1-MAPRE1-MAPRE3-JAKMIP1-CENPJ-SPAG6-MTUS1-MTUS2-KIFC2-SHROOM3-DYNC2H1-KIF15-KIF24-KIF5B-KIF5C-KIF23-KIF22-KIF5A-KIF27-TUBE1-GTSE1-STMN1-INCENP-RASSF1-RASSF3-RASSF5-KIF26A-KIF26B-KATNA1-DNM2-APOE-HAUS8-TUBA1B-TUBA1A-TEKT5-HAUS3-CCT4-KIF6-TUBB4A-MAP1LC3A-TUBD1-MAP1LC3C-MAP1LC3B-DYNC2LI1-NINL-MAP1A-MAP1B-TUBB8-TUBB6-TCTE3-TUBB3-KATNAL1-NUSAP1-TUBB1-TUBB2A-KIF3C-TUBB2B-DNAH3-MAP1LC3B2-TUBAL3-DNAH6-DNAH5-CAMSAP2-CAMSAP3-CAMSAP1-TUBB-GAS8-TUBA8-KIF14-SPRY2-KIF17-KIF11-KIF12-TRIM55-TRIM54-CFAP20-KIF19-GAS2L1-CEP162-KIF3B-TPPP3-HCA90-GAS2L2-FGF13-REEP3-KIF3A-KIF21B-IGBP1-DNM1P34-CRHBP-INO80-TRIM63-KIF1C-TBCE-TBCC-TBCA-SPAG17-KIF20B-TUBGCP5-KIF20A-DNM1P46-MAP6-MAP7-MAP4-TUBB4B-MID2-IQGAP2-GABARAPL3-TPPP-PTPN20A-NUDC-KIF4B-KIF4A-SKA1-CLIP1-DVL1-WHAMM-DYNLRB1-CCT6A-MID1IP1-RP1-TTLL1-RMDN3-HOOK2-HOOK3-KIF18A-TTLL8-KIF18B-MAP7D3-MAP7D2-MAP7D1-PCNT-DYNC1H1-TUBA4A-TUBA4B-RCC2-NICN1-SPAST-MAP6D1-TUBG1-KIF13B-TUBG2-TCP11L1) Buchner et al., Hum Mol Genet 1999, Askham et al., Oncogene 2000, Centner et al., J Mol Biol 2001, Short et al., BMC cell biology 2002, Irobi et al., J Peripher Nerv Syst 2002, Goriounov et al., J Cell Sci 2003, Tonami et al., Mol Cell Biol 2007, Acevedo et al., Exp Cell Res 2007, Meunier et al., Eur J Cell Biol 2009, Baines et al., Mol Biol Evol 2009, Bharti et al., J Cell Sci 2011, Ahmed et al., J Cell Biol 2012, Tian et al., Cell 1996
• IRef Intact Interaction: MAPRE1 — CLIP1 (direct interaction, chromatography technology) Ligon et al., FEBS Lett 2006*

Text-mined interactions from Literome

Watson et al., J Cell Sci 2006 : Here we show that, in mammalian cells, EB1 is required for the plus-end localization of CLIP-170 , and that this is in turn required to localize p150(Glued) to plus-ends
Bieling et al., J Cell Biol 2008 : In contrast, CLIP-170 does not end-track by itself but requires EB1
Wittmann et al., J Cell Biol 2008 : 2008. J. Cell Biol. 183 : 1223-1233 ) reconstitute plus end tracking of EB1 and CLIP-170 in vitro, which demonstrates that CLIP-170 plus end tracking is EB1 dependent and that both +TIPs rapidly exchange between a soluble and a plus end associated pool
Bock et al., Nat Cell Biol 2012 : Kinetochore-spindle binding and chromosome segregation are mediated by the multi-copy KNL1 ( Spc105 ), MIS12 ( Mtw1 ) and NDC80(Ndc80) complexes that form the so-called KMN network ... Kinetochore-spindle binding and chromosome segregation are mediated by the multi-copy KNL1 ( Spc105 ), MIS12 ( Mtw1 ) and NDC80(Ndc80) complexes that form the so-called KMN network