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Items: 1 to 20 of 263

1.

Rabenosyn-5, a novel Rab5 effector, is complexed with hVPS45 and recruited to endosomes through a FYVE finger domain.

Nielsen E, Christoforidis S, Uttenweiler-Joseph S, Miaczynska M, Dewitte F, Wilm M, Hoflack B, Zerial M.

J Cell Biol. 2000 Oct 30;151(3):601-12.

2.

Sequential roles for phosphatidylinositol 3-phosphate and Rab5 in tethering and fusion of early endosomes via their interaction with EEA1.

Lawe DC, Chawla A, Merithew E, Dumas J, Carrington W, Fogarty K, Lifshitz L, Tuft R, Lambright D, Corvera S.

J Biol Chem. 2002 Mar 8;277(10):8611-7. Epub 2001 Oct 15.

3.

Two distinct effectors of the small GTPase Rab5 cooperate in endocytic membrane fusion.

Gournier H, Stenmark H, Rybin V, Lippé R, Zerial M.

EMBO J. 1998 Apr 1;17(7):1930-40.

5.

The Rab5 effector EEA1 interacts directly with syntaxin-6.

Simonsen A, Gaullier JM, D'Arrigo A, Stenmark H.

J Biol Chem. 1999 Oct 8;274(41):28857-60.

6.

A novel membrane-anchored Rab5 interacting protein required for homotypic endosome fusion.

Hoffenberg S, Liu X, Nikolova L, Hall HS, Dai W, Baughn RE, Dickey BF, Barbieri MA, Aballay A, Stahl PD, Knoll BJ.

J Biol Chem. 2000 Aug 11;275(32):24661-9.

7.

Common and distinct roles for the binding partners Rabenosyn-5 and Vps45 in the regulation of endocytic trafficking in mammalian cells.

Rahajeng J, Caplan S, Naslavsky N.

Exp Cell Res. 2010 Mar 10;316(5):859-74. doi: 10.1016/j.yexcr.2009.11.007. Epub 2009 Nov 17.

8.

RIN3: a novel Rab5 GEF interacting with amphiphysin II involved in the early endocytic pathway.

Kajiho H, Saito K, Tsujita K, Kontani K, Araki Y, Kurosu H, Katada T.

J Cell Sci. 2003 Oct 15;116(Pt 20):4159-68.

9.
10.

FYVE and coiled-coil domains determine the specific localisation of Hrs to early endosomes.

Raiborg C, Bremnes B, Mehlum A, Gillooly DJ, D'Arrigo A, Stang E, Stenmark H.

J Cell Sci. 2001 Jun;114(Pt 12):2255-63.

11.

Rabip4' is an effector of rab5 and rab4 and regulates transport through early endosomes.

Fouraux MA, Deneka M, Ivan V, van der Heijden A, Raymackers J, van Suylekom D, van Venrooij WJ, van der Sluijs P, Pruijn GJ.

Mol Biol Cell. 2004 Feb;15(2):611-24. Epub 2003 Nov 14.

12.

Relationships between EEA1 binding partners and their role in endosome fusion.

Mills IG, Urbé S, Clague MJ.

J Cell Sci. 2001 May;114(Pt 10):1959-65.

13.

EEA1 links PI(3)K function to Rab5 regulation of endosome fusion.

Simonsen A, Lippé R, Christoforidis S, Gaullier JM, Brech A, Callaghan J, Toh BH, Murphy C, Zerial M, Stenmark H.

Nature. 1998 Jul 30;394(6692):494-8.

PMID:
9697774
14.

Role of Rab5 in the recruitment of hVps34/p150 to the early endosome.

Murray JT, Panaretou C, Stenmark H, Miaczynska M, Backer JM.

Traffic. 2002 Jun;3(6):416-27.

15.
16.

Determinants of Rab5 interaction with the N terminus of early endosome antigen 1.

Merithew E, Stone C, Eathiraj S, Lambright DG.

J Biol Chem. 2003 Mar 7;278(10):8494-500. Epub 2002 Dec 19.

17.

Cloning and subcellular localization of a human phosphatidylinositol 3-phosphate 5-kinase, PIKfyve/Fab1.

Cabezas A, Pattni K, Stenmark H.

Gene. 2006 Apr 12;371(1):34-41. Epub 2006 Jan 31.

PMID:
16448788
18.

Role of phosphatidylinositol 3-kinase and Rab5 effectors in phagosomal biogenesis and mycobacterial phagosome maturation arrest.

Fratti RA, Backer JM, Gruenberg J, Corvera S, Deretic V.

J Cell Biol. 2001 Aug 6;154(3):631-44.

19.

Divalent Rab effectors regulate the sub-compartmental organization and sorting of early endosomes.

de Renzis S, Sönnichsen B, Zerial M.

Nat Cell Biol. 2002 Feb;4(2):124-33.

PMID:
11788822
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