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Items: 1 to 20 of 105

1.

Distinct and overlapping roles for AP-1 and GGAs revealed by the "knocksideways" system.

Hirst J, Borner GH, Antrobus R, Peden AA, Hodson NA, Sahlender DA, Robinson MS.

Curr Biol. 2012 Sep 25;22(18):1711-6. doi: 10.1016/j.cub.2012.07.012. Epub 2012 Aug 16.

2.

Spatial and functional relationship of GGAs and AP-1 in Drosophila and HeLa cells.

Hirst J, Sahlender DA, Choma M, Sinka R, Harbour ME, Parkinson M, Robinson MS.

Traffic. 2009 Nov;10(11):1696-710.

PMID:
19847956
3.

The role of cargo proteins in GGA recruitment.

Hirst J, Seaman MN, Buschow SI, Robinson MS.

Traffic. 2007 May;8(5):594-604.

4.

Contributions of epsinR and gadkin to clathrin-mediated intracellular trafficking.

Hirst J, Edgar JR, Borner GH, Li S, Sahlender DA, Antrobus R, Robinson MS.

Mol Biol Cell. 2015 Sep 1;26(17):3085-103. doi: 10.1091/mbc.E15-04-0245. Epub 2015 Jul 15.

5.

EpsinR is an adaptor for the SNARE protein Vti1b.

Hirst J, Miller SE, Taylor MJ, von Mollard GF, Robinson MS.

Mol Biol Cell. 2004 Dec;15(12):5593-602. Epub 2004 Sep 15.

6.

GGAs: roles of the different domains and comparison with AP-1 and clathrin.

Hirst J, Lindsay MR, Robinson MS.

Mol Biol Cell. 2001 Nov;12(11):3573-88.

7.

Cooperation of GGAs and AP-1 in packaging MPRs at the trans-Golgi network.

Doray B, Ghosh P, Griffith J, Geuze HJ, Kornfeld S.

Science. 2002 Sep 6;297(5587):1700-3.

8.

CVAK104 is a novel regulator of clathrin-mediated SNARE sorting.

Borner GH, Rana AA, Forster R, Harbour M, Smith JC, Robinson MS.

Traffic. 2007 Jul;8(7):893-903.

9.

Enthoprotin: a novel clathrin-associated protein identified through subcellular proteomics.

Wasiak S, Legendre-Guillemin V, Puertollano R, Blondeau F, Girard M, de Heuvel E, Boismenu D, Bell AW, Bonifacino JS, McPherson PS.

J Cell Biol. 2002 Sep 2;158(5):855-62. Epub 2002 Sep 3.

10.

Changing directions: clathrin-mediated transport between the Golgi and endosomes.

Hinners I, Tooze SA.

J Cell Sci. 2003 Mar 1;116(Pt 5):763-71.

12.

Laa1p, a conserved AP-1 accessory protein important for AP-1 localization in yeast.

Fernández GE, Payne GS.

Mol Biol Cell. 2006 Jul;17(7):3304-17. Epub 2006 May 10.

13.

Membrane traffic: how do GGAs fit in with the adaptors?

Black MW, Pelham HR.

Curr Biol. 2001 Jun 26;11(12):R460-2.

14.

Traffic Through the Trans-Golgi Network and the Endosomal System Requires Collaboration Between Exomer and Clathrin Adaptors in Fission Yeast.

Hoya M, Yanguas F, Moro S, Prescianotto-Baschong C, Doncel C, de León N, Curto MÁ, Spang A, Valdivieso MH.

Genetics. 2017 Feb;205(2):673-690. doi: 10.1534/genetics.116.193458. Epub 2016 Dec 14.

PMID:
27974503
15.

Phosphoinositide-mediated clathrin adaptor progression at the trans-Golgi network.

Daboussi L, Costaguta G, Payne GS.

Nat Cell Biol. 2012 Feb 19;14(3):239-48. doi: 10.1038/ncb2427.

16.

Mammalian GGAs act together to sort mannose 6-phosphate receptors.

Ghosh P, Griffith J, Geuze HJ, Kornfeld S.

J Cell Biol. 2003 Nov 24;163(4):755-66.

17.

Structural basis for binding of accessory proteins by the appendage domain of GGAs.

Collins BM, Praefcke GJ, Robinson MS, Owen DJ.

Nat Struct Biol. 2003 Aug;10(8):607-13.

PMID:
12858163
18.

Identification of acidic dileucine signals in LRP9 that interact with both GGAs and AP-1/AP-2.

Doray B, Knisely JM, Wartman L, Bu G, Kornfeld S.

Traffic. 2008 Sep;9(9):1551-62. doi: 10.1111/j.1600-0854.2008.00786.x. Epub 2008 Jul 9.

19.

Auxilin depletion causes self-assembly of clathrin into membraneless cages in vivo.

Hirst J, Sahlender DA, Li S, Lubben NB, Borner GH, Robinson MS.

Traffic. 2008 Aug;9(8):1354-71. doi: 10.1111/j.1600-0854.2008.00764.x. Epub 2008 May 17.

20.

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