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Items: 1 to 20 of 216

1.

Sorting of mannose 6-phosphate receptors mediated by the GGAs.

Puertollano R, Aguilar RC, Gorshkova I, Crouch RJ, Bonifacino JS.

Science. 2001 Jun 1;292(5522):1712-6.

2.

Cell biology. GGAs tie up the loose ends.

Tooze SA.

Science. 2001 Jun 1;292(5522):1663-5. No abstract available.

PMID:
11387461
3.

Binding of GGA2 to the lysosomal enzyme sorting motif of the mannose 6-phosphate receptor.

Zhu Y, Doray B, Poussu A, Lehto VP, Kornfeld S.

Science. 2001 Jun 1;292(5522):1716-8.

4.

The structure and function of GGAs, the traffic controllers at the TGN sorting crossroads.

Nakayama K, Wakatsuki S.

Cell Struct Funct. 2003 Oct;28(5):431-42. Review.

6.

Structural basis for recognition of acidic-cluster dileucine sequence by GGA1.

Shiba T, Takatsu H, Nogi T, Matsugaki N, Kawasaki M, Igarashi N, Suzuki M, Kato R, Earnest T, Nakayama K, Wakatsuki S.

Nature. 2002 Feb 21;415(6874):937-41.

PMID:
11859376
7.

Interactions of GGA3 with the ubiquitin sorting machinery.

Puertollano R, Bonifacino JS.

Nat Cell Biol. 2004 Mar;6(3):244-51. Epub 2004 Feb 22.

8.

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.

9.

Interaction of the cation-dependent mannose 6-phosphate receptor with GGA proteins.

Doray B, Bruns K, Ghosh P, Kornfeld S.

J Biol Chem. 2002 May 24;277(21):18477-82. Epub 2002 Mar 8.

10.

GGA1 interacts with the adaptor protein AP-1 through a WNSF sequence in its hinge region.

Bai H, Doray B, Kornfeld S.

J Biol Chem. 2004 Apr 23;279(17):17411-7. Epub 2004 Feb 18.

11.

Phosphoregulation of sorting signal-VHS domain interactions by a direct electrostatic mechanism.

Kato Y, Misra S, Puertollano R, Hurley JH, Bonifacino JS.

Nat Struct Biol. 2002 Jul;9(7):532-6.

PMID:
12032548
13.

Structural basis for acidic-cluster-dileucine sorting-signal recognition by VHS domains.

Misra S, Puertollano R, Kato Y, Bonifacino JS, Hurley JH.

Nature. 2002 Feb 21;415(6874):933-7.

PMID:
11859375
14.

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.

15.

Autoinhibition of the ligand-binding site of GGA1/3 VHS domains by an internal acidic cluster-dileucine motif.

Doray B, Bruns K, Ghosh P, Kornfeld SA.

Proc Natl Acad Sci U S A. 2002 Jun 11;99(12):8072-7.

16.

The GGA proteins: key players in protein sorting at the trans-Golgi network.

Ghosh P, Kornfeld S.

Eur J Cell Biol. 2004 Jul;83(6):257-62. Review.

PMID:
15511083
17.

The trihelical bundle subdomain of the GGA proteins interacts with multiple partners through overlapping but distinct sites.

Mattera R, Puertollano R, Smith WJ, Bonifacino JS.

J Biol Chem. 2004 Jul 23;279(30):31409-18. Epub 2004 May 13.

18.

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.

19.

The early vertebrate Danio rerio Mr 46000 mannose-6-phosphate receptor: biochemical and functional characterisation.

Koduru S, Vegiraju SR, Nadimpalli SK, von Figura K, Pohlmann R, Dennes A.

Dev Genes Evol. 2006 Mar;216(3):133-43. Epub 2005 Dec 16.

PMID:
16362416
20.

The trans-Golgi network accessory protein p56 promotes long-range movement of GGA/clathrin-containing transport carriers and lysosomal enzyme sorting.

Mardones GA, Burgos PV, Brooks DA, Parkinson-Lawrence E, Mattera R, Bonifacino JS.

Mol Biol Cell. 2007 Sep;18(9):3486-501. Epub 2007 Jun 27.

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