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Items: 1 to 20 of 227

1.

GM130 and GRASP65-dependent lateral cisternal fusion allows uniform Golgi-enzyme distribution.

Puthenveedu MA, Bachert C, Puri S, Lanni F, Linstedt AD.

Nat Cell Biol. 2006 Mar;8(3):238-48. Epub 2006 Feb 19.

PMID:
16489344
2.

Direct targeting of cis-Golgi matrix proteins to the Golgi apparatus.

Yoshimura SI, Nakamura N, Barr FA, Misumi Y, Ikehara Y, Ohno H, Sakaguchi M, Mihara K.

J Cell Sci. 2001 Nov;114(Pt 22):4105-15.

3.

The biogenesis of the Golgi ribbon: the roles of membrane input from the ER and of GM130.

Marra P, Salvatore L, Mironov A Jr, Di Campli A, Di Tullio G, Trucco A, Beznoussenko G, Mironov A, De Matteis MA.

Mol Biol Cell. 2007 May;18(5):1595-608. Epub 2007 Feb 21.

4.

Mena-GRASP65 interaction couples actin polymerization to Golgi ribbon linking.

Tang D, Zhang X, Huang S, Yuan H, Li J, Wang Y.

Mol Biol Cell. 2016 Jan 1;27(1):137-52. doi: 10.1091/mbc.E15-09-0650. Epub 2015 Nov 4.

5.

Emerging new roles of GM130, a cis-Golgi matrix protein, in higher order cell functions.

Nakamura N.

J Pharmacol Sci. 2010;112(3):255-64. Epub 2010 Mar 2. Review.

7.

GRASP65, a protein involved in the stacking of Golgi cisternae.

Barr FA, Puype M, Vandekerckhove J, Warren G.

Cell. 1997 Oct 17;91(2):253-62.

8.

Dynamic nucleation of Golgi apparatus assembly from the endoplasmic reticulum in interphase hela cells.

Kasap M, Thomas S, Danaher E, Holton V, Jiang S, Storrie B.

Traffic. 2004 Aug;5(8):595-605.

9.

The GRIP domain is a specific targeting sequence for a population of trans-Golgi network derived tubulo-vesicular carriers.

Brown DL, Heimann K, Lock J, Kjer-Nielsen L, van Vliet C, Stow JL, Gleeson PA.

Traffic. 2001 May;2(5):336-44.

11.

Golgi localisation of GMAP210 requires two distinct cis-membrane binding mechanisms.

Cardenas J, Rivero S, Goud B, Bornens M, Rios RM.

BMC Biol. 2009 Aug 28;7:56. doi: 10.1186/1741-7007-7-56.

12.

GRASP55 and GRASP65 play complementary and essential roles in Golgi cisternal stacking.

Xiang Y, Wang Y.

J Cell Biol. 2010 Jan 25;188(2):237-51. doi: 10.1083/jcb.200907132. Epub 2010 Jan 18.

13.

Isoform-specific tethering links the Golgi ribbon to maintain compartmentalization.

Jarvela T, Linstedt AD.

Mol Biol Cell. 2014 Jan;25(1):133-44. doi: 10.1091/mbc.E13-07-0395. Epub 2013 Nov 13.

14.

Golgi fragmentation during Fas-mediated apoptosis is associated with the rapid loss of GM130.

Walker A, Ward C, Sheldrake TA, Dransfield I, Rossi AG, Pryde JG, Haslett C.

Biochem Biophys Res Commun. 2004 Mar 26;316(1):6-11.

PMID:
15003503
15.

Golgi structural stability and biogenesis depend on associated PKA activity.

Bejarano E, Cabrera M, Vega L, Hidalgo J, Velasco A.

J Cell Sci. 2006 Sep 15;119(Pt 18):3764-75. Epub 2006 Aug 22.

16.

Reconstitution of vesiculated Golgi membranes into stacks of cisternae: requirement of NSF in stack formation.

Acharya U, McCaffery JM, Jacobs R, Malhotra V.

J Cell Biol. 1995 May;129(3):577-89.

17.

The coiled-coil membrane protein golgin-84 is a novel rab effector required for Golgi ribbon formation.

Diao A, Rahman D, Pappin DJ, Lucocq J, Lowe M.

J Cell Biol. 2003 Jan 20;160(2):201-12. Epub 2003 Jan 21.

18.

Caspase-mediated cleavage of the stacking protein GRASP65 is required for Golgi fragmentation during apoptosis.

Lane JD, Lucocq J, Pryde J, Barr FA, Woodman PG, Allan VJ, Lowe M.

J Cell Biol. 2002 Feb 4;156(3):495-509. Epub 2002 Jan 28.

19.

Matrix proteins can generate the higher order architecture of the Golgi apparatus.

Seemann J, Jokitalo E, Pypaert M, Warren G.

Nature. 2000 Oct 26;407(6807):1022-6.

20.

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