Evolution of the endoplasmic reticulum and the Golgi complex

Advances in Experimental Medicine and Biology

Volumn 607, Issue , 2007, Pages 61-72

  Mironov, Alexander A ^a,f   Banin, Victor V ^b   Sesorova, Irina S ^c   Dolgikh, Viacheslav V ^d   Luini, Alberto ^e   Beznoussenko, Galina V ^e  

^a Department of Cell Biology and Oncology   (Italy)

^b PIROGOV RUSSIAN NATIONAL RESEARCH MEDICAL UNIVERSITY   (Russian Federation)

^c Shuja State Pedagogical University   (Russian Federation)

^d ALL RUSSIAN INSTITUTE OF PLANT PROTECTION   (Russian Federation)

^e Consorzio Mario Negri Sud ^*  (Italy)

^f MARIO NEGRI INSTITUTE FOR PHARMACOLOGICAL RESEARCH   (Italy)

Author keywords

[No Author keywords available]

Indexed keywords

GUANOSINE TRIPHOSPHATASE; SNARE PROTEIN;

BIODIVERSITY; CELL MIGRATION; CELL NUCLEUS; CYTOSKELETON; ENDOPLASMIC RETICULUM; EUKARYOTIC CELL; GENE; GOLGI COMPLEX; INTRACELLULAR TRANSPORT; MEMBRANE FORMATION; PHYLOGENY; PRIORITY JOURNAL; REVIEW;

EUKARYOTA;

EID: 84934437323     PISSN: 00652598     EISSN: None     Source Type: Book Series    
DOI: 10.1007/978-0-387-74021-8_5     Document Type: Review

References (67)

1. Kweon HS, Beznoussenko GV, Micaroni M et al. Golgi enzymes are enriched in perforated zones of golgi cisternae but are depleted in COPI vesicles. Mol Biol Cell 2004; 15:4710-4724.
2. Mironov AA, Beznoussenko GV, Nicoziani Pet al. Small cargo proteins and large aggregates can traverse the Golgi by a common mechanism without leaving the lumen of cisternae. J Cell Biol 2001; 155:1225-1238.
3. Mironov AA, Mironov Jr AA, Beznoussenko GV et al. ER-to-Golgi carriers arise through direct en bloc protrusion and multistage maturation of specialized ER exit domains. Dev Cell 2003; 5:583-594.
4. Trucco A, Polishchuk RS, Martella O et al. Secretory traffic triggers the formation of tubular continuities across Golgi sub-compartments. Nat Cell Biol 2004; 6:1071-1081.
5. Polishchuk RS, Mironov AA. Structural aspects of Golgi function. Cell Mol Life Sci 2004; 61:146-158.
6. Gurkan C, Koulov AV, Balch WE. An evolutionary perspective on eukaryotic membrane trafficking. This volume.
7. Mironov AA, Beznoussenko GV, Polishchuk RS et al. Intra-Golgi transport. A way to a new paradigm? BBA- Molecular Cell Research 1744:340-350.
8. Bonfanti L, Mironov Jr A, Martella O et al. Procollagen traverses the Golgi stack without leaving the lumen of cisternae: Evidence for cisternal maturation. Cell 1998; 95:993-1003.
9. Polishchuk RS, Polishchuk EV, Marra P et al. Correlative light-electron microscopy reveals the saccular-tubular ultrastructure of carriers operating between Golgi apparatus and plasma membrane. J Cell Biol 2000; 148:45-58.
10. Orci L, Glick BS, Rothman JE. A new type of coated vesicular carrier that appears not to contain clathrin: Its possible role in protein transport within the Golgi stack. Cell 1986; 46:171-184.
11. Cosson P, Amherdt M, Rothman JE et al. A resident Golgi protein is excluded from peri-Golgi vesicles in NRK cells. Proc Natl Acad Sci USA 2002; 99(20):12831-4.
12. Cosson P, Ravazzola M, Varlamov O et al. Dynamic transport of SNARE proteins in the Golgi apparatus. Proc Natl Acad Sci USA 2005; 102(41):14647-52.
13. Orci L, Amherdt M, Ravazzola M et al. Exclusion of golgi residents from transport vesicles budding from Golgi cisternae in intact cells. J Cell Biol 2000; 150(6):1263-70.
14. Martinez-Menarguez JA, Prekeris R, Oorschot VM et al. Peri-Golgi vesicles contain retrograde but not anterograde proteins consistent with the cisternal progression model of intra-Golgi transport. J Cell Biol 2001; 155(7):1213-24.
15. Marsh BJ, Mastronarde DN, Buttle KF et al. Organellar relationships in the Golgi region of the pancreatic beta cell line, HIT-T15, visualized by high resolution electron tomography. Proc Natl Acad Sci USA 2001; 98(5):2399-2406.
16. Lanoix J, Ouwendijk J, Lin CC et al. GTP hydrolysis by arf-1 mediates sorting and concentration of Golgi resident enzymes into functional COP I vesicles. EMBO J 1999; 18(18):4935-48.
17. Lin CC, Love HD, Gushue JN et al. ER/Golgi intermediates acquire Golgi enzymes by brefeldin A-sensitive retrograde transport in vitro. J Cell Biol 1999; 147(7):1457-72.
18. Malsam J, Satoh A, Pelletier L et al. Golgin tethers define subpopulations of COPI vesicles. Science. 2005; 307(5712):1095-8.
19. Weidman P, Roth R, Heuser J. Golgi membrane dynamics imaged by freeze-etch electron microscopy: Views of different membrane coatings involved in tubulation versus vesiculation. Cell 1993; 75(1):123-33.
20. Happe S, Cairns M, Roth R et al. Coatomer vesicles are not required for inhibition of Golgi transport by G-protein activators. Traffic 2000; 1(4):342-53.
21. Ladinsky MS, Mastronarde DN, McIntosh JR et al. Golgi structure in three dimensions: Functional insights from the normal rat kidney cell. J Cell Biol 1999; 144:1135-1149.
22. Mironov AA, Weidman P, Luini A. Variation on the intracellular transport theme: Maturing cisternae and trafficking tubules. J Cell Biol 1997; 138:481-484.
23. Bannykh SI, Plutner H, Matteson Jet al. The Role of ARF1 and Rab GTPases in polarization of the Golgi stack. Traffic 2005; 6(9):803-19.
24. Rabouille C, Klumperman J. Opinion: The maturing role of COPI vesicles in intra-Golgi transport. Nat Rev Mol Cell Biol, 2005 (Epub ahead of print).
25. Krijnse-Locker J, Ericsson M, Rottier PJ et al. Characterization of the budding compartment of mouse hepatitis virus: Evidence that transport from the RER to the Golgi complex requires only one vesicular transport step. J Cell Biol 1994; 124(1-2):55-70.
26. Marsh BJ, Volkmann N, McIntosh JR et al. Direct continuities between cisternae at different levels of the Golgi complex in glucose-stimulated mouse islet beta cells. Proc Natl Acad Sci USA 2004; 101:5565-5570.
27. Ladinsky MS, Kremer JR, Furcinitti PS et al. HVEM tomography of the trans-Golgi network: Structural insights and identification of a lace-like vesicle coat. J Cell Biol 1994; 127(1):29-38.
28. Rink J, Ghigo E, Kalaidzidis Y et al. Rab conversion as a mechanism of progression from early to late endosomes. Cell 2005; 122(5):735-49.
29. Volchuk A, Ravazzola M, Perrelet A et al. Countercurrent distribution of two distinct SNARE complexes mediating transport within the Golgi stack. Mol Biol Cell 2004; 15:1506-1518.
30. Beznoussenko GV, Micaroni M, Trucco A et al. COPI vesicles regulate formation of intercisternal connections extracting Qb SNAREs from Golgi cisternae. J Cell Biol 2005b, (Submitted).
31. Cavalier-Smith T. The phagotrophic origin of eukaryotes and phylogenetic classification of Protozoa. Int J Syst Evol Microbiol 2002b; 52(Pt 2):297-354.
32. Becker B, Melkonian M. The secretory pathway of protists: Spatial and functional organization and evolution. Microbiological Reviews 1996; 60:697-721.
33. Hehl AB, Marti M. Secretory protein trafficking in Giardia intestinalis. Mol Microbiol 2004; 53:19-28.
34. Katinka MD, Duprat S, Cornillot E et al. Genome sequence and gene compaction of the eukaryote parasite Encephalitozoon cuniculi. Nature 2001; 414:450-453.
35. Peyretaillade E, Biderre C, Peyret P et al. Microsporidian Encephalitozoon cuniculi, a unicellular eukaryote with an unusual chromosomal dispersion of ribosomal genes and a LSU rRNA reduced to the universal core. Nucleic Acids Res 1998; 26:3513-3520.
36. Vavra J, Larsson JIR. Structure of the microsporidia. In: Wittner M, Weiss LM, eds. Microsporidia and Microsporidiosis. Washington, DC: American Society for Microbiology, 1999:7-84.
37. Beznoussenko GV, Dolgikh VV, Morzhina EV et al. The microsporidia Golgi: Structure and mechanisms of function. Mol Biol Cell 2005a, (Submitted).
38. Ho HC, Tang CY, Suarez SS. Three-dimensional structure of the Golgi apparatus in mouse spermatids: A scanning electron microscopic study. Anat Rec 1999; 256(2):189-94.
39. Kepes F, Rambourg A, Satiat-Jeunemaitre B. Morphodynamics of the secretory pathway. Int Rev Cytol 2005; 242:55-120.
40. Hebert DN, Garman SC, Molinari M. The glycan code of the endoplasmic reticulum: Asparagine-linked carbohydrates as protein maturation and quality-control tags. Trends Cell Biol 2005; 15(7):364-70.
41. Puthenveedu MA, Linstedt AD. Subcompartmentalizing the Golgi apparatus. Curr Opin Cell Biol 2005; 17(4):369-75.
42. Richards TA, Cavalier-Smith T. Myosin domain evolution and the primary divergence of eukaryotes. Nature 2005; 436(7054):1113-8.
43. McPherson JD et al. A physical map of the human genome. Nature 2001; 409:934-941.
44. Tabata S, Kaneko T, Nakamura Yet al. Sequence and analysis of chromosome 5 of the plant Arabidopsis thaliana. Nature 2000; 408:823-826.
45. von Mollard GF, Nothwehr SF, Stevens TH. The yeast v-SNARE Vtilp mediates two vesicle transport pathways through interactions with the t-SNAREs Sed5p and Pep12p. J Cell Biol 1997; 137:1511-24.
46. Hong W. SNAREs and traffic. Biochim Biophys Acta. 2005; 1744(3):493-517.
47. Guo Q, Vasile E, Krieger M. Disruptions in Golgi structure and membrane traffic in a conditional lethal mammalian cell mutant are corrected by epsilon-COP. J Cell Biol 1994; 125(6):1213-1224.
48. Lu L, Horstmann H, Ng C et al. Regulation of Golgi structure and function by ARF-like protein 1 (Arl1). J Cell Sci 2001; 114:4543-4555.
49. Salama NR, Schekman RW. The role of coat proteins in the biosynthesis of secretory proteins. Curr Opin Cell Biol 1995; 7:536-543.
50. de Duve C. Reflections on the origin and evolution of life. C R Seances Soc Biol Fil 1998; 192(5):893-901.
51. Rizzotti M. Early evolution. From the appearance of the first cell to the first modern organisms. Switzerland: Birkhäuser Verlag AG, Basel, 2000:180.
52. Hartman H, Fedorov A. The origin of the eukaryotic cell: A genomic investigation. Proc Natl Acad Sci USA 2002; 99:1420-1425.
53. Hartzell PL. Complementation of sporulation and motility defects in a prokaryote by a eukaryotic GTPase. Proc Natl Acad Sci USA 1997; 94(18):9881-6.
54. Jekely G. Small GTPases and the evolution of the eukaryotic cell. Bioessays 2003; 25(11):1129-38.
55. Lee MC, Orci L, Hamamoto S et al. Sarlp N-terminal helix initiates membrane curvature and completes the fission of a COPII vesicle. Cell 2005; 122(4):605-17.
56. Aridor M, Fish KN, Bannykh S et al. The Sarl GTPase coordinates biosynthetic cargo selection with endoplasmic reticulum export site assembly. J Cell Biol 2001; 152(1):213-29.
57. Devos D, Dokudovskaya S, Alber F et al. Components of coated vesicles and nuclear pore complexes share a common molecular architecture. PLoS Biol 2004; 2(12):e380.
58. Schledzewski K, Brinkmann H, Mendel RR. Phylogenetic analysis of components of the eukaryotic vesicle transport system reveals a common origin of adaptor protein complexes 1, 2, and 3 and the F subcomplex of the coatomer COPI. J Mol Evol 1999; 48(6):770-8.
59. Pishvaee B, Munn A, Payne GS. A novel structural model for regulation of clathrin function. EMBO J 1997; 16(9):2227-39.
60. Wang J, Virta VC, Riddelle-Spencer K et al. Compromise of clathrin function and membrane association by clathrin light chain deletion. Traffic 2003; 4(12):891-901.
61. Dacks JB, Doolittle WF. Novel syntaxin gene sequences from Giardia, Trypanosoma and algae: Implications for the ancient evolution of the eukaryotic endomembrane system. J Cell Sci 2002; 115:1635-1642.
62. Miller E, Antonny B, Hamamoto Set al. Cargo selection into COPII vesicles is driven by the Sec24p subunit. EMBO J 2002; 21(22):6105-13.
63. Opat AS, Houghton F, Gleeson PA. Steady-state localization of a medial-Golgi glycosyltransferase involves transit through the trans-Golgi network. Biochem J 2001; 358(Pt 1):33-40.
64. Mogelsvang S, Gomez-Ospina N, Soderholm J et al. Tomographic evidence for continuous turn-over of Golgi cisternae in Pichia pastoris. Mol Biol Cell 2003; 14(6):2277-91.
65. Riezman H. Three clathrin-dependent budding steps and cell polarity. Trends in Cell Biology 1993; 3:330-332.
66. Mironov AA, Luini A, Buccione R. Constitutive transport between the trans-Golgi network and the plasma membrane according to the maturation model. A hypothesis FEBS Lett 1998; 440(1-2):99-102.
67. Beznoussenko GV, Mironov AA. Models of intracellular transport and evolution of the Golgi complex. Anat Rec 2002; 268:226-238.