Plasmodesmata signaling: Many roles, sophisticated statutes

Current Opinion in Plant Biology

Volumn 2, Issue 5, 1999, Pages 382-387

  Crawford, Katrina M ^a   Zambryski, Patricia C ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 0033214770     PISSN: 13695266     EISSN: None     Source Type: Journal    
DOI: 10.1016/S1369-5266(99)00009-6     Document Type: Review

References (54)

1. Goodwin PB Molecular size limit for movement in the symplast of the Elodea leaf. Planta. 157:1983;124-130.
2. Terry BR, Robards AW Hydrodynamic radius alone governs the mobility of molecules through plasmodesmata. Planta. 171:1987;145-157.
3. McLean BG, Hempel FD, Zambryski PC Plant Intercellular Communication via Plasmodesmata. Plant Cell. 9:1997;1043-1054.
4. Lazarowitz SG, Beachy RN Viral movement proteins as probes for intracellular and intercellular trafficking in plants. Plant Cell. 11:1999;535-548. Thorough review of viral movement mechanisms; that utilize, disrupt, or avoid plasmodesmata.
5. Ding B Intercellular protein trafficking through plasmodesmata. Plant Mol Bio. 38:1998;279-310.
6. Lucas WJ, Bouche-Pillon S, Jackson DP, Nguyen L, Baker L, Ding B, Hake S Selective trafficking of KNOTTED 1 homeodomain protein and its mRNA through plasmodesmata. Science. 270:1995;1980-1983.
7. Crawford KM, Zambryski PC Phloem transport: are you chaperoned? Curr Biol. 9:1999;R281-R285.
8. Oparka KJ, Turgeon R Sieve elements and companion cells-traffic control centers of the phloem. Plant Cell. 11:1999;739-750. Nice review of phloem traffic, its regulation and cargo.
9. Xoconostle-Cazares B, Xiang Y, Ruiz-Medrano R, Wang HL, Monzer J, Yoo BC, McFarland KC, Franceschi VR, Lucas WJ Plant paralog to viral movement protein that potentiates transport of mRNA into the phloem. Science. 283:1999;94-98.
10. Hepler PK Endoplasmic reticulum in the formation of the cell plate and plasmodesmata. Protoplasma. 111:1982;121-133.
11. Jones MGK The origin and development of plasmodesmata. Gunning BES, Robards RW Intercellular Communication in Plants: Studies on Plasmodesmata. 1976;81-105 Springer-Verlag, Berlin.
12. Van der Schoot C, Rinne P Networks for shoot design. Trend Plant Sci. 4:1999;31-37. Nice review that outlines differences in shoot meristem architecture and how these frameworks dictate symplastic 'circuitry.' The authors discuss how overlapping and volatile networks of communication in the meristem can coordinate development.
13. Itaya A, Woo YM, Masuta C, Bao Y, Nelson RS, Ding B Developmental regulation of intercellular protein trafficking through plasmodesmata in tobacco leaf epidermis. Plant Physiol. 118:1998;373-385. The authors illustrate that the cucumber mosaic cucumovirus 3a movement protein tagged with GFP is targeted specifically to secondary plasmodesmata.
14. Wang XY, Guo GQ, Nie XW, Zheng GC, Cheng KC Cytochemical localization of cellulase activity in pollen mother cells of David lily during meiotic prophase I and its relation to secondary formation of plasmodesmata. Protoplasma. 204:1998;128-138.
15. Blackman LM, Overall RL Immunolocalization of the cytoskeleton to plasmodesmata of Chara corallina. Plant J. 14:1998;733-741.
16. Radford JE, White RG Localization of a myosin-like protein to plasmodesmata. Plant J. 14:1998;743-750.
17. White RG, Badelt K, Overall RL, Vesk M Actin associated with plasmodesmata. Protoplasma. 180:1994;169-184.
18. Ding B, Kwon MO, Warnberg L Evidence that actin filaments are involved in controlling the permeability of plasmodesmata in tobacco mesophyll. Plant J. 10:1996;157-164.
19. Steeves TA, Sussex IM Patterns in Plant Development. 1989;Cambridge University Press, Cambridge.
20. Van den Berg C, Willemsen V, Hage W, Weisbeek P, Scheres B Cell fate in the Arabidopsis root meristem determined by directional signaling. Nature. 378:1995;62-65.
21. Van den Berg C, Willemsen V, Hendriks G, Weisbeek P, Scheres B Short-range control of cell differentiation in the Arabidopsis root meristem. Nature. 390:1997;287-289.
22. Waigmann E, Zambryski PC Tobacco mosaic virus movement protein-mediated protein transport between trichome cells. Plant Cell. 7:1995;2069-2079.
23. Imlau A, Truernit E, Sauer N Cell-to-cell and long-distance trafficking of the green fluorescent protein in the phloem and symplastic unloading of the protein into sink tissues. Plant Cell. 11:1999;309-322. This study illustrates that GFP moves freely from companion cells where it is produced in transgenic plants, into and through sieve elements, and unloads into developing sink tissues.
24. Kempers R, van Bel AJE Symplastic connection between sieve element and companion cell in the stem phloem of Vicia faba have a molecular exclusion limit of at least 10 kDa. Planta. 201:1997;195-201. Microinjection (into sieve elements) reveals that the SEL of PD between companion cells and sieve elements of Vicia faba is large enough to traffic 10 kDa dextrans and a 25 kDa fluorescently labeled protein.
25. Mansfield SG, Briarty LG Early embryogenesis in Arabidopsis thaliana. II. The developing embryo. Can J Bot. 69:1991;461-476.
26. Palevitz BA, Hepler PK Changes in dye coupling of stomatal cells of Allium and Commelina demonstrated by microinjection of Lucifer yellow. Planta. 164:1985;473-479.
27. Wille AC, Lucas WJ Ultrastructural and histochemical studies on guard cells. Planta. 160:1984;129-142.
28. Duckett CM, Oparka KJ, Prior DAM, Dolan L, Roberts K Dye-coupling in the root epidermis of Arabidopsis is progressively reduced during development. Development. 120:1994;3247-3255.
29. Oparka KJ, Duckett CM, Prior DAM, Fisher DB Real-time imaging of phloem unloading in the root tip of Arabidopsis. Plant J. 6:1994;759-766.
30. Oparka KJ, Prior DAM, Wright KM Symplastic communication between primary and developing lateral roots of Arabidopsis thaliana. J Exp Bot. 46:1995;187-197.
31. Rinne PLH, van der Schoot C Symplastic fields in the tunica of the shoot apical meristem coordinate morphogenetic events. Development. 125:1998;1477-1485. Important demonstration of the spatial and temporal regulation of symplastic communication through the tunica layer of the shoot apical meristem in birch.
32. Gisel A, Barella S, Hempel FH, Zambryski PC Temporal and spatial regulation of symplastic trafficking during development in Arabidopsis thaliana apices. Development. 126:1999;1879-1889. Important demonstration of the oscillatory nature and spatial limitations of symplastic communication in the shoot apical meristem. Suggests link between symplastic communication and induction to flowering.
33. Nelson RS, van Bel AJE The mystery of virus trafficking into, through and out of vascular tissue. Prog Bot. 59:1998;476-533. Complete review of vascular architecture and virus transport into and out of the phloem.
34. Carrington J, Kasschau KD, Mahajan SK, Schaad MC Cell-to-cell and long-distance transport of viruses in plants. Plant Cell. 8:1996;1669-1681.
35. Ding SW, Li WX, Symons RH A novel naturally occurring hybrid gene encoded by a plant RNA virus facilitates long distance virus movement. EMBO. 14:1995;5762-5772.
36. Cronin S, Verchot J, Haldeman-Cahill R, Schaad MC, Carrington JC Long-distance movement factor: a transport function of the potyvirus helper component proteinase. Plant Cell. 7:1995;549 559.
37. Scholthof HB, Scholthof KBG, Kikkert M, Jackson AO Tomato bushy stunt virus spread is regulated by two nested genes that function in cell-to-cell movement and host-dependent systemic invasion. Virology. 213:1995;425-438.
38. Ryabov EV, Robinson DJ, Taliansky ME A plant virus-encoded protein facilitates long-distance movement of heterologous viral RNA. Proc Natl Acad Sci USA. 96:1999;1212-1217.
39. Lauber E, Guilley H, Tamada T, Richards KE, Jonard G Vascular movement of beet necrotic yellow vein virus in Beta macrocarpa is probably dependent on an RNA 3 sequence domain rather than a gene product. J Gen Virology. 79:1998;385-393.
40. Lartey RT, Ghoshroy S, Citovsky V Identification of an Arabidopsis thaliana mutation (vsm1) that restricts systemic movement of tobamoviruses. Mol Plant-Microbe Interact. 11:1998;706-709. This study identifies a mutation, vsm1, in Arabidopsis that interferes only with vascular spread of tobamoviruses but not a carmovirus.
41. Mahajan SK, Chisholm ST, Whitham SA, Carrington JC Identification and characterization of a locus (RTM1) that restricts long-distance movement of tobacco etch virus in Arabidopsis thaliana. Plant J. 14:1998;177-186. The RTM1 locus of Arabidopsis interferes with long-distance movement of tobacco etch potyvirus.
42. Whitham SA, Yamamoto ML, Carrington JC Selectable viruses and altered susceptibility mutants. Proc Natl Acad Sci USA. 96:1999;772-777. This paper outlines two genetic screens designed to identify components involved in long-distance transport of a virus. Includes description of RTM2 locus, identified through gain-of-susceptibility screen.
43. Vaucheret H, Beclin C, Elmayan T, Feuerbach F, Godon C, Morel J-B, Mourrain P, Palauqui J-C, Vernhettes S Transgene-induced gene silencing in plants. Plant J. 16:1998;651-659.
44. Palauqui JC, Elmayan T, Pollien JM, Vaucheret H Systemic acquired silencing: transgene-specific post-transcriptional silencing is transmitted by grafting from silenced stocks to non-silenced scions. EMBO. 16:1997;4738-4745.
45. Voinnet O, Vain P, Angell S, Baulcombe DC Systemic spread of sequence-specific transgene RNA degradation in plants is initiated by localized introduction of ectopic promoterless DNA. Cell. 16:1998;177-187. Illustrates that introduction of promoterless DNA (homologous to endogenous transgene) into a single cell is sufficient to induce systemic silencing. Following initiation, the signal traffics systemically, and is sustained in emerging tissues.
46. Palauqui JC, Balzergue S Activation of systemic acquired silencing by localized introduction of DNA. Curr Biol. 28:1999;59-66. This study outlines the requirements for systemic versus local PTGS.
47. Beclin C, Berthome R, Palauqui JC, Tepfer M, Vaucheret H Infection of tobacco or Arabidopsis plants by CMV counteracts systemic post-transcriptional silencing of nonviral (trans) genes. Virology. 252:1998;313-317. This study demonstrates that cucumber mosaic cucumovirus counteracts systemic PTGS of transgenes in newly emergent tissues. The path of silencing is similar to viral spread from a single foci, through the vasculature, and into distant tissues. Intriguingly, shoot meristems (including axillary) are not silenced.
48. Pruss G, Ge X, Shi XM, Carrington JC, Vance VB Plant viral synergism: the potyviral genome encodes a broad-range pathogenicity enhancer that transactivates replication of heterologous viruses. Plant Cell. 9:1997;859-868.
49. Kasschau KD, Carrington JC A counterdefensive strategy of plant viruses: Suppression of posttranscriptional gene silencing. Cell. 95:1998;461-470. The authors demonstrate that P1/HC-Pro of tobacco etch potyvirus functions as a suppresser of PTGS using genetic analyses. This interference is disabled when silencing against the virus genome has been established prior to infection.
50. Anandalakshmi R, Pruss GJ, Ge X, Marathe R, Mallory AC, Smith TH, Vance VB A viral suppresser of gene silencing in plants. Proc Natl Acad Sci USA. 95:1998;13079-13084. This paper identifies HC-Pro of tobacco etch potyvirus as a suppresser of transgene-induced and virus-induced gene silencing.
51. Brigneti G, Voinnet O, Li WX, Ji LH, Ding SW, Baulcombe DC Viral pathogenicity determinants are suppresses of transgene silencing in Nicotiana benthamiana. EMBO J. 17:1998;6739-6746. This study shows that HC-Pro of potato virus Y (potyvirus) and 2b of cucumber mosaic cucumovirus suppress transgene silencing in different fashions; CMV 2b interferes with silencing in newly emergent tissue, whereas HC-Pro combats silencing in tissue already present at the time of infection.
52. Li HW, Lucy AP, Guo HS, Li WX, Ji LH, Wong SM, Ding SW Strong host resistance targeted against a viral suppresser of the plant gene silencing defense mechanism. EMBO J. 18:1999;2683-2691. This paper suggests that a host can recognize a viral factor which interferes with PTGS as an avirulence gene. This study utilizes chimeric viruses and different host plants to show that one virus protein can interfere with virus resistance or be the trigger of a defense response.
53. Gibbs A Viruses and plasmodesmata. Gunning BES, Robards RW Intercellular Communication in Plants: Studies on Plasmodesmata. 1976;149-164 Springer-Verlag, Berlin.
54. Citovsky V, Wong ML, Shaw AL, Venkataram Prasad BV, Zambryski P Visualization and characterization of tobacco mosaic virus movement protein binding to single-stranded nucleic acids. Plant Cell. 4:1992;397-411.