참고문헌
- Amari, K., Lerich, A., Schmitt-Keichinger, C., Dolja, V. V. and Ritzenthaler, C. 2011. Tubule-guided cell-to-cell movement of a plant virus requires class XI myosin motors. PLoS Pathol. e1002327.
- Baluska, F., Jasik, J., Edelmann, H. G., Salajova, T. and Volk-mann, D. 2001. Latrunculin B-induced plant dwarfism: Plant cell elongation is F-actin-dependent. Dev. Biol. 231:113−124.
- Boevink, P., Oparka, K., Santa Cruz, S., Martin, B., Betteridge, A. and Hawes, C. 1998. Stacks on tracks: the plant Golgi appara-tus traffics on an actin/ER network. Plant J. 15:441−447.
- Bragg, J. N., Lawrence, D. M. and Jackson, A. O. 2004. The N-terminal 85 amino acids of the barley stripe mosaic virus b pathogenesis protein contain three zinc-binding motifs. J. Virol. 78:7379−7391.
- Cowan, G. H., Lioliopoulou, F., Ziegler, A. and Torrance, L. 2002. Subcellular localisation, protein interactions, and RNA bind-ing of potato mop-top virus triple gene block proteins. Virol-ogy 298:106−115.
- daSilva, L. L., Snapp, E. L., Denecke, J., Lippincott-Schwartz, J., Hawes, C. and Brandizzi, F. 2004. Endoplasmic reticulum export sites and Golgi bodies behave as single mobile secre-tory units in plant cells. Plant Cell 16:1753−1771.
- Epel, B. L. 2009. Plant viruses spread by diffusion on ER-associ-ated movement-protein-rafts through plasmodesmata gated by viral induced host beta-1,3-glucanases. Semin Cell Dev. Biol. 20:1074−1081.
- Ferralli, J., Ashby, J., Fasler, M., Boyko, V. and Heinlein, M. 2006. Disruption of microtubule organization and centrosome function by expression of tobacco mosaic virus movement protein. J. Virol. 80:5807−5821.
- Gomord, V., Denmat, L. A., Fitchette-Laine, A. C., Satiat-Jeune-maitre, B., Hawes, C. and Faye, L. 1997. The C-terminal HDEL sequence is sufficient for retention of secretory proteins in the endoplasmic reticulum (ER) but promotes vacuolar targeting of proteins that escape the ER. Plant J. 11:313−325.
- Grangeon, R., Agbeci, M., Chen, J., Grondin, G., Zheng, H. and Laliberte, J. F. 2012. lmpact on the endoplasmic reticulum and Golgi apparatus of turnip mosaic virus infection. J. Virol. 86: 9255−9265.
- Harries, P. A., Park, J. W., Sasaki, N., Ballard, K. D., Maule, A. J. and Nelson, R. S. 2009. Differing requirements for actin and myosin by plant viruses for sustained intercellular movement. Proc. Natl. Acad. Sci. U S A. 106:17594−17599.
- Harries, P. A., Schoelz, J. E. and Nelson, R. S. 2010. Intracellular transport of viruses and their components: utilizing the cytosk-eleton and membrane highways. Mol. Plant-Microbe Interact. 23:1381−1393.
- Haupt, S., Cowan, G. H., Ziegler, A., Roberts, A. G., Oparka, K. J. and Torrance, L. 2005. Two plant-viral movement proteins traffic in the endocytic recycling pathway. Plant Cell 17:164−181. https://doi.org/10.1105/tpc.104.027821
- Hawes, C. and Satiat-Jeunemaitre, B. 2005. The plant Golgi appa-ratus--going with the flow. Biochim. Biophys. Acta. 1744:466−480.
- Jackson, A. O., Lim, H. S., Bragg, J., Ganesan, U. and Lee, M. Y. 2009. Hordeivirus replication, movement, and pathogenesis. Annu. Rev. Phytopathol. 47:385−422.
- Johansen, L. K. and Carrington, J. C. 2001. Silencing on the spot. Induction and suppression of RNA silencing in the Agrobacte-rium-mediated transient expression system. Plant Physiol. 126:930−938.
- Ju, H. J., Samuels, T. D., Wang, Y. S., Blancaflor, E., Payton, M., Mitra, R., Krishnamurthy, K., Nelson, R. S. and Verchot-Lubicz, J. 2005. The potato virus X TGBp2 movement protein associates with endoplasmic reticulum-derived vesicles during virus infection. Plant Physiol. 138:1877−1895.
- Kim, H., Park, M., Kim, S. J. and Hwang, I. 2005. Actin filaments play a critical role in vacuolar trafficking at the Golgi complex in plant cells. Plant Cell 17:888−902.
- Laliberte, J. F. and Sanfacon, H. 2010. Cellular remodeling during plant virus infection Annu. Rev. Phytopathol. 48:69−91.
- Lawrence, D. M. and Jackson, A. O. 2001a. Requirements for cell-to-cell movement of Barley stripe mosaic virus in mono-cot and dicot hosts. Mol. Plant Pathol. 2:65−75.
- Lawrence, D. M. and Jackson, A. O. 2001b. Interactions of the TGB1 protein during cell-to-cell movement of Barley stripe mosaic virus. J. Virol. 75:8712−8723.
- Lim, H. S., Bragg, J. N., Ganesan, U., Lawrence, D. M., Yu, J., Isogai, M., Hammond, J. and Jackson, A. O. 2008. Triple gene block protein interactions involved in movement of Barley stripe mosaic virus. J. Virol. 82:4991−5006.
- Lim, H. S., Bragg, J. N., Ganesan, U., Ruzin, S., Schichnes, D., Lee, M. Y., Vaira, A. M., Ryu, K. H., Hammond, J. and Jack-son, A. O. 2009. Subcellular localization of the barley stripe mosaic virus triple gene block proteins. J. Virol. 83:9432−9448.
- Lin, N. S. and Langenberg, W. G. 1985. Distribution of barley stripe mosaic virus protein in infected wheat root and shoot tips. J. Gen. Virol. 65:2217-2224.
- Lucas, W. J., Ham, B. K. and Kim, J. Y. 2009. Plasmodesmata -bridging the gap between neighboring plant cells. Trends Cell Biol. 19:495−503.
- Maule, A. J., Benitez-Alfonso, Y. and Faulkner, C. 2011. Plas-modesmata - membrane tunnels with attitude. Curr. Opin. Plant Biol. 14:683−690.
- Morozov, S. Y. and Solovyev, A. G. 2003. Triple gene block: Modular design of a multifunctional machine for plant virus movement. J. Gen.Virol. 84:1351−1366.
- Nebenführ, A., Ritzenthaler, C. and Robinson, D. G. 2002. Brefel-din A: deciphering an enigmatic inhibitor of secretion. Plant Physiol. 130:1102−1108.
- Niehl, A. and Heinlein, M. 2011. Cellular pathways for viral transport through plasmodesmata. Protoplasma 248:75−99. https://doi.org/10.1007/s00709-010-0246-1
- Ritzenthaler, C. 2011. Parallels and distinctions in the direct cell-to-cell spread of the plant and animal viruses. Curr. Opin. Virol. 1:403−409.
- Schepetilnikov, M. V., Solovyev, A. G., Gorshkova, E. N., Schie-mann, J., Prokhnevsky, A. I., Dolja, V. V. and Morozov, S. Y. 2008. Intracellular targeting of a hordeiviral membrane-span-ning movement protein: sequence requirements and involve-ment of an unconventional mechanism. J. Virol. 82:1284− 1293.
- Schoelz, J. E., Harries, P. A. and Nelson, R. S. 2011. Intracellular transport of plant viruses: finding the door out of the cell. Mol. Plant 4: 813−831.
- Scholthof, H. B. 2005. Plant virus transport: motions of functional equivalence. Trends Plant Sci.10:376−382. https://doi.org/10.1016/j.tplants.2005.07.002
- Semashko, M. A., González, I., Shaw, J., Leonova, O. G., Popenko, V. I., Taliansky, M. E., Canto, T. and Kalinina, N. O. 2012a. The extreme N-terminal domain of a hordeivirus TGB1 movement protein mediates its localization to the nucleolus and interaction with fibrillarin. Biochimie 94:1180− 1188.
- Semashko, M. A., Rakitina, D. V., González, I., Canto, T., Kalin-ina, N. O. and Taliansky, M. E. 2012b. Movement protein of hordeivirus interacts in vitro and in vivo with coilin, a major structural protein of Cajal bodies. Dokl. Biochem. Biophys. 442:57−60.
- Shemyakina, E. A., Solovyev, A. G., Leonova, O. G., Popenko, V. I., Schiemann, J. and Morozov, S. Y. 2011. The Role of Micro-tubule Association in Plasmodesmal Targeting of Potato mop-top virus Movement Protein TGBp1. Open Virol. J. 5:1−11.
- Solovyev, A. G., Schiemann, J. and Morozov, S. Y. 2012. Micro-scopic analysis of severe structural rearrangements of the plant endoplasmic reticulum and Golgi caused by overexpression of Poa semilatent virus movement protein. Scientific World Jour-nal 2012:416076.
- Su, S., Liu, Z., Chen, C., Zhang, Y., Wang, X., Zhu, L., Miao, L., Wang, X.-C. and Yuan, M. 2010. Cucumber mosaic virus movement protein severs actin filaments to increase the plas-modesmal size exclusion limit in tobacco. Plant Cell 4:1373−1387.
- Tilsner, J., Linnik, O., Wright, K. M., Bell, K., Roberts, A. G., Lacomme, C., Santa Cruz, S. and Oparka, K. J. 2012. The TGB1 movement protein of potato virus X re-organises actin and endomembranes into the 'X-body', a viral replication fac-tory. Plant Physiol. 158:1359−1370.
- Torrance, L., Wright, K. M., Crutzen, F., Cowan, G. H., Lukho-vitskaya, N. I., Bragard, C. and Savenkov, E. I. 2011. Unusual features of pomoviral RNA movement. Front. Microbiol. 2:259−266.
- Ueda, M., Schliwa, M. and Euteneuer, U. 1999. Unusual cen-trosome cycle in Dictyostelium: correlation of dynamic behavior and structural changes. Mol. Biol. Cell 10:151−160.
- Ueki, S. and Citovsky, V. 2011. To gate, or not to gate: regulatory mechanisms for intercellular protein transport and virus move-ment in plants. Mol. Plant 4:782−793. https://doi.org/10.1093/mp/ssr060
- Verchot, J. 2011. Wrapping membranes around plant virus infec-tion. Curr. Opin. Virol. 1:388−395. https://doi.org/10.1016/j.coviro.2011.09.009
- Verchot-Lubicz, J., Torrance, L., Solovyev, A. G., Morozov, S. Y., Jackson, A. O. and Gilmer, D. 2010. Varied movement strate-gies employed by triple gene block-encoding viruses. Mol. Plant- Microbe Interact. 23:1231−1247. https://doi.org/10.1094/MPMI-04-10-0086
- Vogel, F., Hofius, D. and Sonnewald, U. 2007. Intracellular traf-ficking of Potato leafroll virus movement protein in transgenic Arabidopsis. Traffic 8:1205−1214. https://doi.org/10.1111/j.1600-0854.2007.00608.x
- Wright, K. M., Wood, N. T., Roberts, A. G., Chapman, S., Boevink, P., Mackenzie, K. M. and Oparka, K. J. 2007. Target-ing of TMV movement protein to plasmodesmata requires the actin/ER network: evidence from FRAP. Traffic 8:21−31. https://doi.org/10.1111/j.1600-0854.2006.00510.x
- Wright, K. M. Cowan, G. H., Lukhovitskaya, N. I., Tilsner, J., Roberts, A. G., Savenkov, E. I. and Torrance, L. 2010. The N-terminal domain of PMTV TGB1 movement protein is required for nucleolar localization, microtubule association, and long distance movement. Mol. Plant-Microbe Interact. 11:1486−1497.
- Zamyatnin, A. A., Jr., Solovyev, A. G., Savenkov, E. I., Ger-mundsson, A., Sandgren, M., Valkonen, J. P. and Morozov, S. Y. 2004. Transient coexpression of individual genes encoded by the triple gene block of potato mop-top virus reveals requirements for TGBp1 trafficking. Mol. Plant-Microbe Interact. 17:921−930. https://doi.org/10.1094/MPMI.2004.17.8.921
- Zhou, H. and Jackson, A. O. 1996. Expression of the barley stripe mosaic virus RNA beta “triple gene block”. Virology 216: 367−379. https://doi.org/10.1006/viro.1996.0072
피인용 문헌
- The Barley stripe mosaic virus γb protein promotes chloroplast-targeted replication by enhancing unwinding of RNA duplexes vol.13, pp.4, 2017, https://doi.org/10.1371/journal.ppat.1006319
- Similarities in intracellular transport of plant viral movement proteins BMB2 and TGB3 vol.98, pp.9, 2017, https://doi.org/10.1099/jgv.0.000914
- vol.19, pp.5, 2017, https://doi.org/10.1111/mpp.12612
- : A Plant for All Reasons vol.56, pp.1, 2018, https://doi.org/10.1146/annurev-phyto-080417-050141