PL EN


Preferences help
enabled [disable] Abstract
Number of results
Journal
2015 | 64 | 3 | 431-443
Article title

Plazmodesmy - czyli o elementach międzykomórkowej sieci komunikacyjnej u roślin

Authors
Content
Title variants
EN
Plasmodesmata - elements of communication network in plants
Languages of publication
PL EN
Abstracts
PL
Plazmodesmy, cytoplazmatyczne kanały transportowe występujące w ścianie komórkowej, tworzą sieć komunikacyjną w organizmie roślinnym. Przez plazmodesmy przemieszczają się głównie produkty fotosyntezy, stąd zmiany w drożności tych kanałów są istotne dla optymalnego wzrostu i rozwoju roślin. W pracy przedstawiono generalną budowę plazmodesmy wraz z różnymi modyfikacjami w strukturze. Omówione zostały również zmiany w przepuszczalności plazmodesm pod wpływem stresów abiotycznych w relacji do wydajności transportu symplastycznego. Dodatkowo opisane zostały techniki obrazowania plazmodesm - wczoraj i dziś.
EN
Plasmodesmata, cytoplasmic transport channels present in the cell wall form a communication network in the plant body. The nutrients mainly move by plasmodesmata thus changes in the permeability of these channels are important for optimal growth and development of plants. The paper presents a general construction of plasmodesmata with various modifications in the structure. Changes in the permeability of plasmodesmata under the influence of abiotic stresses in the relation to the symplasmic transport efficiency are also discussed. In addition, imaging techniques of plasmodesmata — past and present have been described.
Journal
Year
Volume
64
Issue
3
Pages
431-443
Physical description
Dates
published
2015
Contributors
  • Zakład Biochemii i Fizjologii Roślin, Instytut Hodowli i Aklimatyzacji Roślin - Państwowy Instytut Badawczy, Radzików, 05-870 Błonie, , Polska
  • Zakład Fizjologii Roślin, Pozawydziałowy Zamiejscowy Instytut Biotechnologii Stosowanej i Nauk Podstawowych Uniwersytet Rzeszowski, Werynia 502, 36-100 Kolbuszowa, Polska
References
  • Amiard V., Mueh K. E., Demmig-Adams B., Ebbert V., Turgeon R., Adams W. W., 2005. Anatomical and photosynthetic acclimation to the light environment in species with differing mechanisms of phloem loading. Proc. Natl. Acad. Sci. USA 102, 12968-12973.
  • Anisimov A. V., Egorov A. G., 2002. Plasmodesmata as a modulator of osmotic water fluxes in plants. Rus. J. Plant Physiol 49, 677-684.
  • Badelt K., White R. G., Overall R. L., Vesk M., 1994. Ultrastructural specializations of the cell wall sleeve around plasmodesmata. Am. J. Bot. 81, 1422-1427.
  • Baluška F., Šamaj J., Napier R., Volkmann D., 1999. Maize calreticulin localizes preferentially to plasmodesmata in root apex. Plant J. 19, 481-488.
  • Baluška F., Cvrčková F., Kendrick-Jones J., Volkmann D., 2001. Sink plasmodesmata as gateways for phloem unloading. Myosin VIII and calreticulin as molecular determinants of sink strength? Plant Physiol. 126, 39-46.
  • Benitez-Alfonso Y., Jackson D., Maule A., 2011. Redox regulation of intercellular transport. Protoplasma 248, 131-140.
  • Bilska A., Sowiński P., 2010. Closure of plasmodesmata in maize (Zea mays) at low temperature: a new mechanism for inhibition of photosynthesis. Ann. Bot. 106, 675-686.
  • Blackman L. M., Overall R. L., 1998. Immunolocalisation of the cytoskeleton to plasmodesmata of Chara corallina. Plant J. 14, 733-741.
  • Blackman L. M., Harper J. D. I., Overall R. L., 1999. Localization of a centrin-like protein to higher plant plasmodesmata. Eur. J. Cell Biol. 78, 297-304.
  • Botha C. E. J., Cross R. H. M., Liu L., 2005. Comparative structure of specialised monocotyledonous leaf blade plasmodesmata. [W] Plasmodesmata. Oparka K. J. (red.). Blackwell Publishing Ltd., Oxford, 73-89.
  • Brecknock S., Dibbayawan T. P., Vesk M., Vesk P. A., Faulkner C., Barton D. A., Overall R. L., 2011. High resolution scanning electron microscopy of plasmodesmata. Planta 234, 749-758.
  • Buvat R., 1957. L'infrastructure des plasmodesmes et la continité des cytoplasmes. Compt. Rend. Acad. Paris 245, 198-210.
  • Ding B., Turgeon R., Parthasarathy M. V., 1992. Substructure of freeze-substituted plasmodesmata. Protoplasma 169, 28-41.
  • Ehlers K., Schulz M., Kollmann R., 1996. Subcellular localization of ubiquitin in plant protoplasts and the function of ubiquitin in selective degradation of outer-wall plasmodesmata in regenerating protoplasts. Planta 199, 139-151.
  • Erwee M. G., Goodwin P. B., 1984. Characterization of the Egeria densa leaf symplast: response to plasmolysis, deplasmolysis and to aromatic amino acids. Protoplasma 122, 162-168.
  • Esau K., 1953. Plant Anatomy. John Wiley & Sons, Inc., New York.
  • Evert R. F., Eschrich W., Heyser W., 1977. Distribution and structure of the plasmodesmata in mesophyll and bundle-sheath cells of Zea mays L. Planta 136, 77-89.
  • Faulkner C., Akman O. E., Bell K., Jeffree C., Oparka K., 2008. Peeking into pit fields: a multiple twinning model of secondary plasmodesmata formation in tobacco. Plant Cell Online 20, 1504-1518.
  • Fitzgibbon J., Bell K., King E., Oparka K., 2010. Super-resolution imaging of plasmodesmata using three-dimensional structured illumination microscopy. Plant Physiol. 153, 1453-1463.
  • Gamalei Y., van Bel A. J. E., Pakhomova M., Sjutkina A., 1994. Effects of temperature on the conformation of the endoplasmic reticulum and on starch accumulation in leaves with the symplasmic minor-vein configuration. Planta 194, 443-453.
  • Goodwin P. B., 1983. Molecular size limit for movement in the symplast of the Elodea leaf. Planta 157, 124-130.
  • Hejnowicz Z., 2002. Anatomia i histogeneza roślin naczyniowych. PWN, Warszawa.
  • Holdaway-Clarke T. L., Walker N. A., Hepler P. K., Overall R. L., 2000. Physiological elevations in cytoplasmic free calcium by cold or ion injection result in transient closure of higher plant plasmodesmata. Planta 210, 329-335.
  • Karlson D. T., Fujino T., Kimura S., Baba K., Itoh T., Ashworth E. N., 2003. Novel plasmodesmata association of dehydrin-like proteins in cold-acclimated red-osier dogwood (Cornus sericea). Tree Physiol. 23, 759-767.
  • Knox J. P., Benitez-Alfonso Y., 2014. Roles and regulation of plant cell walls surrounding plasmodesmata. Curr. Opin. Cell Biol. 22, 93-100.
  • Levy A., Erlanger M., Rosenthal M., Epel B. L., 2007. A plasmodesmata-associated β-1,3-glucanase in Arabidopsis. Plant J. 49, 669-682.
  • Livingston, 1935. The nature and distribution of plasmodesmata in the tobacco plant. Am. J. Bot. 22, 75-87.
  • Meeuse A. D. J., 1940. On the nature of plasmodesmata. Protoplasma 35, 143-151.
  • Morvan O., Quentin M., Jauneau A., Mareck A., Morvan C., 1998. Immunogold localization of pectin methylesterases in the cortical tissues of flax hypocotyl. Protoplasma 202, 175-184.
  • Murillo I., Cavallarin L., San Segundo B., 1997. The maize pathogenesis-related PRms protein localizes to plasmodesmata in maize radicles. Plant Cell Online 9, 145-156.
  • Northote D. H., Lewis D. R., 1968. Freeze-etched surfaces of membranes and organelles in the cells of pea root tips. J. Cell Sci. 3, 199-206.
  • O'Brien T. P., Thimann K. V., 1967. Observations on the fine structure of the oat coleoptile. Protoplasma 63, 417-442.
  • Olesen P., 1979. The neck constriction in plasmodesmata. Planta 144, 349-358.
  • Olesen P., Robards A. W., 1990. The neck region of plasmodesmata: general architecture and some functional aspects. [W] Parallels in Cell-to-Cell Junctions in Plants and Animals. Robards A. W., Lucas W. J., Pitts J. D., Jongsma H. J., Spray D. C. (red.). Springer-Verlag, Berlin, 145-170.
  • Oparka K. J., Prior D. A. M., 1992. Direct evidence for pressure-generated closure of plasmodesmata. Plant J. 2, 741-750.
  • Oparka K. J., Prior D. A. M., Crawford J. W., 1994. Behaviour of plasma membrane, cortical ER and plasmodesmata during plasmolysis of onion epidermal cells. Plant Cell Environ. 17, 163-171.
  • Orfila C., Knox J. P., 2000. Spatial regulation of pectic polysaccharides in relation to pit fields in cell walls of tomato fruit pericarp. Plant Physiol. 122, 775-782.
  • Overall R. L., Blackman L. M., 1996. A model of the macromolecular structure of plasmodesmata. Trends Plant Sci. 1, 307-311.
  • Patrick J. W., 1997. Phloem unloading: sieve element unloading and post-sieve element transport. Ann. Rev. Plant Biol. 48, 191-222.
  • Patrick J. W., Offler C. E., 1996. Post-sieve element transport of photoassimilates in sink regions. J. Exp. Bot. 47, 1165-1177.
  • Piršelová B., Mistríková V., Libantová J., Moravčíková J., Matušíková I., 2012. Study on metal-triggered callose deposition in roots of maize and soybean. Biologia 67, 698-705.
  • Radford J. E., White R. G., 1998. Localization of a myosin-like protein to plasmodesmata. Plant J. 14, 743-750.
  • Radford J. E., Vesk M., Overall R. L., 1998. Callose deposition at plasmodesmata. Protoplasma 201, 30-37.
  • Raffaele S., Bayer E., Lafarge D., Cluzet S., German Retana S., Boubekeur T., Leborgne-Castel N., Carde J.-P., Lherminier J., Noirot E., Satiat-Jeunemaître B., Laroche-Traineau J., i inni, 2009. Remorin, a solanaceae protein resident in membrane rafts and plasmodesmata, impairs potato virus X movement. Plant Cell Online 21, 1541-1555.
  • Reichelt S., Knight A. E., Hodge T. P., Baluska F., Samaj J., Volkmann D., Kendrick-Jones J., 1999. Characterization of the unconventional myosin VIII in plant cells and its localization at the post-cytokinetic cell wall. Plant J. 19, 555.
  • Rinne P. L., van der Schoot C., 1998. Symplasmic fields in the tunica of the shoot apical meristem coordinate morphogenetic events. Development 125, 1477-1485.
  • Ritzenthaler C., Findlay K., Roberts K., Maule A. J., 2000. Rapid detection of plasmodesmata in purified cell walls. Protoplasma 211, 165-171.
  • Robards A. W., 1968. Desmotubule a plasmodesmatal substructure. Nature 218, 784-784.
  • Robards A. W., Lucas W. J., 1990. Plasmodesmata. Annu. Rev. Plant Physiol. Plant Mol. Biol. 41, 369-419.
  • Roberts A. G., 2005. Plasmodesmal structure and development. [W] Plasmodesmata. Oparka K. J. (red.). Blackwell Publishing Ltd, Oxford, 1-32.
  • Roberts A. G., Oparka K. J., 2003. Plasmodesmata and the control of symplastic transport. Plant Cell Environ. 26, 103-124.
  • Roy S., Watada A. E., Wergin W. P., 1997. Characterization of the cell wall microdomain surrounding plasmodesmata in apple fruit. Plant Physiol. 114, 539-547.
  • Samardakiewicz S., Krzeslowska M., Bilski H., Bartosiewicz R., Wozny A., 2012. Is callose a barrier for lead ions entering Lemna minor L. root cells? Protoplasma 249, 347-351.
  • Schapire A. L., Voigt B., Jasik J., Rosado A., Lopez-Cobollo R., Menzel D., Salinas J., Mancuso S., Valpuesta V., Baluška F., Botella M. A., 2008. Arabidopsis synaptotagmin 1 is required for the maintenance of plasma membrane integrity and cell viability. Plant Cell 20, 3374-3388.
  • Schulz A., 1995. Plasmodesmal widening accompanies the short-term increase in symplasmic phloem unloading in pea root tips under osmotic stress. Protoplasma 188, 22-37.
  • Sivaguru M., Fujiwara T., Šamaj J., Baluška F., Yang Z., Osawa H., Maeda T., Mori T., Volkmann D., Matsumoto H., 2000. Aluminum-induced 1→3-β-d-glucan inhibits cell-to-cell trafficking of molecules through plasmodesmata. A new mechanism of aluminum toxicity in plants. Plant Physiol. 124, 991-1006.
  • Sowiński P., 2002. Plazmodesmy, jako element systemu komunikacji w roślinach. Postępy Biologii Komórki 4, 627-635.
  • Sowiński P., Rudzińska-Langwald A., Kobus P., 2003. Changes in plasmodesmata frequency in vascular bundles of maize seedling leaf induced by growth at sub-optimal temperatures in relation to photosynthesis and assimilate export. Environ. Exp. Bot. 50, 183-196.
  • Sowiński P., Bilska A., Barańska K., Fronk J., Kobus P., 2007. Plasmodesmata density in vascular bundles in leaves of C4 grasses grown at different light conditions in respect to photosynthesis and photosynthate export efficiency. Environ. Exp. Bot. 61, 74-84.
  • Stonebloom S., Brunkard J. O., Cheung A. C., Jiang K., Feldman L., Zambryski P., 2012. Redox states of plastids and mitochondria differentially regulate intercellular transport via plasmodesmata. Plant Physiol. 158, 190-199.
  • Strugger S., 1957. Der elektronenmikroskopische Nachweis von Plasmodesmem mit Hilfe der Uranylimprägnierung an Wurzelmeristem. Protoplasma 48, 231-236.
  • Sun C. N., 1960. A demonstration, by electron microscopy, of plasmodesmata in the embryonic leaf cell walls of Cibotium chamissoi. Bull. Torrey Bot. Club 87, 337-341.
  • Thomson W. W., Platt-Aloia K., 1985. The ultrastructure of the plasmodesmata of the salt glands of Tamarix as revealed by transmission and freeze-fracture electron microscopy. Protoplasma 125, 13-23.
  • Tilney L. G., Cooke T. J., Connelly P. S., Tilney M. S., 1991. The structure of plasmodesmata as revealed by plasmolysis, detergent extraction, and protease digestion. J. Cell Biol. 112, 739-747.
  • Tucker E. B., 1990. Calcium-loaded 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid blocks cell-to-cell diffusion of carboxyfluorescein in staminal hairs of Setcreasea purpurea. Planta 182, 34-38.
  • Turner A., Wells B., Roberts K., 1994. Plasmodesmata of maize root tips: structure and composition. J. Cell Sci. 107, 3351-3361.
  • Ueki S., Citovsky V., 2005. Identification of an interactor of cadmium ion-induced glycine-rich protein involved in regulation of callose levels in plant vasculature. Proc. Natl. Acad. Sci. USA 102, 12089-12094.
  • Van Gestel K., Slegers H., von Witsch M., Šamaj J., Baluška F., Verbelen J. P., 2003. Immunological evidence for the presence of plant homologues of the actin- related protein Arp3 in tobacco and maize: subcellular localization to actin-enriched pit fields and emerging root hairs. Protoplasma 222, 45-52.
  • Waigmann E., Chen M.-H., Bachmaier R., Ghoshroy S., Citovsky V., 2000. Regulation of plasmodesmal transport by phosphorylation of tobacco mosaic virus cell-to-cell movement protein. EMBO J. 19, 4875-4884.
  • White R. G., Badelt K., Overall R. L., Vesk M., 1994. Actin associated with plasmodesmata. Protoplasma 180, 169-184.
  • Willison J. H. M., 1976. Plasmodesmata: a freeze-fracture view. Can J Bot 54, 2842-2847.
  • Wojtaszek P., Anielska-Mazur A., Gabryś H., Baluška F., Volkmann D., 2005. Recruitment of myosin VIII towards plastid surfaces is root-cap specific and provides the evidence for actomyosin involvement in root osmosensing. Funct. Plant Biol. 32, 721-736.
  • Yahalom A., Lando R., Katz A., Epel B. L., 1998. A calcium-dependent protein kinase is associated with maize mesocotyl plasmodesmata. J. Plant Physiol. 153, 354-362.
  • Zambryski P., Crawford K., 2000. Plasmodesmata: gatekeepers for cell-to-cell transport of developmental signals in plants. Annu. Rev. Cell Dev. Biol. 16, 393-421.
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.bwnjournal-article-ksv64p431kz
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.