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2010 | 50 | 3 |

Tytuł artykułu

Zastosowanie biotechnologii w ochronie roślin przed nicieniami

Warianty tytułu

EN
Biotechnology in plant protection against nematodes

Języki publikacji

PL

Abstrakty

EN
Plant parasitic nematodes feed and develop on many economically important crop species causing high losses amounting to many billions dollars every year throughout the world. This negative balance make them the second most damaging group of pathogen/pests after fungi. Additionally, some of them are viral vectors that is contributing to their higher extent of harm caused. Nevertheless, plant nematology is underrepresented in terms of staff in comparison to other fields focusing on plant pests and pathogens. Development in biotechnology however, caused also the development in plant nematology providing tools for characterization or identification of nematode species. New modern diagnostics approaches are continuously described on the basis of genome analysis. Also in Plant Protection Institute – National Research Institute several studies are conducted that concentrate on populations variability of economically important nematode species, diagnostics, and plant-nematode interactions. Another aspect of interest involving biotechnologists is characterization of host reaction to plant-parasitic nematode infection and description of genes participating in production of resistance against those pests. The use and generation of resistant cultivars is a powerful tool in reducing the spread of some quarantine nematodes. Since nematodes are very difficult to destroy, their reduction is a major challenge for plant protection. The use of biotechnology along with other alternative approaches may help to achieve this goal.

Wydawca

-

Rocznik

Tom

50

Numer

3

Opis fizyczny

s.1113-1118,bibliogr.

Twórcy

  • Instytut Ochrony Roślin – Państwowy Instytut Badawczy, ul.Władysława Węgorka 20, 60-318 Poznań

Bibliografia

  • Cai D., Kleine M., Kifle S., Harloff H.J., Sandal N.N., Marcker K.A., Klein-Lankhorst R.M., Salentijn E.M., Lange W., Stiekema W.J., Wyss U., Grundler F.M., Jung C. 1997. Positional cloning of a gene for nematode resistance in sugar beet. Science 275: 832–834.
  • Doyle E.A., Lambert K.N. 2003. Meloidogyne javanica chorismate mutase 1 alters plant cell development. Mol. Plant Microbe Interact. 16: 123–131.
  • Ernst K., Kumar A., Kriseleit D., Kloos D.U., Phillips M.S., Ganal M.W. 2002. The broadspectrum potato cyst nematode resistance gene (Hero) from tomato is the only member of a large gene family of NBS-LRR genes with an unusual amino acid repeat in the LRR region. Plant J. 31: 127–136.
  • Goggin F.L., Shah G., Hebert S., Williamson V.L., Ullman D.E. 2005. Heterologous expression of the Mi-1.2 gene from tomato confers resistance against nematodes but not aphids in eggplant. Mol. Plant Microbe Interact. 19: 383–388.
  • Kikuchi T., Shibuya H., Aikawa T., Jones J.T. 2006. Cloning and characterization of pectate lyases exprssed in the esophageal gland of the pine wood nematode Bursaphelenchus xylophilus. Mol. Plant Microbe Interact. 19: 280–287.
  • Ledger T.N., Jaubert S., Bosselut N., Abad P., Rosso M.N. 2006. Characterization of a new beta-1,4-endoglucanase gene from the root-knot nematode Meloidogyne incognita and evolutionary scheme for phytonematode family 5-glycosyl hydrolases. Gene 382: 121–128.
  • Lilley C.J., Bakhetia M., Charlton W.L., Urwin P.E. 2007. Recent progress in the development of RNA interference for plant parasitic nematodes. Mol. Plant. Pathol. 8: 701–711.
  • Milligan S.B., Bodeau J., Yakhoobi J., Kaloshian I., Zabel P., Williamson V.M. 1998. The root knot nematode resistance gene Mi from tomato is a member of the leucine zipper, nucleotide binding, leucine-rich repeat family of plant genes. Plant Cell 10: 1307–1319.
  • Nombela G., Williamson V.M., Muniz M. 2003. The root-knot nematode resistance gene Mi-1.2 of tomato is responsible for resistance against the whitefly Bemisia tabaci. Mol. Plant Microbe Interact. 16: 645–649.
  • Nowaczyk K., Dobosz R., Kornobis S., Obrępalska-Stęplowska A. 2008. TaqMan Real-Timebased approach for differentiation between Globodera rostochiensis (Golden nematode) and Globodera artemisiae species. Parasitol. Res. 103: 577–581.
  • Obrępalska-Stęplowska A., Nowaczyk K., Łuczak M., Figlerowicz M., Dobosz R., Budziszewska M. 2009. Analysis of proteome alteration in tomato roots after Meloidogyne hapla infection. FEBS J. 276, suppl 1, p. 98.
  • Paal J., Henselewski H., Muth J., Meksem K., Menendez C.M., Salamini F., Ballvora A., Gebhardt C. 2004. Molecular cloning of the potato Gro1-4 gene conferring resistance to pathotype Ro1 of the root nematode Globodera rostochiensis, based on a candidate gene approach. Plant J. 38: 285–297.
  • Qin L., Kudla U., Roze E.H., Goverse A., Popeijus H. 2004. Plant degradation: A nematode expansin acting on plants. Nature 427, p. 30.
  • Rossi M., Goggin F.L., Milligan S.B., Kaloshian I., Ullman D.E., Williamson V.M. 1998. The nematode resistance gene Mi of tomato confers resistance against the potato aphid. Proc. Natl. Acad. Sci. U.S.A. 95: 9750–9754.
  • Schaff J.E., Nielsen D.M., Smith C.P., Scholl E.H., Bird D.M. 2007. Comprehensive transcriptome profiling in tomato reveals a role for glycosyltransferase in Mi-mediated nematode resistance. Plant Physiol. 144: 1079–1092.
  • Van der Vossen E.A., van der Voort J.N., Kanyka K., Bendahmane A., Sandbrink H., Baulcombe D.C., Bakker J., Stiekema W.J., Klein-Lankhorst R.M. 2000. Homologues of a single resistance gene cluster in potato confer resistance to distinct pathogens: a virus and a nematode. Plant J. 23: 567–576.
  • (http://www.sanger.ac.uk/sequencing/Globodera/pallida/)
  • (http://www.inra.fr/meloidogyne_incognita/layout/set/print/sequencing)

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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