Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:9
  • preuzimanja u poslednjih 30 dana:7

Sadržaj

članak: 6 od 28  
Back povratak na rezultate
Ratarstvo i povrtarstvo
2012, vol. 49, br. 2, str. 151-159
Prisustvo i karakterizacija virusa žutog mozaika cukinija u usevu lubenice u Srbiji
Vučurović Anaa ORCID, Bulajić Aleksandraa ORCID, Milojević Katarinaa, Stanković Ivanaa, Ristić Danijelaa, Berenji Janošb, Krstić Brankaa
aUniverzitet u Beogradu, Poljoprivredni fakultet
bNaučni institut za ratarstvo i povrtarstvo, Novi Sad

e-adresahomemadeent@gmail.com
Projekat:
Agrobiodiverzitet i korišćenje zemljišta u Srbiji: integrisana procena biodiverziteta ključnih grupa artropoda i biljnih patogena (MPNTR - 43001)
Razvoj novih sorti i poboljšanje tehnologija proizvodnje uljanih biljnih vrsta za različite namene (MPNTR - 31025)

Sažetak
Prisustvo virusa žutog mozaika cukinija (Zucchini yellow mosaic virus, ZYMV) na dva od sedam lokaliteta gajenja lubenice u Srbiji tokom 2011. godine utvrđeno je analizom uzoraka lišća simptomatičnih i asimptomatičnih biljaka lubenice primenom DAS-ELISA metode. Na lokalitetu Gornji Tavankut, ZYMV je dokazan u 23,08% testiranih biljaka u pojedinačnim infekcijama, a na lokalitetu Silbaš u 35,29% testiranih biljaka u mešanim infekcijama sa virusom mozaika krastavca i virusom mozaika lubenice. ZYMV je uspešno mehanički prenesen sa prirodno zaraženih biljaka lubenice na Cucurbita pepo 'Ezra F1'. Molekularna detekcija obavljena je RT-PCR metodom umnožavanjem dela gena za nuklearne inkluzije, gena za protein omotača i dela 3' neprepisujućeg regiona, čime je potvrđena identifikacija izolata. Filogenetske analize pokazale su grupisanje izolata poreklom iz lubenice sa drugim izolatima iz Srbije i Centralne Evrope u okviru A-I podgrupe. Analize aminokiselinske sekvence N-terminalnog kraja CP gena, takođe su pokazale pripadnost izolata 550-11 centralnoevropskoj grani.
Reference

4

Bananej, K., Keshavaraz, T., Vahdat, A., Hosseini, S.G., Glasa, M. (2008) Biological and molecular variability of Zucchini yellow mosaic virus in Iran. Journal of Phytopathology, 156(11-12): 654

29

Clark, M.F., Adams, A.N. (1977) Characteristics of the microplate method of enzyme-linked immunosorbent assay for the detection of plant viruses. J Gen Virol, 34(3): 475-83

Coutts, B.A., Kehoe, M.A., Webster, C.G., Wylie, S.J., Jones, R.A.C. (2011) Zucchini yellow mosaic virus: Biological properties, detection procedures and comparison of coat protein gene sequences. Archives of virology, 156(12): 2119-31

da Silveira, D.M., Queiroz, M.A., Lima, J.A.A., Nascimento, A.K.Q., Lima, N.I.S. (2009) Levantamento sorológico de vírus em espécies de cucurbitáceas na região do submédio São Francisco. Brasil. Trop. Plant Pathol, 34, str. 123-126

4

Desbies, C., Lecoq, H. (1997) Zucchini yellow mosaic virus. Plant Pathology, 46, 809-829

2

Dukić, N., Krstić, B., Katis, N.I., Papavassilious, C., Berenji, J., Vico, I. (2001) Etiologija propadanja tikvica (Cucurbita pepo L.) u Jugoslaviji. u: Jugoslovensko savetovanje o zaštiti bilja (V), Zlatibor, zbornik rezimea, 85

6

Dukić, N., Krstić, B.B., Vico, I.M., Katis, N.I., Papavassiliou, C., Berenji, J.B. (2002) Biološka i serološka karakterizacija virusa tikvica u Jugoslaviji. Journal of Agricultural Sciences, vol. 47, br. 2, str. 149-160

8

Dukić, N., Berenji, J., Krstić, B., Vico, I., Bulajić, A. (2003-2004) Prisustvo i rasprostranjenost viroza obične tikve (Cucurbita pepo L) u Vojvodini. Bilten za hmelj, sirak i lekovito bilje, vol. 35-36, br. 76-77, str. 71-79

3

Đekić, I., Bulajić, A., Berenji, J., Krstić, B. (2007) Epidemijska pojava viroza tikava (Cucurbita spp) u Srbiji. u: Simpozijum sa savetovanjem o zaštiti bilja (XIII), 26.-30. novembar, Zlatibor, Zbornik rezimea, str. 118-119

FAO (2010) FAO Corporate Statistical Database. Rome, Online, 1p, Available at http://faostatfao.org/site/567/DesktopDefault aspx?PageID=567ancor (Cited 23 February 2012, verified 15 March 2012). FAO Corporate Statistical Database (FAOSTAT)

3

Fletcher, J.D., Wallace, A.R., Rogers, B.T. (2000) Potyvirus in New Zealand buttercup squash (Cucurbita maxima Duch.): Yield and quality effects of ZYMV and WMV2 virus infections. New Zealand Journal of Crop and Horticultural Science, 28, 17-26

1

Gal-On, A. (2007) Zucchini yellow mosaic virus: Insect transmission and pathogenicity: The tails of two proteins. Molecular Plant Pathology, 8(2): 139

1

Glasa, M., Svoboda, J., Nováková, S. (2007) Analysis of the molecular and biological variability of Zucchini yellow mosaic virus isolates from Slovakia and Czech Republic. Virus Genes, 35(2): 415

1

Guner, N., Wehner, T.C. (2008) Overview of Potyvirus resistance in watermelon. u: EUCARPIA meeting on genetics and breeding of cucurbitaceae, (IX), Avignon, France, Proceedings, str. 445-452

Krstić, B.B., Berenji, J.B., Dukić, N.D., Vico, I.M., Katis, N.I., Papavassiliou, C.C. (2002) Identification of viruses infecting pumpkins (Cucurbitapepo L.) in Serbia. Zbornik Matice srpske za prirodne nauke, br. 103, str. 67-79

4

Kucharek, T.A., Purcifull, D.E. (1997) Aphid-transmitted viruses of cucurbits in Florida. u: Florida Cooperative Extension Service Circular, Gainesville, Florida, br. 1184, str. 11

2

Lecoq, H., Pitrat, M., Clement, M. (1981) Identification et caracterisation d'un potyvirus provoquant la maladie du rabougrissement jaune du melon. Agronomie, 1(10): 827

Ling, K., Harris, K.R., Meyer, J.D.F., Levi, A., Guner, N., Wehner, T.C., Bendahmane, A., Havey, M.J. (2009) Non-synonymous single nucleotide polymorphisms in the watermelon eIF4E gene are closely associated with resistance to zucchini yellow mosaic virus. TAG Theoretical and Applied Genetics, 120(1): 191-200

2

Lisa, V., Lecoq, H. (1984) Zucchini yellow mosaic virus. CMI/AAB Descriptions of Plant Viruses, br. 282

2

Lisa, V., Boccardo, G., D'Agostino, G., Dellavalle, G., d'Aquilio M. (1981) Characterization of a potyvirus that causes zucchini yellow mosaic. Phytopathology, 71: 667-672

1

Perkins-Veazie, P., Collins, J.K., Pair, S.D., Warren, R. (2001) Lycopene content differs among red-fleshed watermelon cultivars. Journal of the Science of Food and Agriculture, 81(10): 983-987

2

Pfosser, M.F., Baumann, H. (2002) Phylogeny and geographical differentiation of zucchini yellow mosaic virus isolates (Potyviridae) based on molecular analysis of the coat protein and part of the cytoplasmic inclusion protein genes. Archives of virology, 147(8): 1599-609

Providenti, R., Gonsalves, D., Humaydan, H.S. (1984) Occurrence of Zuchini yellow mosaic virus in Cucurbits from Connecticut. New York, Florida and California. Plant Disease, 68, str. 443-446

Provvidenti, R. (1991) Inheritance of resistance to the Florida strain of Zucchini yellow mosaic virus in watermelon. HortScience, 26, str. 407-408

1

Prowidenti, R. (1996) Diseases caused by viruses. u: Zitter T.A., Hopkins D.L., Thomas C.E. [ur.] Compendium of Cucurbit Diseases, St. Paul, Minnesota, USA: APS Press, pp. 37-45

Szamosi, C., Solmaz, I., Sari, N., Barsony, C. (2009) Morphological characterization of Hungarian and Turkish watermelon [Citrullus lanatus (Tiinb) Matsum. et Nakai) genetic resources. Genet. Resour. Crop Evol, 56, str. 1091-1105

9

Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M., Kumar, S. (2011) MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Molecular biology and evolution, 28(10): 2731-9

Thomson, K.G., Dietzgen, R.G., Gibbs, A.J., Tang, Y.C., Liesack, W., Teakle, D.S., Stackebrandt, E. (1995) Identification of Zucchini yellow mosaic potyvirus by RT-PCR and analysis of sequence variability. Journal of Virological Methods, 55(1), 83-96

1

Tobias, I., Palkovics, L. (2003) Characterization of Hungarian isolates of zucchini yellow mosaic virus (ZYMV, potyvirus) transmitted by seeds of Cucurbita pepo var Styriaca. Pest Management Science, 59(4): 493-7

Vučurović, A., Bulajić, A., Stanković, I., Ristić, D., Nikolić, D. (2012) First report of Zucchini yellow mosaic virus in watermelon in Serbia. Plant Disease, 96: 149

Vučurović, A., Bulajić, A., Stanković, I., Ristić, D., Berenji, J., Jović, J., Krstić, B. (2012) Non-persistently aphid-borne viruses infecting pumpkin and squash in Serbia and partial characterization of Zucchini yellow mosaic virus isolates. European Journal of Plant Pathology

3

Vučurović, A., Bulajić, A., Đekić, I., Ristić, D., Berenji, J., Krstić, B. (2009) Biološka varijabilnost virusa žutog mozaika cukinija u Srbiji. Pesticidi i fitomedicina, vol. 24, br. 4, str. 271-280

6

Vučurović, A., Bulajić, A., Đekić, I., Ristić, D., Berenji, J., Krstić, B. (2009) Prisustvo i rasprostranjenost virusa uljane tikve i molekularna detekcija virusa žutog mozaika cukinija. Pesticidi i fitomedicina, vol. 24, br. 2, str. 85-94

1

Xu, Y., Kang, D., Shi, Z., Shen, H., Wehner, T. (2004) Inheritance of resistance to zucchini yellow mosaic virus and watermelon mosaic virus in watermelon. Journal of heredity, 95(6): 498-502

Yu, T., Chiang, C., Wu, H., Li, C., Yang, C., Chen, J., Chen, Y., Yeh, S. (2011) Generation of transgenic watermelon resistant to Zucchini yellow mosaic virus and Papaya ringspot virus type W. Plant cell reports, 30(3): 359-71

1

Zitter, T.A. (1977) Epidemiology of aphid borne viruses. u: Harris K.F., Maramorosch K. [ur.] Aphids as virus vector, London: Academic Press, str. 385-412
   

O članku

jezik rada: srpski
vrsta rada: izvorni naučni članak
DOI: 10.5937/ratpov49-1773
objavljen u SCIndeksu: 10.08.2012.
metod recenzije: dvostruko anoniman

Povezani članci

Pesticidi i fitomedicina (2009)
Biološka varijabilnost virusa žutog mozaika cukinija u Srbiji
Vučurović Ana, i dr.

Pesticidi i fitomedicina (2011)
Karakterizacija virusa mozaika krastavca poreklom iz tikava u Srbiji
Vučurović Ana, i dr.

Pesticidi i fitomedicina (2010)
Učestalost pojave i molekularna karakterizacija virusa mozaika lubenice poreklom iz Srbije
Vučurović Ana, i dr.

prikaži sve [43]