Biopolym. Cell. 1996; 12(5):72-78.
Деякі властивості вірусу, ізольованого з соняшнику
1Князева Н. А., 1Закусило А. О., 1Діденко Л. Ф., 1Бойко А. Л.
  1. Київський національний університет імені Тараса Шевченка
    вул. Володимирська 64, Київ, Україна, 01033

Abstract

Вивчено біологічні та деякі фізико-хімічні властивості патогена, що викликає жовту мозаїку, гофрировку та деградацію листкової пластинки Helianthus annuus L. Встановлені властивості досліджуваного вірусу дозволили віднести його до роду Tospovirus родини Bunyaviridae та ідентифікувати як вірус, подібний до вірусу бронзовості томатів (ВБТс).

References

[1] Soriano S. Nota subre algunas infermedales de los vegetales producidas por virus en la Republica Argentina. Physis. 1932; 11: 87-92.
[2] Tselle MA. Sunflower diseases. L., 1932: 14-6
[3] Ryzhkov VL. Phytopathogenic viruses. M: AN SSSR, 1946; 154-5.
[4] Muntanolla M. Discription de una nueva enfernedad del Girasol. Rev Invest, agric. Buenos Aires. 1948; 2: 205-12.
[5] Sutic M. Occurrence of a new sunflower disorder in Yugoslavia. F. A. O. Plant Protection Bull. 1960; 8,(11): 129-32.
[6] Sighn IP. Mechanical and seed transmission of the causal agent of sunflower rugose mosaic in Kenya. The Sunflower Newsletter. 1979. 3(1): 13-4.
[7] Arnott HJ, Smith KM. Electron microscopy of virus-infected sunflower leaves. J Ultrastruct Res. 1967;19(1):173-95.
[8] Munoz I, Giorda L, Teyssandier E, Lenardon S. Una virosis del girasol (Helianthus annuus L.) en la Republica Argentina. Resumens 4 Jorna das Fitosanitarias Argentinas Cordoba (19-21 de agosto, 1981). Cordoba, 1981: 31-32.
[9] Kiehr-Delhey M, Delhey R. Necochence mosaic of sunflower in the southeast of tne province of Buenos Aires, Argentina. Actas 3 Int. Sunflower Conf. Buenos Aires, 1985: 449-54.
[10] Fernandez SR. Breve resena bibliografica de algunas enfermedades y plagas que afectan al girasol. Rep. de investigacion del Inst, de vestigaciones fundamentals en agricultura tropical ISSN. 1988; 3: 19-23.
[11] Chod I, Skaloud V, Jokez M, Nalez V viru v souveslostic priznaky slunecnice. Ochr rozte. 1990; 26(1): 11-6.
[12] Boyko AL, Litvinov GS, Senchugova YA. About sunflower diseases caused by viruses. Argicultural biology. 1985; 8:72-4.
[13] Litvinov GS, Knyazeva NA, Kondratyuk EA et al. Virological aspects of biotechnology accelerated receipt of high-yielding varieties and hybrids of sunflower. Tr. 5th All-Union. Interuniversity Conf. "Cell Biology". Tbilisi, 1987. Vol 2: 669-70.
[14] Litvinov GS, Knyazeva NA, Kondratyuk EA. et al. The sunflower viral diseases diagnostics. Sunflower Assotiation (Npvi Sad, Yugoslavia, July, 25-29 1988). Novi Sad, 1988. Vol. 11: 10-5.
[15] Knyazeva NA, Smirnova SA, Litvinov GS, et al. Viroses of sunflower agrocenoses south of the Ukrainian SSR. Coll. tr. "Problems of general and molecular. Biology ". 1989; 8: 87-90.
[16] Knyazeva NA, Boyko AL, Zakusilo AO, Postoyenko OM, Kosyan AM. Phytosanitary control of industrial sunflower plantations for presence of virus infections. Biopolym Cell. 1995; 11(6):81-8.
[17] Weakley BS. Beginners' Handbook in Biological Electron Microscopy. Churchill Livingstone. 1972, 240p.
[18] Ouchterlony O. Diffusion-in-gel methods for immunological analysis. Progr. Allergy. 1948. 5: 1-78.
[19] Clark MF, Adams AN. Characteristics of the microplate method of enzyme-linked immunosorbent assay for the detection of plant viruses. J Gen Virol. 1977;34(3):475-83.
[20] Knyazeva NA, Kondratyuk OA, Sharova AO. Optimization of conditions for diagnosing viruses strike sunflower. Materials Intl. Conf. "Current methods of research in agronomy" Uman, 1993: 126-7.
[21] Banttari EE. Detection of potato viruses S, X, and Y by enzyme-linked immunosorbent assay on nitrocellulose membranes (Dot-ELISA). Plant Dis. 1985;69(3):202-5.
[22] Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature. 1970;227(5259):680-5.
[23] Towbin H, Staehelin T, Gordon J. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. Proc Natl Acad Sci U S A. 1979;76(9):4350-4.
[24] Best RJ. Tomato spotted wilt virus. Adv Virus Res. 1968;13:65-146.
[25] Mohamed NA, Randles JW, Francki RI. Protein composition of tomato spotted wilt virus. Virology. 1973;56(1):12-21.
[26] Zakusilo AO, Didenko LF, Kniazieva NA, Bo?ko AL. [Isolation and purification of virus damaging sunflower]. Ukr Biokhim Zh. 1994;66(5):87-92.
[27] Tas PWL, Boerjan ML, Peters D. Purification and serological analysis of tomato spotted wilt virus. J Gen Virol. 1977; 36: 267-79.
[28] Wang M, Gonsalves D. ELISA detection of various tomato spotted wild virus isolates using specific antisera to structural proteins of the virus. Plant Disease. 1990; 74(2): 154-8.
[29] Law MD, Moyer JW. A tomato spotted wilt-like virus with a serologically distinct N protein. J Gen Virol. 1990;71(4):933–8.
[30] Sreenivasulu P, Demski Jw, Reddy Dvr, Naidu Ra, Ratna As. Purification and some serological relationships of tomato spotted wilt virus isolates occurring on peanut (Arachis hypogaea) in the USA. Plant Pathol. 1991;40(4):503–7.
[31] Kormelink R. Functional analysis of the nonstructural proteins of tomato spotted wilt virus. Abstr. 9 th Int. Congr. of Virology (Glasgow, Scotland, 8-13 August). Glasgow, 1993: 97.
[32] Hall IM, Speck I, Geske S, Moyer IW. A tospovirus with a serologically distinct nucleocapsid isolated from onion (Allium cepa) Abstr. 9th Int. Congr. of Virology (Glasgow, Scotland, 8-13 August). Glasgow, 1993: 357.
[33] Zakusilo A, Knyaseva N, Didenko L, Boyko A. Identification of an ukrainian virus isolate from Helianthus annuus L. with yellow spot mosaic symptoms . Archives Of Phytopathology And Plant Protection. 1994;29(1):13–9.
[34] Feldman JM, Boninsegna JA. Antiserum for tomato spotted wilt virus. Nature. 1968;219(5150):183-4.
[35] Tsakiridis IP, Gooding GVJ. Tomato spotted wild virus in Greece. Phytopathol mediter. 1972; 11(1): 42-7.
[36] Joubert JJ, Hahn JS, von Wechmar MB, van Regenmortel MH. Purification and properties of tomato spotted wilt virus. Virology. 1974;57(1):11-9.