S. Krastanova scite author profile

S. Krastanova

4Publications

62Citation Statements Received

60Citation Statements Given

How they've been cited

157

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Affiliations

Florida Agricultural and Mechanical University, Cornell University, Colmar Inra Research Centre

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Transformation of grapevine rootstocks with the coat protein gene of grapevine fanleaf nepovirus

et al. 1995

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Control of fanleaf disease induced by the Grapevine Fanleaf Nepovirus (GFLV) today is based on sanitary selection and soil disinfection with nematicides. This way of control is not always efficient and nematicides can be dangerous pollutants. Coat protein (CP) mediated protection could be an attractive alternative. We have transferred a chimeric CP gene of GFLV-F13 via Agrobacterium tumefaciens LBA4404 into two rootstock varieties: Vitis rupestris and 110 Richter (V. rupestris X V. Berlandieri). Transformation was performed on embryogenic callus obtained from anthers and on hypocotyl fragments from mature embryos. Success of the transformation was assessed by polymerase chain reaction and Southern analyses. Transformants with a number of copies of the CP gene varying from one to five were obtained. Enzyme-linked immunosorbent assay with virus-specific antibodies revealed various levels of expression of the coat protein in the different transformants.

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Resistance to crown gall disease in transgenic grapevine rootstocks containing truncated virE2 of Agrobacterium

et al. 2010

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A truncated form of the Ti-plasmid virE2 gene from Agrobacterium tumefaciens strains C58 and A6, and A. vitis strain CG450 was transferred and expressed in somatic embryos of grapevine rootstocks 110 Richter (Vitis rupestris × V. berlandieri), 3309 Couderc (V. rupestris × V. riparia) and Teleki 5C (V. berlandieri × V. riparia) via Agrobacterium-mediated transformation to confer resistance to crown gall disease. Transformation was confirmed in 98% of the 322 lines by enzyme-linked immunosorbent assay for the neomycin phosphotransferase II protein and 97% of 295 lines by polymerase chain reaction for the truncated virE2 transgene. Southern blot analysis revealed the insertion of truncated virE2 at one to three loci in a subset of seven transgenic 110 Richter lines. In vitro resistance screening assays based on inoculations of shoot internode sections showed reduced tumorigenicity and very small galls in 23 of 154 transgenic lines. Non-transformed controls had a 100% tumorigenicity rate with very large galls. Disease resistance assay at the whole plant level in the greenhouse revealed seven transgenic lines (3 lines of 110 Richter, 2 lines of 3309 Couderc and 2 lines of Teleki 5C) were resistant to A. tumefaciens strain C58 and A. vitis strains TM4 and CG450 with a substantially reduced percentage of inoculation sites showing gall as compared to controls. No association was found between the level of resistance to crown gall disease and the source Agrobacterium strain of virE2. Taken together, our data showed that resistance to crown gall disease can be achieved by expressing a truncated form of virE2 in grapevines.

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Transformation of five grape rootstocks with plant virus genes and a virE2 gene from Agrobacterium tumefaciens

Xue

Ling

Reid

et al. 1999

In Vitro Cell.Dev.Biol.-Plant

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SUMMARYTo facilitate the development of transgenic grapevines that are resistant to grapevine fanleaf virus (GFLV), grapevine leafroll-associated closterovirus (GLRaV-3) and crown gall diseases, we developed a rapid system for regenerating rootstocks: Couderc 3309, Vitis riparia 'Gloire de Montpellier', Teleki 5C, Millardet et De Grasset 101-14, and 110 Richter via somatic embryogenesis. Embryo culture and grape regeneration were accomplished with four media. Embryogenic calluses from anthers were induced in the initiation medium [MS basic medium containing 20 g sucrose per L, 1.1 mg 2,4-dichlorophenoxyacetic acid (2,4-D) per L, 0.2 mg N6-benzyladenine (BA) per L, and 0.8% Noble agar]. The percentage of anthers that developed into embryogenic calli ranged from 2 to 16.3% depending on the rootstock. Calluses with early globular stage embryos were cocuhivated with Agrobacterium tumefaciens strain C58Z707 containing the gene constructs of interest. The genes were sense-oriented translatable and antisense coat protein genes from GFLV and GLRaV-3, a truncated HSP90-related gene of , and a virE2 del B gene from A. tumefaciens strain C58. Twenty independent transformation experiments were performed on five rootstocks. After 3-4 mo. under kanamycin selection, secondary embryos were recovered on differentiation medium (1/2 MS salts with 10 g sucrose per L, 4.6 g glycerol per L, and 0.8% Noble agar). Embryos that were transformed were regenerated on a medium containing MS salts with 20 g sucrose per L, 4.6 g glycerol per L, 1 g casein hydrolysate per L, and 0.8% Noble agar. Elongated embryos were then transferred to a rooting medium supplemented with 0.1 mg BA per L, 3 g activated charcoal per L, 1.5% sucrose, and 0.65% Bacto agar. A total of 928 independent putative transgenic plants were propagated in the greenhouse. All plants were tested for neomycin phosphotransferase II expression by enzyme-linked immunosorbent assay (ELISA). The presence of transgenes was assessed by polymerase chain reaction and Southern analysis. ELISA revealed various levels of expression of GFLV coat protein in transgenic plants of Couderc 3309. The transgenic rootstocks that have been generated are being screened to determine whether transgenes have conferred resistance to the virus and crown gall diseases.

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Analysis of transgenic grapevine (Vitis rupestris) and Nicotiana benthamiana plants expressing an Arabis mosaic virus coat protein gene

Spielmann

Krastanova²,

Douet-Orhant

et al. 2000

Plant Science

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S. Krastanova

Transformation of grapevine rootstocks with the coat protein gene of grapevine fanleaf nepovirus

Resistance to crown gall disease in transgenic grapevine rootstocks containing truncated virE2 of Agrobacterium

Transformation of five grape rootstocks with plant virus genes and a virE2 gene from Agrobacterium tumefaciens

Analysis of transgenic grapevine (Vitis rupestris) and Nicotiana benthamiana plants expressing an Arabis mosaic virus coat protein gene

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