Maite Gil scite author profile

Citrus tristeza virus (CTV) causes one of the most destructive viral diseases of citrus worldwide. Generation of resistant citrus genotypes through genetic engineering could be a good alternative to control CTV. To study whether production of single-chain variable fragment (scFv) antibodies in citrus could interfere and immunomodulate CTV infection, transgenic Mexican lime plants expressing two different scFv constructs, separately and simultaneously, were generated. These constructs derived from the well-referenced monoclonal antibodies 3DF1 and 3CA5, specific against CTV p25 major coat protein, whose mixture is able to detect all CTV isolates characterized so far. ScFv accumulation levels were low and could be readily detected just in four transgenic lines. Twelve homogeneous and vigorous lines were propagated and CTV-challenged by graft inoculation with an aggressive CTV strain. A clear protective effect was observed in most transgenic lines, which showed resistance in up to 40-60% of propagations. Besides, both a delay in symptom appearance and attenuation of symptom intensity were observed in infected transgenic plants compared with control plants. This effect was more evident in lines carrying the 3DF1scFv transgene, being probably related to the biological functions of the epitope recognized by this antibody. This is the first report describing successful protection against a pathogen in woody transgenic plants by ectopic expression of scFv recombinant antibodies.

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Resistance to Plum pox virus in plants expressing cytosolic and nuclear single‐chain antibodies against the viral RNA NIb replicase

Gil¹,

Esteban²,

Garcı́a³

et al. 2011

Plant Pathology

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The expression of engineered single-chain variable fragments specific to the NIb RNA replicase of Plum pox virus (PPV) (scFv2A) in transgenic plants was successfully used as a strategy to interfere with viral infection. Different scFv2A fusion proteins were constructed to target those subcellular compartments, such as the cytosol, endoplasmic reticulum (ER) membrane structures and the nucleus, where NIb protein presumably accumulates. Several transgenic lines of Nicotiana benthamiana plants expressing the scFv2A targeted to the cytosol (2A lines), ER (6K2 lines) and nucleus (NLS lines) were obtained. The protective effect of scFv expression was determined by mechanical virus inoculation in five 2A, three 6K2 and four NLS transgenic lines. The strongest resistance was afforded with the 2A-3 (six non-infected plants out of 10), 6K2-1 (17 out of 33) and NLS-11 (16 out of 19) transgenic lines. The success of this interference with PPV infection opens new possibilities for the control of this RNA virus and could be exploited not only to confer resistance in transgenic plants, but also to elucidate the role of the non-structural NIb protein in different cell compartments during viral infection.

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Expression of Single-Chain Variable Fragments Against Structural and Non-Structural Proteins of Plum Pox Virus in Transgenic Nicotiana Benthamiana Plants to Interfere With Viral Infection

Gil¹,

Esteban²,

Martínez³

et al. 2004

Acta Hortic.

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Maite Gil

Real-time assay for quantitative detection of non-persistently transmitted Plum pox virus RNA targets in single aphids

Identification of potential indoor air pollutants in schools

Transgenic expression in citrus of single-chain antibody fragments specific to Citrus tristeza virus confers virus resistance

Resistance to Plum pox virus in plants expressing cytosolic and nuclear single‐chain antibodies against the viral RNA NIb replicase

Expression of Single-Chain Variable Fragments Against Structural and Non-Structural Proteins of Plum Pox Virus in Transgenic Nicotiana Benthamiana Plants to Interfere With Viral Infection

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