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1.
Front Bioeng Biotechnol ; 10: 926239, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-36131725

RESUMEN

Recombinant expression using Agrobacterium-mediated transient transformation (ATT) of plants has developed into a robust and versatile method to rapidly produce proteins. The capability of plants to efficiently synthesize even homo- and hetero-multimeric complex folded proteins featuring disulfide bonds and other post-translational modifications such as N-linked glycosylation makes them superior to most of the established microbial, especially prokaryotic expression hosts. Compared to production in mammalian cell cultures, ATT requires lower skills, simple technical equipment and cheaper media components. Taken together these features make the method optimally suited for R&D applications involving the development and engineering of recombinant proteins for various purposes ranging from vaccine candidates, therapeutic proteins, towards enzymes for different pharmaceutical and technical applications. Despite these advantages the technology is currently not being used outside the community of plant research. The design and realization of a kit containing all the information, instructions and ideally also the material required to perform recombinant protein production using ATT in an educational or commercial context was one of the objectives of the EU-funded Horizon 2020 project Pharma-Factory. While it is pretty straightforward to assemble a comprehensive instruction manual describing the procedure, the clarification of regulatory and legal aspects associated with the provision, dissemination and use of the different materials and organisms required to perform ATT is a complex matter. In this article, we describe the initial concept of an ATT kit for educational as well as research and development (R&D) purposes and the specific regulatory and legal implications associated with the various kit components. We cover aspects including intellectual property rights, freedom-to-operate (FTO), safety regulations for distributing genetically-modified organisms (GMOs), as well as export and import regulations. Our analysis reveals that important components of the ATT kit are freely available for research purposes but not or only with considerable effort for commercial use and distribution. We conclude with a number of considerations and requirements that need to be met in order to successfully disseminate such a kit in the future.

2.
Methods Mol Biol ; 2480: 89-102, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-35616859

RESUMEN

The agroinfiltration of plant tissue is a robust method that allows the rapid and transient expression of recombinant proteins. Using wild-type plants as biomass, agroinfiltration exploits the ability of plants to synthesize even complex multimeric proteins that require oxidative folding and/or post-translational modifications, while avoiding the expensive and time-consuming creation of stably transformed plant lines. Here we describe a generic method for the transient expression of recombinant proteins in Nicotiana benthamiana at the small to medium laboratory scale, including appropriate binary vectors, the design and cloning of expression constructs, the transformation, selection, and cultivation of recombinant Agrobacterium tumefaciens, the infiltration of plants using a syringe or vacuum device, and finally the extraction of recombinant proteins from plant tissues.


Asunto(s)
Agrobacterium tumefaciens , Nicotiana , Agrobacterium tumefaciens/genética , Agrobacterium tumefaciens/metabolismo , Hojas de la Planta/metabolismo , Plantas Modificadas Genéticamente/metabolismo , Proteínas Recombinantes/metabolismo , Nicotiana/metabolismo
3.
Fungal Biol ; 125(8): 621-629, 2021 08.
Artículo en Inglés | MEDLINE | ID: mdl-34281655

RESUMEN

Aspergillus flavus is a major fungal pathogen of plants and an opportunistic pathogen of humans. In addition to the direct impact of infection, it produces immunosuppressive and carcinogenic aflatoxins. The early detection of A. flavus is therefore necessary to diagnose and monitor fungal infection, to prevent aflatoxin contamination of food and feed, and for effective antifungal therapy. Aspergillus-specific monoclonal antibodies (mAbs) are promising as diagnostic and therapeutic reagents for the tracking and treatment of Aspergillus infections, respectively. However, A. flavus has a complex cell wall composition and dynamic morphology, hindering the discovery of mAbs with well-characterized targets. Here we describe the generation and detailed characterization of mAb5.52 (IgG2aκ) and mAb17.15 (IgG1κ), which bind specifically to the highly immunogenic cell wall antigen A. flavus mannoprotein 1 (Aflmp1). Both mAbs were generated using hybridoma technology following the immunization of mice with a recombinant truncated version of Aflmp1 (ExD, including the homologous CR4 domain) produced in bacteria. We show that mAb5.52 and mAb17.15 bind specifically to A. flavus and A. parasiticus cell wall fragments (CWFs), with no cross-reaction to CWFs from other fungal pathogens. Immunofluorescence microscopy revealed that both mAbs bind to the surface of Aspergillus hyphae and that mAb17.15 also binds to spores. The epitope for both mAbs is localized within the CR4 region of the Aflmp1 protein. These Aspergillus-specific mAbs may be useful for the early detection of fungal infection in food/feed crops, for serodiagnosis in patients with invasive aspergillosis caused by A. flavus infection and for the development of antibody-expressing disease-resistant crops.


Asunto(s)
Anticuerpos Monoclonales , Aspergillus flavus , Animales , Anticuerpos Monoclonales/metabolismo , Aspergilosis/diagnóstico , Aspergilosis/microbiología , Aspergillus flavus/química , Pared Celular/química , Productos Agrícolas/microbiología , Proteínas Fúngicas/metabolismo , Hibridomas , Ratones , Proteínas Recombinantes/inmunología
4.
Plant Direct ; 5(5): e00329, 2021 May.
Artículo en Inglés | MEDLINE | ID: mdl-34095742

RESUMEN

Traditional breeding and molecular approaches have been used to develop tobacco varieties with reduced nicotine and secondary alkaloid levels. However, available low-alkaloid tobacco varieties have impaired leaf quality likely due to the metabolic consequences of nicotine biosynthesis downregulation. Recently, we found evidence that the unbalanced crosstalk between nicotine and polyamine pathways is involved in impaired leaf ripening of a low-alkaloid (LA) Burley 21 line having a mutation at the Nic1 and Nic2 loci, key biosynthetic regulators of nicotine biosynthesis. Since the Nic1 and Nic2 loci are comprised of several genes, all phenotypic changes seen in LA Burley 21 could be due to a mixture of genetics-based responses. Here, we investigated the commercial burley variety TN90 LC and its transgenic versions with only one downregulated gene, either putrescine methyl transferase (PMT-RNAi) or PR50-protein (PR50-RNAi). Nicotine levels of cured lamina of TN90 LC, TN90 PMT-RNAi and TN90 PR50-RNAi, were 70.5 ± 3.8, 2.4 ± 0.5, and 6.0 ± 1.1 mg/g dry weight, respectively. Low-alkaloid transgenic lines showed delayed leaf maturation and impaired leaf quality. We analyzed polyamine contents and ripening markers in wild-type TN90 control plants (WT) and the two transgenic lines. The ripening markers revealed that the PMT-RNAi line showed the most pronounced impaired leaf maturation phenotype at harvest, characterized by higher chlorophyll (19%) and glucose (173%) contents and more leaf mesophyll cells per area (25%), while the ripening markers revealed that maturation of PR50-RNAi plants was intermediate between PMT-RNAi and WT lines. Comparative polyamine analyses showed an increase in free and conjugated polyamines in roots of both transgenic lines, this being most pronounced in the PMT-RNAi plants. For PMT-RNAi plants, there were further perturbations of polyamine content in the leaves, which mirrored the general phenotype, as PR50-RNAi transgenic plants looked more similar to the WT than PMT-RNAi transgenic plants. Activity of ornithine decarboxylase, the enzyme that catalyzes the committing step of polyamine biosynthesis, was significantly higher in roots and mature leaves of PMT-RNAi plants in comparison to WT, while there was no increase observed for arginine decarboxylase. Treatment of both transgenic lines with polyamine biosynthesis inhibitors decreased the polyamine content and ameliorated the phenotype, confirming the intricate interplay of polyamine and nicotine biosynthesis in tobacco and the influence of this interplay on leaf ripening.

5.
Artículo en Inglés | MEDLINE | ID: mdl-31380292

RESUMEN

Aspergillus fumigatus and A. flavus are the fungal pathogens responsible for most cases of invasive aspergillosis (IA). Early detection of the circulating antigen galactomannan (GM) in serum allows the prompt application of effective antifungal therapy, thus improving the survival rate of IA patients. However, the use of monoclonal antibodies (mAbs) for the diagnosis of IA is often associated with false positives due to cross-reaction with bacterial polysaccharides. More specific antibodies are therefore needed. Here we describe the characterization of the Aspergillus-specific mAb AP3 (IgG1κ), including the precise identification of its corresponding antigen. The antibody was generated using A. parasiticus cell wall fragments and was shown to bind several Aspergillus species. Immunofluorescence microscopy revealed that AP3 binds a cell wall antigen, but immunoprecipitation and enzyme-linked immunosorbent assays showed that the antigen is also secreted into the culture medium. The inability of AP3 to bind the A. fumigatus galactofuranose (Galf )-deficient mutant ΔglfA confirmed that Galf residues are part of the epitope. Several lines of evidence strongly indicated that AP3 recognizes the Galf residues of O-linked glycans on Aspergillus proteins. Glycoarray analysis revealed that AP3 recognizes oligo-[ß-D-Galf-1,5] sequences containing four or more residues with longer chains more efficiently. We also showed that AP3 captures GM in serum, suggesting it may be useful as a diagnostic tool for patients with IA.


Asunto(s)
Anticuerpos Antifúngicos/inmunología , Anticuerpos Monoclonales/inmunología , Antígenos Fúngicos/inmunología , Aspergilosis/inmunología , Aspergillus/inmunología , Mananos/inmunología , Animales , Antígenos Fúngicos/genética , Aspergillus/genética , Aspergillus flavus/genética , Aspergillus flavus/inmunología , Aspergillus fumigatus/inmunología , Pared Celular/química , Reacciones Cruzadas , Modelos Animales de Enfermedad , Epítopos/aislamiento & purificación , Femenino , Galactosa/análogos & derivados , Pruebas Inmunológicas , Mananos/genética , Ratones , Ratones Endogámicos BALB C , Polisacáridos Bacterianos/inmunología , Proteínas Recombinantes
6.
PLoS One ; 14(7): e0219356, 2019.
Artículo en Inglés | MEDLINE | ID: mdl-31276546

RESUMEN

Cholera is a life-threatening disease caused by the cholera toxin (CT) as produced by some Vibrio cholerae serogroups. In this research we present a method which directly detects the toxin's B subunit (CTB) in drinking water. For this purpose we performed a magnetic sandwich immunoassay inside a 3D immunofiltration column. We used two different commercially available antibodies to capture CTB and for binding to superparamagnetic beads. ELISA experiments were performed to select the antibody combination. The beads act as labels for the magnetic frequency mixing detection technique. We show that the limit of detection depends on the type of magnetic beads. A nonlinear Hill curve was fitted to the calibration measurements by means of a custom-written python software. We achieved a sensitive and rapid detection of CTB within a broad concentration range from 0.2 ng/ml to more than 700 ng/ml.


Asunto(s)
Toxina del Cólera/química , Toxina del Cólera/metabolismo , Inmunoensayo/métodos , Subunidades de Proteína/metabolismo , Anticuerpos Antibacterianos/inmunología , Toxina del Cólera/inmunología , Ensayo de Inmunoadsorción Enzimática , Humanos , Inmunoensayo/normas , Subunidades de Proteína/inmunología , Programas Informáticos
7.
Biotechnol J ; 14(3): e1800170, 2019 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-29888874

RESUMEN

Increasing the productivity of crops is a major challenge in agricultural research. Given that photosynthetic carbon assimilation is necessary for plant growth, enhancing the efficiency of photosynthesis is one strategy to boost agricultural productivity. The authors attempted to increase the photosynthetic efficiency and biomass of tobacco plants by expressing individual components of the Chlamydomonas reinhardtii carbon concentration mechanism (CCM) and integrating them into the chloroplast. Independent transgenic varieties are generated accumulating the carbonic anhydrase CAH3 in the thylakoid lumen or the bicarbonate transporter LCIA in the inner chloroplast membrane. Independent homozygous transgenic lines showed enhanced CO2 uptake rates (up to 15%), increased photosystem II efficiency (by up to 18%), and chlorophyll content (up to 19%). Transgenic lines produced more shoot biomass than wild-type and azygous controls, and accumulated more carbohydrate and amino acids, reflecting the higher rate of photosynthetic CO2 fixation. These data demonstrate that individual algal CCM components can be integrated into C3 plants to increase biomass, suggesting that transgenic lines combining multiple CCM components could further increase the productivity and yield of C3 crops.


Asunto(s)
Carbono/metabolismo , Cloroplastos/metabolismo , Nicotiana/metabolismo , Fotosíntesis/fisiología , Biomasa , Dióxido de Carbono/metabolismo , Anhidrasas Carbónicas/metabolismo , Chlamydomonas reinhardtii/metabolismo , Productos Agrícolas/metabolismo , Plantas Modificadas Genéticamente/fisiología
8.
PeerJ ; 6: e5780, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-30581655

RESUMEN

The parasite Toxoplasma gondii causes an opportunistic infection, that is, particularly severe in immunocompromised patients, infants, and neonates. Current antiparasitic drugs are teratogenic and cause hypersensitivity-based toxic side effects especially during prolonged treatment. Furthermore, the recent emergence of drug-resistant toxoplasmosis has reduced the therapeutic impact of such drugs. In an effort to develop recombinant antibodies as a therapeutic alternative, a panel of affinity-matured, T. gondii tachyzoite-specific single-chain variable fragment (scFv) antibodies was selected by phage display and bioinformatic analysis. Further affinity optimization was attempted by introducing point mutations at hotspots within light chain complementarity-determining region 2. This strategy yielded four mutated scFv sequences and a parental scFv that were used to produce five mouse-human chimeric IgGs in Nicotiana benthamiana plants, with yields of 33-72 mg/kg of plant tissue. Immunological analysis confirmed the specific binding of these plant-derived antibodies to T. gondii tachyzoites, and in vitro efficacy was demonstrated by their ability to inhibit the invasion of human fibroblasts and impair parasite infectivity. These novel recombinant antibodies could therefore be suitable for the development of plant-derived immunotherapeutic interventions against toxoplasmosis.

9.
Biotechnol Adv ; 36(4): 1167-1184, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-29608951

RESUMEN

Aspergillus is a fungal genus comprising several hundred species, many of which can damage the health of plants, animals and humans by direct infection and/or due to the production of toxic secondary metabolites known as mycotoxins. Aspergillus-specific antibodies have been generated against polypeptides, polysaccharides and secondary metabolites found in the cell wall or secretions, and these can be used to detect and monitor infections or to quantify mycotoxin contamination in food and feed. However, most Aspergillus-specific antibodies are generated against heterogeneous antigen preparations and the specific target remains unknown. Target identification is important because this can help to characterize fungal morphology, confirm host penetration by opportunistic pathogens, detect specific disease-related biomarkers, identify new candidate targets for antifungal drug design, and qualify antibodies for diagnostic and therapeutic applications. In this review, we discuss how antibodies are raised against heterogeneous Aspergillus antigen preparations and how they can be characterized, focusing on strategies to identify their specific antigens and epitopes. We also discuss the therapeutic, diagnostic and biotechnological applications of Aspergillus-specific antibodies.


Asunto(s)
Anticuerpos Antifúngicos , Antígenos Fúngicos , Aspergillus , Biotecnología , Animales , Aspergillus/química , Aspergillus/inmunología , Aspergillus/metabolismo , Humanos , Ratones , Ratas
10.
Plant Direct ; 2(7): e00077, 2018 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-31245740

RESUMEN

The development of low-alkaloid (LA) tobacco varieties is an important target in the tobacco breeding industry. However, LA Burley 21 plants, in which the Nic1 and Nic2 loci controlling nicotine biosynthesis are deleted, are characterized by impaired leaf maturation that leads to poor leaf quality before and after curing. Polyamines are involved in key developmental, physiological, and metabolic processes in plants, and act as anti-senescence and anti-ripening regulators. We investigated the role of polyamines in tobacco leaf maturation by analyzing the free and conjugated polyamine fractions in the leaves and roots of four Burley 21 varieties: NA (normal alkaloid levels, wild-type control), HI (high intermediates, nic2 -), LI (low intermediates, nic1 -), and LA (nic1 - nic2 -). The pool of conjugated polyamines increased with plant age in the roots and leaves of all four varieties, but the levels of free and conjugated putrescine and spermidine were higher in the LI and LA plants than NA controls. The increase in the polyamine content correlated with delayed maturation and senescence, i.e., LA plants with the highest polyamine levels showed the most severe impaired leaf maturation phenotype, characterized by higher chlorophyll content and more mesophyll cells per unit leaf area. Treatment of LA plants with inhibitors of polyamine biosynthesis and/or the growth regulator Ethephon® reduced accumulation of polyamines, achieving a partial amelioration of the LA phenotype. Our data show that the regulation of polyamine homeostasis is strongly disrupted in LA plants, and that free and conjugated polyamines contribute to the observed impairment of leaf maturation.

11.
Transgenic Res ; 24(5): 885-95, 2015 Oct.
Artículo en Inglés | MEDLINE | ID: mdl-26071308

RESUMEN

Aflatoxin-producing fungi can contaminate plants and plant-derived products with carcinogenic secondary metabolites that present a risk to human and animal health. In this study, we investigated the effect of antimicrobial peptides on the major aflatoxigenic fungi Aspergillus flavus and A. parasiticus. In vitro assays with different chemically-synthesized peptides demonstrated that the broad-spectrum peptide thanatin from the spined soldier bug (Podisus maculiventris) had the greatest potential to eliminate aflatoxigenic fungi. The minimal inhibitory concentrations of thanatin against A. flavus and A. parasiticus were 3.13 and 12.5 µM, respectively. A thanatin cDNA was subsequently cloned in a plant expression vector under the control of the ubiquitin-1 promoter allowing the recombinant peptide to be directed to the apoplast in transgenic maize plants. Successful integration of the thanatin expression cassette was confirmed by PCR and expression was demonstrated by semi-quantitative RT-PCR in transgenic maize kernels. Infection assays with maize kernels from T1 transgenic plants showed up to three-fold greater resistance against Aspergillus spp. infections compared to non-transgenic kernels. We demonstrated for the first time that heterologous expression of the antimicrobial peptide thanatin inhibits the growth of Aspergillus spp. in transgenic maize plants offering a solution to protect crops from aflatoxin-producing fungi and the resulting aflatoxin contamination in the field and under storage conditions.


Asunto(s)
Péptidos Catiónicos Antimicrobianos/farmacología , Aspergillus/patogenicidad , Zea mays/microbiología , Aspergillus/clasificación , Especificidad de la Especie
12.
Appl Environ Microbiol ; 81(9): 3039-48, 2015 May 01.
Artículo en Inglés | MEDLINE | ID: mdl-25710366

RESUMEN

Plant pathogens cause major economic losses in the agricultural industry because late detection delays the implementation of measures that can prevent their dissemination. Sensitive and robust procedures for the rapid detection of plant pathogens are therefore required to reduce yield losses and the use of expensive, environmentally damaging chemicals. Here we describe a simple and portable system for the rapid detection of viral pathogens in infected plants based on immunofiltration, subsequent magnetic detection, and the quantification of magnetically labeled virus particles. Grapevine fanleaf virus (GFLV) was chosen as a model pathogen. Monoclonal antibodies recognizing the GFLV capsid protein were immobilized onto immunofiltration columns, and the same antibodies were linked to magnetic nanoparticles. GFLV was quantified by immunofiltration with magnetic labeling in a double-antibody sandwich configuration. A magnetic frequency mixing technique, in which a two-frequency magnetic excitation field was used to induce a sum frequency signal in the resonant detection coil, corresponding to the virus concentration within the immunofiltration column, was used for high-sensitivity quantification. We were able to measure GFLV concentrations in the range of 6 ng/ml to 20 µg/ml in less than 30 min. The magnetic immunoassay could also be adapted to detect other plant viruses, including Potato virus X and Tobacco mosaic virus, with detection limits of 2 to 60 ng/ml.


Asunto(s)
Separación Inmunomagnética/métodos , Nepovirus/aislamiento & purificación , Enfermedades de las Plantas/virología , Carga Viral/métodos , Nanopartículas/química , Potexvirus/aislamiento & purificación , Factores de Tiempo , Virus del Mosaico del Tabaco/aislamiento & purificación
13.
Plant Biotechnol J ; 12(6): 734-42, 2014 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-24605946

RESUMEN

We have increased the productivity and yield of potato (Solanum tuberosum) by developing a novel method to enhance photosynthetic carbon fixation based on expression of a polyprotein (DEFp) comprising all three subunits (D, E and F) of Escherichia coli glycolate dehydrogenase (GlcDH). The engineered polyprotein retained the functionality of the native GlcDH complex when expressed in E. coli and was able to complement mutants deficient for the D, E and F subunits. Transgenic plants accumulated DEFp in the plastids, and the recombinant protein was active in planta, reducing photorespiration and improving CO2 uptake with a significant impact on carbon metabolism. Transgenic lines with the highest DEFp levels and GlcDH activity produced significantly higher levels of glucose (5.8-fold), fructose (3.8-fold), sucrose (1.6-fold) and transitory starch (threefold), resulting in a substantial increase in shoot and leaf biomass. The higher carbohydrate levels produced in potato leaves were utilized by the sink capacity of the tubers, increasing the tuber yield by 2.3-fold. This novel approach therefore has the potential to increase the biomass and yield of diverse crops.


Asunto(s)
Oxidorreductasas/metabolismo , Fotosíntesis , Tubérculos de la Planta/crecimiento & desarrollo , Poliproteínas/metabolismo , Proteínas Recombinantes/metabolismo , Solanum tuberosum/genética , Metabolismo de los Hidratos de Carbono , Escherichia coli/enzimología , Metaboloma , Fenotipo , Hojas de la Planta/metabolismo , Tubérculos de la Planta/metabolismo , Plantas Modificadas Genéticamente , Plastidios/metabolismo , Subunidades de Proteína/metabolismo
14.
Int J Mol Sci ; 13(6): 7038-7056, 2012.
Artículo en Inglés | MEDLINE | ID: mdl-22837678

RESUMEN

Fusarium verticillioides is the primary causal agent of Fusarium ear and kernel rot in maize, producing fumonisin mycotoxins that are toxic to humans and domestic animals. Rapid detection and monitoring of fumonisin-producing fungi are pivotally important for the prevention of mycotoxins from entering into food/feed products. Chicken-derived single-chain variable fragments (scFvs) against cell wall-bound proteins from F. verticillioides were isolated from an immunocompetent phage display library. Comparative phage enzyme-linked immunosorbant assays (ELISAs) and sequencing analyses identified four different scFv antibodies with high sensitivity. Soluble antibody ELISAs identified two highly sensitive scFv antibodies, FvCA3 and FvCA4, with the latter being slightly more sensitive. Three-dimensional modeling revealed that the FvCA4 may hold a better overall structure with CDRH3, CDRL1 and CDRL3 centered in the core region of antibody surface compared with that of other scFvs. Immunofluorescence labeling revealed that the binding of FvCA4 antibody was localized to the cell walls of conidiospores and hyphae of F. verticillioides, confirming the specificity of this antibody for a surface target. This scFv antibody was able to detect the fungal mycelium as low as 10(-2) µg/mL and contaminating mycelium at a quantity of 10(-2) mg/g maize. This is the first report that scFv antibodies derived from phage display have a wide application for rapid and accurate detection and monitoring of fumonisin-producing pathogens in agricultural samples.


Asunto(s)
Fusarium/metabolismo , Micotoxinas/química , Anticuerpos de Cadena Única/química , Secuencia de Aminoácidos , Animales , Anticuerpos/química , Antígenos/química , Secuencia de Bases , Pollos , Ensayo de Inmunoadsorción Enzimática , Biblioteca de Genes , Imagenología Tridimensional , Immunoblotting , Microscopía Fluorescente , Modelos Moleculares , Conformación Molecular , Datos de Secuencia Molecular , Biblioteca de Péptidos , Homología de Secuencia de Aminoácido , Zea mays/metabolismo
15.
Anal Bioanal Chem ; 403(9): 2771-83, 2012 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-22549819

RESUMEN

Fluoroquinolones (FQs) are a group of synthetic, broad-spectrum antibacterial agents. Due to its extensive use in animal industry and aquaculture, residues of these antibiotics and the emergence of bacteria resistant to FQs have become a major public health issue. To prepare a generic antibody capable of recognizing nearly all FQs, a single-chain variable fragment (scFv) was generated from the murine hybridoma cells C49H1 producing a FQ-specific monoclonal antibody. This scFv was characterized by indirect competitive enzyme-linked immunosorbent assay (ciELISA), and it showed identical binding properties to parental monoclonal antibody: it was capable of recognizing 17 of 20 targeted FQs below maximum residue limits, except for sarafloxacin (SAR), difloxacin (DIF), and trovafloxacin (TRO) which are highly concerned members in the FQs family. In order to broaden the specificity of this scFv to SAR and its analogues (DIF and TRO), protein homology modeling and antibody-ligands docking analysis were employed to identify the potential key amino acid residues involved in hapten antibody. A mutagenesis phage display library was generated by site directed mutagenesis randomizing five aminoacid residues in the third heavy-chain complementarity determining region. After one round of panning against biotinylated norfloxacin (NOR) and four rounds of panning against biotinylated SAR, scFv variants we screened showed up to 10-fold improved IC(50) against SAR, DIF, and TRO in ciELISA while the specificity against other FQs was fully retained.


Asunto(s)
Antibacterianos/análisis , Antibacterianos/inmunología , Ensayo de Inmunoadsorción Enzimática/métodos , Fluoroquinolonas/análisis , Fluoroquinolonas/inmunología , Anticuerpos de Cadena Única/inmunología , Animales , Clonación Molecular , Hibridomas , Ratones , Modelos Moleculares , Mutagénesis Sitio-Dirigida , Biblioteca de Péptidos , Sensibilidad y Especificidad , Anticuerpos de Cadena Única/genética
16.
Mol Plant Pathol ; 10(1): 41-9, 2009 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-19161351

RESUMEN

Grapevine fanleaf virus (GFLV) is one of the most destructive pathogens of grapevine. In this study, we generated monoclonal antibodies binding specifically to the coat protein of GFLV. Antibody FL(3), which bound most strongly to GFLV and showed cross-reactivity to Arabis mosaic virus (ArMV), was used to construct the single-chain antibody fragment scFvGFLVcp-55. To evaluate the potential of this single-chain variable fragment (scFv) to confer antibody-mediated virus resistance, transgenic Nicotiana benthamiana plants were generated in which the scFv accumulated in the cytosol. Recombinant protein levels of up to 0.1% total soluble protein were achieved. The T(1) and T(2) progenies conferred partial or complete protection against GFLV on challenge with the viral pathogen. The resistance to GFLV in transgenic plants was strictly related to scFvGFLVcp-55 accumulation levels, confirming that the antibody fragment was functional in planta and responsible for the GFLV resistance. In addition, transgenic plants conferring complete protection to GFLV showed substantially enhanced tolerance to ArMV. We demonstrate the first step towards the control of grapevine fanleaf degeneration, as scFvGFLVcp-55 could be an ideal candidate for mediating nepovirus resistance.


Asunto(s)
Anticuerpos Antivirales/inmunología , Virus del Mosaico/inmunología , Nicotiana/virología , Virus de Plantas/inmunología , Virus ARN/inmunología , Anticuerpos Monoclonales/biosíntesis , Anticuerpos Monoclonales/inmunología , Secuencia de Bases , Cartilla de ADN , Ensayo de Inmunoadsorción Enzimática , Microscopía Electrónica , Plantas Modificadas Genéticamente/inmunología , Plantas Modificadas Genéticamente/virología , Nicotiana/inmunología
17.
Arch Virol ; 154(1): 19-26, 2009.
Artículo en Inglés | MEDLINE | ID: mdl-19082687

RESUMEN

Grapevine leafroll-associated virus 3 (GLRaV-3) is a major pathogen of grapevine. A previously described single-chain fragment variable (scFv) antibody (scFvLR3), directed against the coat protein (CP) of GLRaV-3, was expressed in Escherichia coli and used to develop a diagnostic ELISA kit. The antibody was fused to the light chain constant domain of human immunoglobulin to create the bivalent reagent C(L)-LR3, which was purified from the periplasmic fraction, giving a yield of ~5 mg/l. The sensitivity of the reagent against recombinant GLRaV-3 CP was 0.1 ng. The sensitivity, specificity and durability of the reagent was similar to a commercial kit. The C(L)-LR3 showed a weak cross-reaction in immune electron microscopy assays to GLRaV-1 and -7, but not with the phylogenetically more distant GLRaV-2. A fully recombinant kit was developed with the inclusion of a recombinant GLRaV-3 CP expressed in bacteria, thus avoiding problems associated with virus propagation and purification. This system represents a rapid, simple, sensitive and standardized diagnostic protocol for GLRaV-3 detection.


Asunto(s)
Anticuerpos Antivirales/inmunología , Proteínas de la Cápside/inmunología , Closteroviridae/fisiología , Ensayo de Inmunoadsorción Enzimática/métodos , Vitis/virología , Anticuerpos Antivirales/genética , Proteínas de la Cápside/química , Closteroviridae/inmunología , Reacciones Cruzadas/inmunología , Proteínas Recombinantes/inmunología , Sensibilidad y Especificidad
18.
Arch Virol ; 153(6): 1075-84, 2008.
Artículo en Inglés | MEDLINE | ID: mdl-18478181

RESUMEN

Pathogen-specific recombinant antibodies have been used to characterize pathogen infections and to engineer resistance in crops. We selected a single-chain antibody fragment (scFvLR3cp-1) specific for the coat protein of grapevine leafroll-associated virus 3 (GLRaV-3), one of the agents of grapevine leafroll (GLR) disease, from a phage display library. The antibody binds specifically to the entire length of GLRaV-3 particles and has a high binding affinity value (K(D)) of 42 nM. The amino acid motif AQEPPRQ located at the N terminus of the GLRaV-3 coat protein was identified as the antibody-binding epitope by PEPSCAN analysis. To evaluate scFv stability in the reducing environment of the plant cell cytosol, transient expression assays were performed using Nicotiana benthamiana as a model plant. Capture ELISA demonstrated that the scFv fragment was produced and retained its antigen-binding capacity in the plant cytosol. Further functional assays showed that scFvLR3cp-1 binds with high specificity to at least four members of the family Closteroviridae. Therefore, the GLRaV-3-specific scFv fragment could be an ideal candidate for mediating broad-spectrum virus resistance if produced in transgenic grapevine plants.


Asunto(s)
Anticuerpos Antivirales/inmunología , Proteínas de la Cápside/inmunología , Closteroviridae/inmunología , Fragmentos de Inmunoglobulinas/biosíntesis , Fragmentos de Inmunoglobulinas/inmunología , Nicotiana/metabolismo , Vitis/virología , Afinidad de Anticuerpos , Proteínas de la Cápside/química , Reacciones Cruzadas , Epítopos/inmunología , Epítopos/aislamiento & purificación , Biblioteca de Péptidos , Enfermedades de las Plantas/virología , Proteínas Recombinantes/biosíntesis , Proteínas Recombinantes/inmunología
19.
J Biotechnol ; 124(1): 271-83, 2006 Jun 25.
Artículo en Inglés | MEDLINE | ID: mdl-16698105

RESUMEN

Genetic engineering is a powerful tool for the manipulation of cellular metabolism and the development of plant varieties with enhanced biological and nutrional functions. Several strategies are available for the in vivo modulation of enzymatic activities, allowing metabolic flux to be directed towards desired biochemical products. Such strategies include the simultaneous expression and/or suppression of multiple genes encoding rate-limiting enzymes, ectopic expression of transcription factors, and the RNA-based inhibition of catabolic enzymes. As an alternative approach, recombinant antibodies expressed in plants have been used to inactivate or sequestrate specific host proteins or compounds, resulting in significant changes to metabolic pathways. The impact of this approach depends on prudent selection of the target antigen, careful antibody design, appropriate subcellular targeting and stable accumulation of the recombinant antibodies in planta. Here, we describe the current status of antibody-based metabolic engineering in plants, discuss procedures for the optimisation of this technology and consider the remaining challenges to its widespread use.


Asunto(s)
Anticuerpos/genética , Ingeniería Genética , Proteínas de Plantas/metabolismo , Plantas Modificadas Genéticamente/metabolismo , Plantas/genética , Biotecnología , Predicción , Genes de Plantas , Proteínas de Plantas/genética , Plantas/inmunología , Plantas/metabolismo , Plantas Modificadas Genéticamente/genética , Plantas Modificadas Genéticamente/inmunología , Proteínas Recombinantes/metabolismo
20.
Plant Biotechnol J ; 3(2): 237-47, 2005 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-17173623

RESUMEN

Ornithine decarboxylase (ODC) is a cytosolic enzyme that catalyses the direct decarboxylation of l-ornithine to putrescine, one of the rate-limiting steps of polyamine biosynthesis in plants. In the present study, an ODC-specific murine single-chain antibody fragment (scFvODC1) was generated by phage display technology. To evaluate the effect of the recombinant antibody fragment on ODC activity and polyamine levels, we produced transgenic tobacco plants that accumulated scFvODC1 in the cytosol. Expression levels of up to 4% total soluble protein (TSP) were achieved, resulting in the inhibition of up to 90% of endogenous ODC activity. A significant reduction in putrescine, spermidine and spermine levels was observed in transgenic lines producing high levels of scFvODC1. Furthermore, these lines showed developmental abnormalities and a dwarf phenotype. We show that the immunomodulation of enzyme activity is a powerful approach that can be used to alter complex and tightly controlled metabolic pathways, allowing specific steps in the pathway to be blocked and the resulting physiological effects to be investigated.

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