Intracellular expression of TMV-specific single-chain Fv fragments leads to improved virus resistance in shape Nicotiana tabacum

We evaluated the concept for protection of plants against virus infection based on the expression of single-chain Fv (scFv) fragments in the apoplasm or cytosol of transgenic plants. Cloned cDNA of a tobacco mosaic virus (TMV)-specific scFv antibody, which binds to intact virions, was integrated into the plant expression vector pSS and used for Agrobacterium-mediated transformation of Nicotiana tabacum cv. Xanthi-nc. Regenerated transgenic tobacco plants were analysed by northern blot, western blot and ELISA to assess expression and functionality of recombinant antibody (rAb) fragments. A significant increase of scFv levels in T₁ progeny was obtained for plants secreting apoplastic scFv antibodies but not for scFvs expressed in the cytosol. Bioassays revealed that T₁ progeny producing scFvs in different plant cell compartments showed different levels of resistance upon inoculation with TMV. The most dramatic reduction of necrotic local lesion numbers upon virus infection was observed in T₁ plants expressing scFv fragments in the cytosol. Infectivity could be reduced by more than 90%, despite the observation that protein expression levels for functional scFv antibodies were very low. Furthermore, upon inactivation of the N-resistance gene at elevated temperature, a significant portion of the T₁ progenies inhibited systemic virus spread, indicating that expression of TMV-specific cytosolic scFvs confers virus resistance in these transgenic plants. Moreover, inoculation of protoplasts isolated from transgenic and non-transgenic tobacco plants with TMV-RNA demonstrated that accumulation of virus particles is affected by cytosolic scFv expression.     

Expression and characterization of bispecific single-chain Fv fragments produced in transgenic plants.

We describe the expression of the bispecific antibody biscFv2429 in transgenic suspension culture cells and tobacco plants. biscFv2429 consists of two single-chain antibodies, scFv24 and scFv29, connected by the Trichoderma reesi cellobiohydrolase I linker. biscFv2429 binds two epitopes of tobacco mosaic virus (TMV): the scFv24 domain recognizes neotopes of intact virions, and the scFv29 domain recognizes a cryptotope of the TMV coat protein monomer. biscFv2429 was functionally expressed either in the cytosol (biscFv2429-cyt) or targeted to the apoplast using a murine leader peptide sequence (biscFv2429-apoplast). A third construct contained the C-terminal KDEL sequence for retention in the ER (biscFv2429-KDEL). Levels of cytoplasmic biscFv2429 expression levels were low. The highest levels of antibody expression were for apoplast-targeted biscFv2429-apoplast and ER-retained biscFv2429-KDEL that reached a maximum expression level of 1.65% total soluble protein in transgenic plants. Plant-expressed biscFv2429 retained both epitope specificities, and bispecificity and bivalency were confirmed by ELISA and surface plasmon resonance analysis. This study establishes plant cells as an expression system for bispecific single-chain antibodies for use in medical and biological applications.     

利用植物质体转基因技术高效表达抗人源白介素6单链抗体

白介素6 (interleukin-6, IL-6)是与包括癌症在内的多种疾病相关的一种多功能细胞因子,免疫疗法利用抗人源IL-6抗体来治疗相关疾病取得了很好的治疗效果。植物作为生物反应器可以有效降低药用蛋白的生产成本,同时积累功能蛋白。通过基因枪轰击和再生筛选,得到了2个在烟草质体中表达了鼠源抗人源IL-6单链抗体(single chain variable fragment, scFv)的独立株系,并用Southern blotting鉴定了质体转化烟草的同质化状态。抗人源IL-6 scFv基因在质体转基因烟草中成功转录和翻译,功能性抗人源IL-6 scFv在质体转基因烟草叶片中的含量占到总可溶性蛋白的1%,达到41 mg/kg鲜重。另外,质体转基因烟草的表型与野生型烟草相比并没有显著差异,它们具有相似的生长速率、成熟植株的株高以及果荚数目。抗人源IL-6 scFv的高表达量也表明了利用质体转基因植物低成本生产scFv的潜力。     

Plasma membrane display of anti-viral single chain Fv fragments confers resistance to tobacco mosaic virus

We tested the hypothesis that membrane-anchored anti-viral antibodies can confer viral resistance to transgenic plants. A heterologous expression system was developed for plasma membrane targeting of anti-viral antibodies using mammalian transmembrane domains. A tobacco mosaic virus (TMV) neutralizing single-chain Fv antibody fragment (scFv24) was targeted to the endoplasmic reticulum and integrated into the plasma membrane of tobacco cells, using mammalian signal peptides and membrane receptor transmembrane domains. The human platelet-derived growth factor receptor (PDGFR) transmembrane domain or the T-cell receptor -domain (TcR) transmembrane domain was fused to the C-terminus of TMV-specific scFv24 to target expression of scFv24 as an extracellularly facing plasma membrane protein. Western blot and ELISA analyses were carried out to confirm functional expression of the recombinant fusion proteins scFv24-PDGFR and scFv24-TcR in transgenic tobacco suspension cultures and transgenic plants. Immunofluorescence and electron microscopy showed that the TcR transmembrane domain targeted scFv24 to the tobacco plasma membrane. Bioassays of viral infection showed that transgenic tobacco plants expressing scFv24-TcR were resistant to TMV infection. These results demonstrated that membrane anchored anti-viral antibody fragments are functional, can be targeted to the plasma membrane in planta and are a novel approach for engineering disease-resistant crops.     

Seed-specific immunomodulation of abscisic acid activity induces a developmental switch.

A single-chain Fv antibody (scFv) gene, which has previously been used to immunomodulate abscisic acid (ABA) activity in transgenic tobacco to create a 'wilty' phenotype, was put under control of the seed-specific USP promoter from Vicia faba and used to transform tobacco. Transformants were phenotypically similar to wild-type plants apart from their seeds. Anti-ABA scFv embryo development differed markedly from wild-type embryo development. Seeds which accumulated similar levels of a scFv that binds to oxazolone, a hapten absent from plants, developed like wild-type embryos. Anti-ABA scFv embryos developed green cotyledons containing chloroplasts and accumulated photosynthetic pigments but produced less seed storage protein and oil bodies. Anti-ABA scFv seeds germinated precociously if removed from seed capsules during development but were incapable of germination after drying. Total ABA levels were higher than in wild-type seeds but calculated free ABA levels were near-zero until 21 days after pollination. We show for the first time seed-specific immunomodulation and the resulting switch from the seed maturation programme to a germination programme. We conclude that the immunomodulation of hormones can alter the development programme of target organs, allowing the study of the directly blocked endogenous molecules and manipulation of the system concerned.     

A nucleic acid hydrolyzing recombinant antibody confers resistance to curtovirus infection in tobacco

A catalytic single chain variable antibody (scFv), 3D8 scFv, which has DNase activities, was functionally expressed in Nicotiana tabacum. The subcellular localization of the GFP-fused 3D8 indicated that the 3D8 protein was expressed in the cytosol of the N. tabacum protoplasts. Progenies of the transgenic tobacco plants exhibited complete resistance against two single stranded (ss) DNA geminiviruses, including the Beet curly top virus and the Beet severe curly top virus, without viral accumulation or disease symptoms. We presented a novel strategy for targeting the viral DNA itself in a sequence non-specific manner, rather than the viral proteins or RNAs, in order to generate virus-resistant transgenic plants. No noticeable adverse effects on the growth and reproduction of the transgenic plants were observed. Our results demonstrated that targeting viral DNA is an effective strategy for protecting plants from ssDNA viruses.     

Expression of recombinant antibody (single chain antibody fragment) in transgenic plant Nicotiana tabacum cv. Xanthi

Plants offer an alternative inexpensive and convenient technology for large scale production of recombinant proteins especially recombinant antibodies (plantibodies). In this paper, we describe the expression of a model single chain antibody fragment (B6scFv) in transgenic tobacco. Four different gene constructs of B6scFv with different target signals for expression in different compartments of a tobacco plant cell with and without endoplasmic reticulum (ER) retention signal were used. Agrobacterium mediated plant transformation of B6scFv gene was performed with tobacco leaf explants and the gene in regenerated plants was detected using histochemical GUS assay and PCR. The expression of B6scFv gene was detected by western blotting and the recombinant protein was purified from putative transgenic tobacco plants using metal affinity chromatography. The expression level of recombinant protein was determined by indirect enzyme-linked immunosorbent assay. The highest accumulation of protein was found up to 3.28 % of the total soluble protein (TSP) in plants expressing B6scFv 1003 targeted to the ER, and subsequently expression of 2.9 % of TSP in plants expressing B6scFv 1004 (with target to apoplast with ER retention signal). In contrast, lower expression of 0.78 and 0.58 % of TSP was found in plants expressing antibody fragment in cytosol and apoplast, without ER retention signal. The described method/system could be used in the future for diverse applications including expression of other recombinant molecules in plants for immunomodulation, obtaining pathogen resistance against plant pathogens, altering metabolic pathways and also for the expression of different antibodies of therapeutic and diagnostic uses.     

The C-terminal KDEL sequence increases the expression level of a single-chain antibody designed to be targeted to both the cytosol and the secretory pathway in transgenic tobacco

The effects of subcellular localization on single-chain antibody (scFv) expression levels in transgenic tobacco was evaluated using an scFv construct of a model antibody possessing different targeting signals. For translocation into the secretory pathway a secretory signal sequence preceded the scFv gene (scFv-S). For cytosolic expression the scFv antibody gene lacked such a signal sequence (scFv-C). Also, both constructs were provided with the endoplasmic reticulum (ER) retention signal KDEL (scFv-SK and scFv-CK, respectively). The expression of the different scFv constructs in transgenic tobacco plants was controlled by a CaMV 35S promoter with double enhancer. The scFv-S and scFv-SK antibody genes reached expression levels of 0.01% and 1% of the total soluble protein, respectively. Surprisingly, scFv-CK transformants showed considerable expression of up to 0.2% whereas scFv-C transformants did not show any accumulation of the scFv antibody. The differences in protein expression levels could not be explained by the steady-state levels of the mRNAs. Transient expression assays with leaf protoplasts confirmed these expression levels observed in transgenic plants, although the expression level of the scFv-S construct was higher. Furthermore, these assays showed that both the secretory signal and the ER retention signal were recognized in the plant cells. The scFv-CK protein was located intracellularly, presumably in the cytosol. The increase in scFv protein stability in the presence of the KDEL retention signal is discussed.     

Expression and long-term stability of a recombinant single-chain Fv antibody fragment in transgenic Nicotiana tabacum seeds

A functionally active anti-hepatitis B surface antigen single-chain Fv antibody fragment (scFv) was expressed in seeds of transgenic tobacco plants using genetic constructs for expression in the vacuole or the apoplastic fluid. Antibody levels close to 0.2% of the total soluble protein were found. After storage of the transgenic tobacco seeds for one year and a half a year at room temperature, the scFv maintained its antigen-binding activity in full.     

Secretion of a functional single-chain Fv protein in transgenic tobacco plants and cell suspension cultures

A synthetic gene encoding an anti-phytochrome single-chain Fv (scFv) antibody bearing an N-terminal signal peptide has been used to transform tobacco plants. Immunoblot analysis showed that transformed plants accumulate high levels of scFv protein, accounting for up to 0.5% of the total soluble protein fraction, which could be extracted by simple infiltration and centrifugation of leaf tissue. A substantial proportion of the scFv protein extracted in this way was found to possess antigen-binding activity. Callus cell suspension cultures derived from transformed plants secrete functional scFv protein into the surrounding medium. Compared with the levels of scFv protein observed in plants expressing the native scFv gene, the incorporation of an N-terminal signal peptide, to target the scFv to the apoplast, results in elevated accumulation of the protein.     

Expression of anti human IL-4 and IL-6 scFvs in transgenic tobacco plants

The two murine single-chain Fv (scFv) genes against human interleukin IL-4 and IL-6 cytokines were cloned in a plant expression vector (pGEJAE1) and mobilized to Agrobacterium tumefaciens. Tobacco leaf discs were co-cultured with Agrobacterium and transferred to selective media for regeneration. The tobacco in vitro plants produced scFvs against human IL-4 and IL-6. Only 8% of transformed plants expressing anti-IL-4 scFv were obtained versus 76% of transformed plants expressing anti-IL-6 scFv. In addition, some plants producing anti-IL-4 and anti-IL-6 scFvs aged more rapidly in in vitro conditions and in greenhouse pots than did control plants. Western blot analysis showed that the transformed Nicotiana tabacum plants contained proteins with an apparent molecular mass on electrophoresis of ca. 32 kDa, corresponding to the predicted size of the scFvs. As entire plant root seemed to accumulate more scFv than did leaves, we decided to continue working with isolated roots. Anti-IL-6 scFvs were detected in cultivated roots and their culture media. Functional anti-IL-6 scFv accounted for 0.16–0.18% of total soluble proteins. The affinity of the anti-IL-6 scFv produced in plants and measured by Biacore was similar to that of scFv produced in Escherichia coli. The high levels of antibody accumulation in isolated roots and secretion into the medium demonstrate the potential for producing recombinant protein in bioreactor systems.these authors contributed equally to this workthese authors contributed equally to this work     

Combined use of regulatory elements within the cDNA to increase the production of a soluble mouse single-chain antibody, scFv, from tobacco cell suspension cultures

In order to facilitate production and secretion of a soluble form of a small, single-chain antibody ScFv (32 kDa) in tobacco cell suspension culture, several modifications were made simultaneously to the antibody cDNA that included elements that have been shown to regulate the expression of proteins in plants. The scFv cDNA was initially ligated into a binary vector under the control of the CaMV 35S promoter and the T7 terminator for expression in tobacco suspension culture. Subsequently, modifications were engineered into the cDNA for enhancement of scFv production. These included the following: (i) the signal peptide (SP) of the tobacco pathogenesis-related protein PR1a which was added in-frame to the N-terminal end of scFv cDNA; (ii) a 5'-nontranslated region from the tobacco etch virus (TEV leader sequence), which was fused to the N-terminal end of the SP; and (iii) the endoplasmic reticulum retention signal peptide KDEL, which was added to the C-terminal end of the scFv protein. Using a modified disruption method involving pectinase, the highest expression of total scFv (344 ng scFv/g cell) occurred when the plant leader sequence, the TEV sequence, and the KDEL peptide were all present in the expression construct. Although the addition of the KDEL sequence significantly increased the total yield of protein 5.4-fold, it did not increase the overall amount of protein secreted. These studies indicate that while the SP is very important in promoting secretion of the scFv, it had little influence on increasing scFv secretion levels even when both the TEV and the KDEL sequences significantly increased overall protein levels.     

Antibody expressing pea seeds as fodder for prevention of gastrointestinal parasitic infections in chickens

Background

Coccidiosis caused by protozoans of genus Eimeria is a chicken parasitic disease of great economical importance. Conventional disease control strategies depend on vaccination and prophylactic use of anticoccidial drugs. Alternative solution to prevent and treat coccidiosis could be provided by passive immunization using orally delivered neutralizing antibodies. We investigated the possibility to mitigate the parasitic infection by feeding poultry with antibody expressing transgenic crop seeds.

Results

Using the phage display antibody library, we generated a panel of anti-Eimeria scFv antibody fragments with high sporozoite-neutralizing activity. These antibodies were expressed either transiently in agrobacteria-infiltrated tobacco leaves or stably in seeds of transgenic pea plants. Comparison of the scFv antibodies purified either from tobacco leaves or from the pea seeds demonstrated no difference in their antigen-binding activity and molecular form compositions. Force-feeding experiments demonstrated that oral delivery of flour prepared from the transgenic pea seeds had higher parasite neutralizing activity in vivo than the purified antibody fragments isolated from tobacco. The pea seed content was found to protect antibodies against degradation by gastrointestinal proteases (>100-fold gain in stability). Ad libitum feeding of chickens demonstrated that the transgenic seeds were well consumed and not shunned. Furthermore, feeding poultry with shred prepared from the antibody expressing pea seeds led to significant mitigation of infection caused both by high and low challenge doses of Eimeria oocysts.

Conclusion

The results suggest that our strategy offers a general approach to control parasitic infections in production animals using cost-effective antibody expression in crop seeds affordable for the animal health market.     

Expression of a single-chain variable-fragment antibody against a Fusarium virguliforme toxin peptide enhances tolerance to sudden death syndrome in transgenic soybean plants

Plants do not produce antibodies. However, plants can correctly assemble functional antibody molecules encoded by mammalian antibody genes. Many plant diseases are caused by pathogen toxins. One such disease is the soybean sudden death syndrome (SDS). SDS is a serious disease caused by the fungal pathogen Fusarium virguliforme. The pathogen, however, has never been isolated from diseased foliar tissues. Thus, one or more toxins produced by the pathogen have been considered to cause foliar SDS. One of these possible toxins, FvTox1, was recently identified. We investigated whether expression of anti-FvTox1 single-chain variable-fragment (scFv) antibody in transgenic soybean can confer resistance to foliar SDS. We have created two scFv antibody genes, Anti-FvTox1-1 and Anti-FvTox1-2, encoding anti-FvTox1 scFv antibodies from RNAs of a hybridoma cell line that expresses mouse monoclonal anti-FvTox1 7E8 antibody. Both anti-FvTox1 scFv antibodies interacted with an antigenic site of FvTox1 that binds to mouse monoclonal anti-FvTox1 7E8 antibody. Binding of FvTox1 by the anti-FvTox1 scFv antibodies, expressed in either Escherichia coli or transgenic soybean roots, was initially verified on nitrocellulose membranes. Expression of anti-FvTox1-1 in stable transgenic soybean plants resulted in enhanced foliar SDS resistance compared with that in nontransgenic control plants. Our results suggest that i) FvTox1 is an important pathogenicity factor for foliar SDS development and ii) expression of scFv antibodies against pathogen toxins could be a suitable biotechnology approach for protecting crop plants from toxin-induced diseases.     

Chlorsulfuron resistant transgenic tobacco as a tool for broomrape control

Broomrape (Orobanche ramosa L.) is the most important parasitic plant that infests tobacco (Nicotiana tabacum L.). Chemical treatment of the soil is not effective and crop rotation is not acceptable to solve this problem because of the long viability period of Orobanche seeds in the soil. Application of systemic herbicides in the field with herbicide resistant tobacco could be a successful tool for broomrape control. Several tobacco cultivars were transformed with a mutant ahas3R gene for resistance to the herbicide chlorsulfuron (Glean^®, DuPont). Transformed plants were selfed and the segregation of resistance was followed in the next generation. The efficiency of the herbicide was demonstrated in greenhouse and field trials. An Orobanche/tobacco growth system was used in order to prove the lethal effect of the herbicide to the attached broomrape plants.     

Facile assessment of cDNA constructs for expression of functional antibodies in plants using the potato virus X vector

Antibodies have been expressed in plants to confer novel traits such as virus resistance or altered phenotype. However, not every antibody is suitable for plant expression, and successful intracellular expression of antibody fragments depends primarily on their amino acid sequence in a way that is as yet unpredictable. Therefore it is desirable to assess different constructs before embarking on the production of transgenic plants. We have used a transient expression system based on potato virus X to compare different cDNA constructs for expression and stability of antibody variable gene fragments in plants. Constructs contained an anti-plant enzyme (granule-bound starch synthase I) scFv sequence derived from a naive phage display library together with different combinations of sequences encoding the human IgG constant domain, a murine IgG secretory signal sequence, or the endoplasmic reticulum retention signal peptide KDEL. The results obtained with the potato virus X vector correlated with those from Agrobacterium-mediated stable transformation of potato. The best expression levels were obtained by incorporating sequences that target scFv to the lumen of the endoplasmic reticulum and the secretory pathway. The anti-enzyme scFv retained activity during storage of potato tubers for more than five months. The results demonstrate the utility of the potato virus X vector for the analysis and comparison of many scFv with different epitope specificities or sequence modifications. Evaluation of scFv by transient expression from the PVX vector should aid progress in selection of functional scFv for applications in plant biotechnology.     

A Codon-Optimized Nucleic Acid Hydrolyzing Single-Chain Antibody Confers Resistance to Chrysanthemums Against Chrysanthemum Stunt Viroid Infection

Chrysanthemum stunt viroid (CSVd), the smallest plant pathogen known to infect chrysanthemums, is a single-stranded circular RNA viroid that induces stunting that results in an overall height reduction of 30–50 % in mature plants. A catalytic single-chain variable antibody, 3D8 scFv, which exhibits intrinsic DNase and RNase activities, was expressed in chrysanthemums to generate transgenic plant resistance to CSVd infection. Moreover, a codon-optimized version of the 3D8 scFv gene for chrysanthemums was also transformed into plants; these codon-optimized transgenic chrysanthemums expressed twice as much 3D8 scFv and displayed 60 % more resistance to CSVd infection, compared with transgenic chrysanthemums harboring the original 3D8 scFv gene. CSVd challenge experiments with codon-optimized and original 3D8 scFv-transgenic chrysanthemums showed that CSVd in newly produced leaves of both codon-optimized and original 3D8 scFv-transgenic plants was not detected by RT-PCR. This is the first report describing the development of a CSVd-resistant chrysanthemum harboring a catalytic single-chain antibody, 3D8 scFv, which has intrinsic RNase activity.     

Trehalose-6-phosphate synthase as an intrinsic selection marker for plant transformation

Insertion of foreign DNA into plant genomes occurs randomly and with low frequency. Hence, a selectable marker is generally required to identify transgenic plants. Until now, all selection systems have been based on the use of non-plant genes, derived from microorganisms and usually conferring antibiotic or herbicide resistance. The use of microorganism-derived genes however has raised biosafety concerns. We have developed a novel selection system based on enhancing the expression of a plant-intrinsic gene and the use of a harmless selection agent. Selection takes advantage of the reduced glucose sensitivity of seedlings with enhanced expression of AtTPS1, a gene encoding trehalose-6-P synthase. As a result, transformants can be identified as developing green seedlings amongst the background of small, pale non-transformed plantlets on high glucose medium. In addition, vegetative regeneration of tobacco leaf explants is very sensitive to high external glucose. Overexpression of AtTPS1 in tobacco allows selecting glucose insensitive transgenic shoots.     

Production and characterization of a CD25-specific scFv-Fc antibody secreted from Pichia pastoris

Antibodies against CD25 would be novel tools for the diagnosis and treatment of adult T cell leukemia lymphoma (ATLL) and many other immune disorders. In our previous work, we successfully produced the single-chain fragment of a variable antibody against CD25, the Dmab(scFv) antibody, using Pichia pastoris. Here, we describe a novel form of an antibody against CD25, the Dmab(scFv)-Fc antibody, also produced by P. pastoris. To construct the Dmab(scFv)-Fc antibody, the Dmab(scFv) antibody was genetically fused to the Fc fragment of a human IgG1 antibody. A fusion gene encoding Dmab(scFv)-Fc antibody was cloned into the pPIC9K plasmid and expressed at high levels, 60–70 mg/l, by P. pastoris under optimized conditions. The Dmab(scFv)-Fc antibody was similar to the Dmab(scFv) antibody in its binding specificity but different in its molecular form and Fc-mediated effector functions. The Dmab(scFv)-Fc antibody and the Dmab(scFv) antibody both bound to CD25-positive MJ cells but not to CD25-negative K562 cells. The Dmab(scFv)-Fc antibody existed as a dimer whereas the Dmab(scFv) antibody was a monomer because it lacks the Fc fragment. The Dmab(scFv)-Fc antibody enhanced the antibody-dependent cellular cytotoxicity of CD25-positive cancer cells, whereas the Dmab(scFv) antibody was inactive in the antibody-dependent cellular cytotoxicity assays. In addition, compared to the Dmab(scFv) antibody, the Dmab(scFv)-Fc antibody showed stronger immunosuppressive activity in the Con A-stimulated lymphocyte proliferation system and in the mixed lymphocyte reaction system. These results demonstrate that the Dmab(scFv)-Fc antibody produced in P. pastoris is functional, and therefore it might be developed as a novel diagnostic and therapeutic tool for ATLL and other immune disorders.     

Expression and purification of an anti-Foot-and-mouth disease virus single chain variable antibody fragment in tobacco plants

Low-cost recombinant antibodies could provide a new strategy to control Foot-and-mouth disease virus (FMDV) outbreaks by passive immunization of susceptible animals. In this study, a single chain variable antibody fragment (scFv) recognizing FMDV coat protein VP1 was expressed in transgenic tobacco plants. To enhance the accumulation of scFv protein, the codon-usage of a murine hybridoma-derived scFv gene was adjusted to mimic highly expressed tobacco genes and fused to an elastin-like polypeptide (ELP) tag. This scFv–ELP fusion accumulated up to 0.8% of total soluble leaf protein in transgenic tobacco. To recover scFv–ELP protein from the leaf extract, a simple and scalable purification strategy was established. Purified scFv–ELP fusion was cleaved to separate the scFv portion. Finally, it was shown that the purified scFv proteins retained their capacity to bind the FMDV in the absence or presence of ELP fusion. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.