ABSTRACT
Group A rotavirus is a major leading cause of diarrhea in mammalian species worldwide. In Argentina, bovine rotavirus (BRV) is the main cause of neonatal diarrhea in calves. VP4, one of the outermost capsid proteins, is involved in various virus functions. Rotavirus infectivity requires proteolytic cleavage of VP4, giving an N-terminal non-glycosilated sialic acid-recognizing domain (VP8*), and a C-terminal fragment (VP5*) that remains associated with the virion. VP8* subunit is the major determinant of the viral infectivity and one of the neutralizing antigens. In this work, the C486 BRV VP8* protein was produced in tobacco chloroplasts. Transplastomic plants were obtained and characterized by Southern blot, northern blot and western blot. VP8* was highly stable in the transplastomic leaves, and formed insoluble aggregates that were partially solubilized by sonication. The recombinant protein yield was 600 µg/g of fresh tissue (FT). Both the soluble and insoluble fractions of the VP8* plant extracts were able to induce a strong immune response in female mice as measured by ELISA and virus neutralization test. Most important, suckling mice born to immunized dams were protected against oral challenge with virulent rotavirus. Results presented here contribute to demonstrate the feasibility of using antigens expressed in transplastomic plants for the development of subunit vaccines.
Subject(s)
Capsid Proteins/immunology , Rotavirus Infections/prevention & control , Rotavirus Vaccines , Rotavirus , Animals , Animals, Suckling , Capsid Proteins/genetics , Cattle , Female , Mice , Protein Structure, Tertiary/genetics , Recombinant Proteins/genetics , Recombinant Proteins/immunology , Rotavirus Infections/immunology , Rotavirus Vaccines/administration & dosage , Rotavirus Vaccines/genetics , Rotavirus Vaccines/immunology , Nicotiana , Vaccination , Vaccines, Subunit/administration & dosage , Vaccines, Subunit/genetics , Vaccines, Subunit/immunologyABSTRACT
AIMS: To establish a reliable and rapid protocol to simultaneously obtain high quality DNA from an infected host plant and the infecting pathogen. To develop an accurate and sensitive low-cost assay for the quantification and in planta monitoring of Phytophthora infestans growth. METHODS AND RESULTS: In this study, we describe a SYBR Green-based quantitative real-time PCR (qPCR) method for the quantification of P. infestans. The method is based on a simultaneous plant-pathogen DNA purification followed by a qPCR in which the relative quantification of pathogen and plant DNA is performed. Besides assuring an accurate quantification, the use of a plant gene provides a reliable indicator of sample quality, allowing the exclusion of inappropriate samples. By applying this methodology, we were able to detect P. infestans in potato leaf and tuber tissue before the first symptoms of the disease were observed and to monitor the in planta growth of the pathogen for 6 days. CONCLUSIONS: This is a reliable low-cost assay that provides rapid, accurate and sensitive quantification of the late blight pathogen, allowing the in planta monitoring of P. infestans growth. SIGNIFICANCE AND IMPACT OF THE STUDY: The quantitative nature of the assay described in this study may be useful in plant breeding programmes and basic research. The method is appropriate for the comparison of cultivars with different, and even subtle, degrees of pathogen resistance and in the screening of new anti-oomycete compounds. The method can be easily adapted to tomato and the model plant Nicotiana benthamiana.
Subject(s)
Phytophthora infestans/growth & development , Plant Diseases/microbiology , Polymerase Chain Reaction/methods , Solanum tuberosum/microbiology , Benzothiazoles , DNA/analysis , DNA Primers , DNA, Plant/analysis , Diamines , Organic Chemicals , Plant Leaves/microbiology , Plant Tubers/microbiology , Quinolines , Species SpecificitySubject(s)
Carlavirus/classification , Carlavirus/genetics , Carlavirus/immunology , Carlavirus/pathogenicity , Enzyme-Linked Immunosorbent Assay , Gene Order , Genome, Viral/genetics , Molecular Sequence Data , Plant Diseases/virology , RNA, Viral/genetics , Sequence Analysis, DNA , Sequence Homology, Amino Acid , Synteny , Nicotiana/virology , Viral Proteins/immunologyABSTRACT
Partial genomic sequences from an unknown garlic potyvirus and from an onion isolate of the onion yellow dwarf potyvirus (OYDV) were obtained. Comparison of the deduced amino acid sequences showed a similarity of 88% between the respective viral coat proteins. The garlic potyvirus coat protein was expressed in E. coli cells, purified, and subjected to Western blot analysis using antibodies raised against different garlic-infecting viruses. The expression protein was consistently recognised by anti-OYDV antibodies and did not react with antibodies specific for leek yellow stripe potyvirus (LYSV), garlic common latent carlavirus (GCLV) and shallot latent carlavirus (SLV). Besides, the garlic potyvirus coat protein was obtained as a fusion protein and used as antigen to produce polyclonal antibodies. These antibodies reacted with purified OYDV virions, but failed to recognise LYSV particles. In the light of this evidence the garlic potyvirus was identified as the garlic strain of OYDV.
Subject(s)
Capsid/genetics , Potyvirus/genetics , Amino Acid Sequence , Animals , Base Sequence , Blotting, Western , Capsid/immunology , Capsid/metabolism , Cloning, Molecular , Escherichia coli/genetics , Garlic/virology , Gene Expression , Molecular Sequence Data , Onions/virology , Plants, Medicinal , Potyvirus/immunology , Potyvirus/metabolism , Rabbits , Recombinant Fusion Proteins/immunology , Recombination, Genetic , Sequence Alignment , Sequence Analysis, DNA , Sequence Homology, Amino AcidABSTRACT
cDNA clones of potato virus X (PVXcp strain), potato virus Y (PVYo strain), potato leaf roll virus (PLRV) and potato spindle tuber viroid (PSTV) were used separately or combined for the detection of the corresponding RNAs in extracts of infected plants. A general method for the rapid preparation of RNA extracts without use of organic solvents (i.e. phenol) was developed for this purpose. Plant extracts from a range of field, artificially inoculated germplasm genotypes, micro-propagated and protoplast samples, as well as vector insect extracts, were dot-blotted onto nylon or nitrocellulose membranes, subjected to sandwich nucleic acid hybridization with non-labelled specific single-stranded DNA probes followed by a biotin-labelled second step hybridization probe. Each probe was virus-specific but not strain-specific. Healthy or non-related plant extracts developed very faint or no signals. Sensitivity was tested by slot-blot hybridization. Detection levels were between 1.5 to 6 pg of viral nucleic acids and between 20 to 50 times more sensitive than standard double antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA). The assay developed was tested with material that was prepared for processing in the field (combination of fresh sap with extraction solution) and tested under simple laboratory conditions for detection. It was also successfully employed for screening of germplasm for virus resistance, detection of pathogens in vector insects, plantlets grown in vitro and in more sophisticated quantitative determinations of viral replication in artificially inoculated plants and protoplasts.
Subject(s)
Nucleic Acid Hybridization , Plant Viruses/isolation & purification , Solanum tuberosum/microbiology , Cloning, Molecular , DNA Probes , Enzyme-Linked Immunosorbent Assay , Methods , Plant Diseases , Plant Viruses/genetics , RNA, Viral/analysis , Sensitivity and SpecificityABSTRACT
cDNA libraries, representative of potato viruses X (PVXc strain) and Y (PVY degrees strain) genomes were obtained. A PVX cDNA cloned fragment was sequenced and biotinylated to be used as hybridization probe for the detection of purified virus or nucleic acid extracts of infected plants. Dot hybridization assay was sensitive to detect 4 ng of viral particles, corresponding to about 200 pg of viral RNA. The level of detection in infected plant extracts was as effective as that obtained with the ELISA. The presence of biotinylated PVY cDNA in the hybridization mixture did not affect sensitivity of the PVX detection assay, suggesting that a single diagnostic assay for several potato viruses and virus-related pathogens could be developed.
