BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Hypothalamus, Laryngoscope, Phenobarbital, rs2476601, MDM2, calcium channel activity)
Bookmark Forward

Display of neutralizing epitopes of Canine parvovirus and a T-cell epitope of the fusion protein of Canine distemper virus on chimeric tymovirus-like particles and its use as a vaccine candidate both against Canine parvo and Canine distemper.

Dev Chandran, Pallichera Vijayan Shahana, Gudavelli Sudha Rani, Parthasarthy Sugumar, Chinchkar Ramchandra Shankar, Villuppanoor Alwar Srinivasan

Indian Immunologicals Limited, Rakshapuram, Gachibowli, Hyderabad 500032, Andhra Pradesh, India.

Vaccine 2009 Dec 10


filter terms:
  • amino acid substitutions (1)
  • animals (1)
  • antibodies viral (2)
  • canine distemper (1)
  • canine distemper virus (4)
  • canine parvovirus (3)
  • capsid protein physalis mottle virus (1)
  • capsids (2)
  • cell (1)
  • coat protein (4)
  • dogs (4)
  • e coli (1)
  • electron microscopy (1)
  • epitopes (2)
  • escherichia coli (1)
  • f protein, phocine distemper virus (1)
  • guinea pigs (3)
  • hemagglutination inhibition tests (1)
  • immune response (1)
  • infections (1)
  • neutralization tests (1)
  • particles a (1)
  • parvoviridae (1)
  • physalis (3)
  • proteins t (1)
  • rabbits (1)
  • recombinant fusion proteins (2)
  • t cell epitope (4)
  • t lymphocyte (2)
  • tymovirus (5)
  • ultracentrifugation (1)
  • vaccines (3)
  • vaccines synthetic (2)
  • vaccines viral (1)
  • vaccines viral (2)
  • viral fusion proteins (2)
  • virus (3)
    • Sizes of these terms reflect their relevance to your search.

    Expression of Physalis mottle tymovirus coat protein in Escherichia coli was earlier shown to self-assemble into empty capsids that were nearly identical to the capsids formed in vivo. Amino acid substitutions were made at the N-terminus of wild-type Physalis mottle virus coat protein with neutralizing epitopes of Canine parvovirus containing the antigenic sites 1-2, 4 and 6-7 and T-cell epitope of the fusion protein of Canine distemper virus in various combinations to yield PhMV1, PhMV2, PhMV3, PhMV4 and PhMV5. These constructs were cloned and expressed in E. coli. The chimeric proteins self-assembled into chimeric tymovirus-like particles (TVLPs) as determined by electron microscopy. The TVLPs were purified by ultracentrifugation and injected into guinea pigs and dogs to determine their immunogenicity. Initial immunogenicity studies in guinea pigs indicated that PhMV3 gave a higher response in comparison to the other TVLPs for both CPV and CDV and hence all further experiments in dogs were done with PhMV3. HI was done against different isolates obtained from various parts of the country. Protective titres indicated the broad spectrum of the vaccine. In conclusion the study indicated that the above chimeric VLP based vaccine could be used in dogs to generate a protective immune response against diseases caused by both Canine parvo and Canine distemper virus.

    Citation

    Dev Chandran, Pallichera Vijayan Shahana, Gudavelli Sudha Rani, Parthasarthy Sugumar, Chinchkar Ramchandra Shankar, Villuppanoor Alwar Srinivasan. Display of neutralizing epitopes of Canine parvovirus and a T-cell epitope of the fusion protein of Canine distemper virus on chimeric tymovirus-like particles and its use as a vaccine candidate both against Canine parvo and Canine distemper. Vaccine. 2009 Dec 10;28(1):132-9

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 19818723

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.