Current state-of-the-art in the use of plants for the production of recombinant vaccines against infectious bursal disease virus

[1]  M. S. Lucero,et al.  Plant-based vaccine candidate against Infectious bursal disease: An alternative to inactivated vaccines for breeder hens. , 2019, Vaccine.

[2]  A. Scaloni,et al.  Functional characterization of a plant-produced infectious bursal disease virus antigen fused to the constant region of avian IgY immunoglobulins , 2019, Applied Microbiology and Biotechnology.

[3]  C. Marusic,et al.  Current state-of-the-art in plant-based antibody production systems , 2019, Biotechnology Letters.

[4]  Ina Baļķe,et al.  Use of plant viruses and virus-like particles for the creation of novel vaccines. , 2019, Advanced drug delivery reviews.

[5]  A. Jasik,et al.  Identification and assessment of virulence of a natural reassortant of infectious bursal disease virus , 2018, Veterinary Research.

[6]  J. Dale,et al.  Improving agroinfiltration-based transient gene expression in Nicotiana benthamiana , 2018, Plant Methods.

[7]  Xiaomei Wang,et al.  Recombinant Lactococcus lactis co-expressing OmpH of an M cell-targeting ligand and IBDV-VP2 protein provide immunological protection in chickens. , 2018, Vaccine.

[8]  K. Hefferon Plant Virus Expression Vectors: A Powerhouse for Global Health , 2017, Biomedicines.

[9]  M. S. Lucero,et al.  Comparison of homologous and heterologous prime-boost immunizations combining MVA-vectored and plant-derived VP2 as a strategy against IBDV. , 2017, Vaccine.

[10]  Yung-Fu Chang,et al.  Phosphorylated Radix Cyathulae officinalis Polysaccharides Act as Adjuvant via Promoting Dendritic Cell Maturation , 2017, Molecules.

[11]  D. Ojkic,et al.  A 5-year study of the incidence and economic impact of variant infectious bursal disease viruses on broiler production in Saskatchewan, Canada. , 2016, Canadian journal of veterinary research = Revue canadienne de recherche veterinaire.

[12]  T. Canto Transient Expression Systems in Plants: Potentialities and Constraints. , 2016, Advances in experimental medicine and biology.

[13]  S. Rautenschlein,et al.  Comparison of infectious bursal disease live vaccines and a HVT-IBD vector vaccine and their effects on the immune system of commercial layer pullets , 2016, Avian pathology : journal of the W.V.P.A.

[14]  M. Hair-Bejo,et al.  Farming of Plant-Based Veterinary Vaccines and Their Applications for Disease Prevention in Animals , 2015, Advances in virology.

[15]  G. Lomonossoff,et al.  When plant virology met Agrobacterium: the rise of the deconstructed clones , 2015, Plant biotechnology journal.

[16]  R. Zhu,et al.  Co-adjuvant effects of plant polysaccharide and propolis on chickens inoculated with Bordetella avium inactivated vaccine , 2015, Avian pathology : journal of the W.V.P.A.

[17]  Qiang Chen,et al.  Gene Delivery into Plant Cells for Recombinant Protein Production , 2015, BioMed research international.

[18]  Jianfeng Xu,et al.  On the way to commercializing plant cell culture platform for biopharmaceuticals: present status and prospect. , 2014, Pharmaceutical bioprocessing.

[19]  S. Schillberg,et al.  Protective Oral Vaccination against Infectious bursal disease virus Using the Major Viral Antigenic Protein VP2 Produced in Pichia pastoris , 2013, PloS one.

[20]  B. Lambrecht,et al.  Infectious Bursal Disease: a complex host-pathogen interaction. , 2013, Developmental and comparative immunology.

[21]  K. Moustafa,et al.  Recent advances on host plants and expression cassettes' structure and function in plant molecular pharming , 2013, BioDrugs.

[22]  M. S. Lucero,et al.  Transient expression of VP2 in Nicotiana benthamiana and its use as a plant-based vaccine against infectious bursal disease virus. , 2013, Vaccine.

[23]  T. G. Sumithra,et al.  Edible vaccines against veterinary parasitic diseases--current status and future prospects. , 2013, Vaccine.

[24]  Omid Taghavian,et al.  Expression and characterization of infectious bursal disease virus protein for poultry vaccine development and application in nanotechnology , 2013 .

[25]  H. Mahgoub An overview of infectious bursal disease , 2012, Archives of Virology.

[26]  Hung-Jen Liu,et al.  Induction of protective immunity in chickens immunized with plant-made chimeric Bamboo mosaic virus particles expressing very virulent Infectious bursal disease virus antigen. , 2012, Virus research.

[27]  E. Mundt,et al.  Current status of vaccines against infectious bursal disease , 2012, Avian pathology : journal of the W.V.P.A.

[28]  C. Lico,et al.  Plant-Based Vaccine Delivery Strategies , 2012 .

[29]  S. Baschieri Innovation in vaccinology : from design, through to delivery and testing , 2012 .

[30]  D. Jackwood Viral Competition and Maternal Immunity Influence the Clinical Disease Caused by Very Virulent Infectious Bursal Disease Virus , 2011, Avian diseases.

[31]  Jianfeng Xu,et al.  Towards high-yield production of pharmaceutical proteins with plant cell suspension cultures. , 2011, Biotechnology advances.

[32]  Kang Chen,et al.  Vaccination Strategies to Promote Mucosal Antibody Responses , 2010, Immunity.

[33]  Y. Dorokhov,et al.  Transient expression systems for plant-derived biopharmaceuticals , 2010, Expert review of vaccines.

[34]  M. Falchi,et al.  Immunomodulatory Activity of a Plant Extract Containing Human Papillomavirus 16-E7 Protein in Human Monocyte-Derived Dendritic Cells , 2009, International journal of immunopathology and pharmacology.

[35]  Y. Sheludko Agrobacterium-mediated transient expression as an approach to production of recombinant proteins in plants. , 2008, Recent patents on biotechnology.

[36]  C. Lico,et al.  Viral vectors for production of recombinant proteins in plants , 2008, Journal of cellular physiology.

[37]  M. Shen,et al.  Large-scale manufacture and use of recombinant VP2 vaccine against infectious bursal disease in chickens. , 2007, Vaccine.

[38]  E. Mundt,et al.  Molecular and Structural Bases for the Antigenicity of VP2 of Infectious Bursal Disease Virus , 2007, Journal of Virology.

[39]  D. Jackwood,et al.  Genetic characteristics of infectious bursal disease viruses from four continents. , 2007, Virology.

[40]  Jiyong Zhou,et al.  Oral immunization with transgenic rice seeds expressing VP2 protein of infectious bursal disease virus induces protective immune responses in chickens. , 2007, Plant biotechnology journal.

[41]  E. Mundt,et al.  Molecular and Structural Bases for the Antigenicity of VP 2 of Infectious Bursal Disease Virus , 2007 .

[42]  J. Ignjatovic,et al.  Chicken recombinant antibodies against infectious bursal disease virus are able to form antibody–virus immune complex , 2006, Avian pathology : journal of the W.V.P.A.

[43]  G. Zavala,et al.  Detection and Characterization of Avian Leukosis Virus in Marek's Disease Vaccines , 2006, Avian diseases.

[44]  Margaret Weyand News In Brief , 2006, Nature Biotechnology.

[45]  L. M. Henderson Overview of marker vaccine and differential diagnostic test technology. , 2005, Biologicals : journal of the International Association of Biological Standardization.

[46]  T. Tzfira,et al.  A versatile vector system for multiple gene expression in plants. , 2005, Trends in plant science.

[47]  B. Trus,et al.  Structural polymorphism of the major capsid protein of a double-stranded RNA virus: an amphipathic alpha helix as a molecular switch. , 2005, Structure.

[48]  S. Rautenschlein,et al.  Protective Efficacy of Intermediate and Intermediate Plus Infectious Bursal Disease Virus (IBDV) Vaccines Against Very Virulent IBDV in Commercial Broilers , 2005, Avian diseases.

[49]  M. Velhner,et al.  Delayed vaccine virus replication in chickens vaccinated subcutaneously with an immune complex infectious bursal disease vaccine: quantification of vaccine virus by real-time polymerase chain reaction. , 2005, Canadian journal of veterinary research = Revue canadienne de recherche veterinaire.

[50]  Irina Gutsche,et al.  The Birnavirus Crystal Structure Reveals Structural Relationships among Icosahedral Viruses , 2005, Cell.

[51]  H. Müller,et al.  Heterogeneity of the antigenic site responsible for the induction of neutralizing antibodies in infectious bursal disease virus , 2005, Archives of Virology.

[52]  D. Jackwood Recent trends in the molecular diagnosis of infectious bursal disease viruses , 2004, Animal Health Research Reviews.

[53]  J. Giambrone,et al.  Immunization of Chickens with VP2 Protein of Infectious Bursal Disease Virus Expressed in Arabidopsis thaliana , 2004, Avian diseases.

[54]  N. Singh,et al.  Expression of immunogenic VP2 protein of infectious bursal disease virus in Arabidopsis thaliana , 2004, Biotechnology Letters.

[55]  Rainer Fischer,et al.  Plant-based production of biopharmaceuticals. , 2004, Current opinion in plant biology.

[56]  M. Al-Natour,et al.  Effect of Different Levels of Maternally Derived Antibodies on Protection Against Infectious Bursal Disease Virus , 2004 .

[57]  Margaret H. Butler,et al.  Three-Dimensional Structure of I to , 2004 .

[58]  J. Castón,et al.  Structure-dependent efficacy of infectious bursal disease virus (IBDV) recombinant vaccines. , 2003, Vaccine.

[59]  G. Lomonossoff,et al.  Viruses as Vectors for the Expression of Foreign Sequences in Plants , 2002, Biotechnology & genetic engineering reviews.

[60]  T. P. van den Berg,et al.  Infectious bursal disease (Gumboro disease). , 2000, Revue scientifique et technique.

[61]  B. Böttcher,et al.  Three-dimensional structure of infectious bursal disease virus determined by electron cryomicroscopy , 1997, Journal of virology.

[62]  P. Wakenell,et al.  Determination of optimum formulation of a novel infectious bursal disease virus (IBDV) vaccine constructed by mixing bursal disease antibody with IBDV. , 1995, Avian diseases.

[63]  M. Rivière,et al.  Herpesvirus of turkey recombinant viruses expressing infectious bursal disease virus (IBDV) VP2 immunogen induce protection against an IBDV virulent challenge in chickens. , 1995, Virology.

[64]  K. Erny,et al.  A conformational immunogen on VP-2 of infectious bursal disease virus that induces virus-neutralizing antibodies that passively protect chickens. , 1989, The Journal of general virology.