Combined biolistic and cell penetrating peptide delivery for the development of scalable intradermal DNA vaccines

So, Roizza Beth; Li, Gang; Brentville, Victoria; Daly, Janet M; Dixon, James E

doi:10.1016/j.jconrel.2024.01.031

All Outputs (6)

Modelling the influence of climate and vector control interventions on arbovirus transmission (2024)
Journal Article
Fairbanks, E. L., Daly, J. M., & Tildesley, M. J. (in press). Modelling the influence of climate and vector control interventions on arbovirus transmission. Viruses,

Most mathematical models that assess the vectorial capacity of disease-transmitting insects typically focus on the influence of climatic factors to predict variations across different times and locations, or examine the impact of vector control inter... Read More about Modelling the influence of climate and vector control interventions on arbovirus transmission.

Role of pseudotyped viruses in understanding epidemiology, pathogenesis and immunity of viral diseases affecting both horses and humans (2024)
Journal Article
Sedgwick, R. L., Elbohy, O., & Daly, J. M. (2024). Role of pseudotyped viruses in understanding epidemiology, pathogenesis and immunity of viral diseases affecting both horses and humans. Virology, 597, Article 110164. https://doi.org/10.1016/j.virol.2024.110164

In this review, we explore how pseudotyped viruses (PVs) are being applied to the study of viruses affecting both humans and horses. For the purposes of this review, we define PVs as non-replicative viruses with the core of one virus and the surface... Read More about Role of pseudotyped viruses in understanding epidemiology, pathogenesis and immunity of viral diseases affecting both horses and humans.

The Potential of Plant-Produced Virus-like Particle Vaccines for African Horse Sickness and Other Equine Orbiviruses (2024)
Journal Article
Pitchers, K. G., Boakye, O. D., Campeotto, I., & Daly, J. M. (2024). The Potential of Plant-Produced Virus-like Particle Vaccines for African Horse Sickness and Other Equine Orbiviruses. Pathogens, 13(6), Article 458. https://doi.org/10.3390/pathogens13060458

African horse sickness is a devastating viral disease of equids. It is transmitted by biting midges of the genus Culicoides with mortalities reaching over 90% in naïve horses. It is endemic to sub-Saharan Africa and is seasonally endemic in many part... Read More about The Potential of Plant-Produced Virus-like Particle Vaccines for African Horse Sickness and Other Equine Orbiviruses.

Knowns and unknowns of TiLV-associated neuronal disease (2024)
Journal Article
Kembou-Ringert, J. E., Hotio, F. N., Steinhagen, D., Thompson, K. D., Surachetpong, W., Rakus, K., …Adamek, M. (in press). Knowns and unknowns of TiLV-associated neuronal disease. Virulence, 15(1), Article 2329568. https://doi.org/10.1080/21505594.2024.2329568

Tilapia Lake Virus (TiLV) is associated with pathological changes in the brain of infected fish, but the mechanisms driving the virus's neuropathogenesis remain poorly characterized. TiLV establishes a persistent infection in the brain of infected fi... Read More about Knowns and unknowns of TiLV-associated neuronal disease.

Development of Virus-like Particle Plant-Based Vaccines against Avian H5 and H9 Influenza A Viruses (2024)
Journal Article
Elbohy, O. A., Iqbal, M., Daly, J. M., & Dunham, S. P. (2024). Development of Virus-like Particle Plant-Based Vaccines against Avian H5 and H9 Influenza A Viruses. Veterinary Sciences, 11(2), Article 93. https://doi.org/10.3390/vetsci11020093

Avian influenza A virus (AIV) is a significant cause of mortality in poultry, causing substantial economic loss, particularly in developing countries, and has zoonotic potential. For example, highly pathogenic avian influenza (HPAI) viruses of the H5... Read More about Development of Virus-like Particle Plant-Based Vaccines against Avian H5 and H9 Influenza A Viruses.

Combined biolistic and cell penetrating peptide delivery for the development of scalable intradermal DNA vaccines (2024)
Journal Article
So, R. B., Li, G., Brentville, V., Daly, J. M., & Dixon, J. E. (2024). Combined biolistic and cell penetrating peptide delivery for the development of scalable intradermal DNA vaccines. Journal of Controlled Release, 367, 209-222. https://doi.org/10.1016/j.jconrel.2024.01.031

Physical-based gene delivery via biolistic methods (such as the Helios gene gun) involve precipitation of nucleic acids onto microparticles and direct transfection through cell membranes of exposed tissue (e.g. skin) by high velocity acceleration. Th... Read More about Combined biolistic and cell penetrating peptide delivery for the development of scalable intradermal DNA vaccines.