Ayesha Adams, Megan Hendrikse, Edward P. Rybicki & Inga I. Hitzeroth. (2023) Optimal size of DNA encapsidated by plant produced human papillomavirus pseudovirions. Virology 580, pages 88-97.
Crossref
Kaya İşleyen, Deniz Uras, Beyza Kocaoğlu & Bahar Soğutmaz Özdemir. 2023. Tools & Techniques of Plant Molecular Farming. Tools & Techniques of Plant Molecular Farming
89
112
.
Mauro M. Morgenfeld, Catalina F. Vater, E. Federico Alfano, Noelia A. Boccardo & Fernando F. Bravo-Almonacid. (2020) Translocation from the chloroplast stroma into the thylakoid lumen allows expression of recombinant epidermal growth factor in transplastomic tobacco plants. Transgenic Research 29:3, pages 295-305.
Crossref
Muhammad Sarwar Khan & Kauser Abdulla Malik. 2019. Transgenic Crops - Emerging Trends and Future Perspectives. Transgenic Crops - Emerging Trends and Future Perspectives.
Kehinde Sharafadeen Okunade. 2019. Current Perspectives in Human Papillomavirus. Current Perspectives in Human Papillomavirus.
Inga I. Hitzeroth, Aleyo Chabeda, Mark P. Whitehead, Marcus Graf & Edward P. Rybicki. (2018) Optimizing a Human Papillomavirus Type 16 L1-Based Chimaeric Gene for Expression in Plants. Frontiers in Bioengineering and Biotechnology 6.
Crossref
Aleyo Chabeda, Romana J.R. Yanez, Renate Lamprecht, Ann E. Meyers, Edward P. Rybicki & Inga I. Hitzeroth. (2018) Therapeutic vaccines for high-risk HPV-associated diseases. Papillomavirus Research 5, pages 46-58.
Crossref
Romana J. R. Yanez, Renate Lamprecht, Milaid Granadillo, Isis Torrens, Elsa Arcalís, Eva Stöger, Edward P. Rybicki & Inga I. Hitzeroth. (2018)
LALF
32-51
-E7, a HPV-16 therapeutic vaccine candidate, forms protein body-like structures when expressed in
Nicotiana benthamiana
leaves
. Plant Biotechnology Journal 16:2, pages 628-637.
Crossref
Sumira Jan & Nazia Abbas. 2018. Himalayan Phytochemicals. Himalayan Phytochemicals
167
215
.
Rosella Franconi, Elena Illiano, Francesca Paolini, Silvia Massa, Aldo Venuti & Olivia Costantina Demurtas. 2018. Defence Against Bioterrorism. Defence Against Bioterrorism
123
139
.
Romana J. R. Yanez, Renate Lamprecht, Milaid Granadillo, Brandon Weber, Isis Torrens, Edward P. Rybicki & Inga I. Hitzeroth. (2017) Expression optimization of a cell membrane-penetrating human papillomavirus type 16 therapeutic vaccine candidate in Nicotiana benthamiana. PLOS ONE 12:8, pages e0183177.
Crossref
Kathleen Hefferon. (2017) Reconceptualizing cancer immunotherapy based on plant production systems. Future Science OA 3:3, pages FSO217.
Crossref
H. Plchova, N. Cerovska, P. Vaculik & T. Moravec. (2017) Plant viruses as scaffolds for the presentation of vaccine epitopes. Biologia plantarum 61:1, pages 1-12.
Crossref
R. K. Salyaev, N. I. Rekoslavskaya, A. S. Stolbikov & A. V. Tret’yakova. (2016) Using the omega leader sequence of tobacco mosaic virus to transform tomato fruits with the papillomavirus hpv16 L1 gene to enhance production of the antigenic protein HPV16 L11. Doklady Biochemistry and Biophysics 468:1, pages 187-189.
Crossref
John T Schiller & Martin Müller. (2015) Next generation prophylactic human papillomavirus vaccines. The Lancet Oncology 16:5, pages e217-e225.
Crossref
Petr Vaculik, Helena Plchova, Tomas Moravec, Hana Hoffmeisterova, Noemi Cerovska & Michal Smahel. (2014) Potato virus X displaying the E7 peptide derived from human papillomavirus type 16: a novel position for epitope presentation. Plant Cell, Tissue and Organ Culture (PCTOC) 120:2, pages 671-680.
Crossref
Edward P Rybicki. (2014) Plant-based vaccines against viruses. Virology Journal 11:1.
Crossref
Mauro Morgenfeld, Ezequiel Lentz, María Eugenia Segretin, E. Federico Alfano & Fernando Bravo-Almonacid. (2014) Translational Fusion and Redirection to Thylakoid Lumen as Strategies to Enhance Accumulation of Human Papillomavirus E7 Antigen in Tobacco Chloroplasts. Molecular Biotechnology 56:11, pages 1021-1031.
Crossref
Franco M Buonaguro & Luigi BuonaguroNunzia ScottiEdward P Rybicki. 2014. Virus-like Particles in Vaccine Development. Virus-like Particles in Vaccine Development
102
118
.
M.R. Ahuja. 2014. Biotechnology and Biodiversity. Biotechnology and Biodiversity
77
100
.
Maria Alejandra AlvarezMaría Alejandra Alvarez. 2014. Plant Biotechnology for Health. Plant Biotechnology for Health
81
109
.
Anu Rahal, Mahima .Amit Kumar Verma, Amit Kumar .Ruchi Tiwari .Sanjay Kapoor .Sandip Chakraborty .Kuldeep Dhama .. (2013) Phytonutrients and Nutraceuticals in Vegetables and Their Multi-dimensional Medicinal and Health Benefits for Humans and Their Companion Animals: A Review. Journal of Biological Sciences 14:1, pages 1-19.
Crossref
Catherine B. Pineo, Inga I. Hitzeroth & Edward P. Rybicki. (2013) Immunogenic assessment of plant-produced human papillomavirus type 16 L1/L2 chimaeras. Plant Biotechnology Journal 11:8, pages 964-975.
Crossref
Olivia C. Demurtas, Silvia Massa, Paola Ferrante, Aldo Venuti, Rosella Franconi & Giovanni Giuliano. (2013) A Chlamydomonas-Derived Human Papillomavirus 16 E7 Vaccine Induces Specific Tumor Protection. PLoS ONE 8:4, pages e61473.
Crossref
Andrew J. Love, Sean N. Chapman, Slavica Matic, Emanuela Noris, George P. Lomonossoff & Michael Taliansky. (2012) In planta production of a candidate vaccine against bovine papillomavirus type 1. Planta 236:4, pages 1305-1313.
Crossref
Slavica Matić, Vera Masenga, Alice Poli, Riccardo Rinaldi, Robert G. Milne, Manuela Vecchiati & Emanuela Noris. (2012)
Comparative analysis of recombinant
Human Papillomavirus
8 L1 production in plants by a variety of expression systems and purification methods
. Plant Biotechnology Journal 10:4, pages 410-421.
Crossref
Rima Menassa, Adil Ahmad & Jussi J. Joensuu. 2012. Molecular Farming in Plants: Recent Advances and Future Prospects. Molecular Farming in Plants: Recent Advances and Future Prospects
183
198
.
Slavica Matić, Riccardo Rinaldi, Vera Masenga & Emanuela Noris. (2011) Efficient production of chimeric Human papillomavirus 16 L1 protein bearing the M2e influenza epitope in Nicotiana benthamiana plants. BMC Biotechnology 11:1.
Crossref
Andreas G. Lössl & Mohammad T. Waheed. (2011) Chloroplast-derived vaccines against human diseases: achievements, challenges and scopes. Plant Biotechnology Journal 9:5, pages 527-539.
Crossref
Emanuela Noris, Alice Poli, Rodica Cojoca, Massimo Rittà, Federica Cavallo, Stany Vaglio, Slavica Matic & Santo Landolfo. (2011) A human papillomavirus 8 E7 protein produced in plants is able to trigger the mouse immune system and delay the development of skin lesions. Archives of Virology 156:4, pages 587-595.
Crossref
Olawole O. Obembe, Jacob O. Popoola, Sadhu Leelavathi & Siva V. Reddy. (2011) Advances in plant molecular farming. Biotechnology Advances 29:2, pages 210-222.
Crossref