Agroinfiltration as an Effective and Scalable Strategy of Gene Delivery for Production of Pharmaceutical Proteins - Ti plasmid - Document - PDFSEARCH.IO - Document Search Engine

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	Agroinfiltration as an Effective and Scalable Strategy of Gene Delivery for Production of Pharmaceutical Proteins Add to Reading List Document Date: 2014-05-18 11:20:44 Open Document File Size: 3,90 MB Share Result on Facebook City Tempe / New York / Agrobacterium / Francis / / Company IgG / Kentucky Bioprocessing LLC. / Tacket CO / Proc Natl Acad Sci U S A / Google / Balázs E (2002) Limited / Creative Commons / OMICS Group / / Country South Africa / United States / Canada / / Currency pence / / / Facility College of Technology / Plant Host Pharmaceutical Target Development Stage References N. / Plant Cell Rep / Arizona State University / The Biodesign Institute / Physiol Plant / USA College of Technology / U.S. facility / / / IndustryTerm economical and safe manufacturing / biotechnology / plant-derived pharmaceutical proteins / downstream processing regimes / transgene products / protein products / pharmaceutical protein production / human pharmaceuticals / food contamination / consistent culture media / biological systems / transient expression technology / plant transient systems / expression systems / large functional pharmaceutical proteins / pharmaceutical agents / plant biotechnology / transient expression systems / culture-based fermentation technologies / manufacturing scale / pharmaceutical candidate / transient systems / gene-delivery technology / biomass processing technologies / pharmaceutical grade / plant-made pharmaceuticals / large-scale pharmaceutical protein production / pharmaceuticals / plant-based expression systems / gene products / culture-based systems / publication processing / pharmaceutical production / infiltration media / plant-made human products / pharmaceutical importance / food crops / human pharmaceutical proteins / manufacturing / large scale manufacturing / pharmaceutical proteins / plant transient expression systems / stable seed bank / posttranslational processing capacity / agroinfiltration technology / gene delivery technologies / vector systems / recombinant pharmaceutical proteins / pharmaceutical candidates / favorable tool / using plant biotechnology / / MedicalCondition Ebola virus infection / HIV / viral infection / strain / hepatitis B / mixed infections / H1N1/seasonal influenza / infectious viral particles / Lettuce Ebola / mechanical infection / MS / tumor / N. benthamiana Ebola / immunogenic Ebola / West Nile virus infection / Ebola / functional infectious particles / tissue necrosis / Gaucher’s Disease / pandemic influenza / infection / Avian flu / leaf necrosis / / MedicalTreatment antibiotics / / Organization National Institute of Health / College of Technology and Innovation / Arizona State University / Biodesign Institute / US Food and Drug Administration / Center for Infectious Disease and Vaccinology / USA College of Technology / / Person Boca Raton / Barry Bratcher / / / Position *Corresponding author / original author / candidate / under established conditions / MP / skilled worker / candidate for this purpose / / ProvinceOrState New York / Arizona / / RadioStation Loske AM / / Region West Nile / / Technology genetic engineering / biomanufacturing / gene delivery technologies / antibodies / biotechnology / cloning / biomass processing technologies / gene-delivery technology / biopharmaceuticals / transient expression technology / culture-based fermentation technologies / gene expression / Gene Delivery / Bioprocessing / recombination / agroinfiltration technology / recombinant DNA / / URL http / SocialTag Gene delivery Genetics Microbiology Agroinfiltration Vector Agrobacterium tumefaciens Genetic engineering Transformation Ti plasmid Biology