Her primary areas of investigation include Cowpea mosaic virus, Virus, Virology, Capsid and Molecular biology. The study incorporates disciplines such as Tumor microenvironment, Ligand, Pathology, Spleen and Cell biology in addition to Cowpea mosaic virus. Her biological study spans a wide range of topics, including Biodistribution, Organic chemistry, Drug delivery, Cellular infiltration and Flow cytometry.
Her study explores the link between Virology and topics such as Immune system that cross with problems in Peripheral blood mononuclear cell, Interferon and Measles. Her Capsid research includes elements of Ethylene glycol, Chemical engineering, Chemical modification and Polymer. Her Molecular biology research incorporates elements of Vero cell, Chinese hamster ovary cell, Syncytium, Cell surface receptor and Antibody.
Her primary areas of study are Virology, Cowpea mosaic virus, Measles virus, Nanotechnology and Nanoparticle. As a member of one scientific family, she mostly works in the field of Virology, focusing on Antibody and, on occasion, Toxin. Her Cowpea mosaic virus study incorporates themes from Nanobiotechnology, In vitro, Biochemistry and Cell biology.
Her Measles virus research integrates issues from Molecular biology, CD8 and CD46. Her Nanotechnology study integrates concerns from other disciplines, such as Chemical modification and Surface modification. Her Nanoparticle research focuses on Biophysics and how it connects with Bioconjugation and Cell.
Marianne Manchester mainly focuses on Cell biology, Cowpea mosaic virus, Biochemistry, Nanotechnology and Nanoparticle. Marianne Manchester combines subjects such as Macrophage and Oligopeptide with her study of Cowpea mosaic virus. Her studies in Biochemistry integrate themes in fields like Combinatorial chemistry and Biophysics.
Her work carried out in the field of Nanotechnology brings together such families of science as Surface modification and Nano-. The concepts of her Nanoparticle study are interwoven with issues in Transferrin, In vitro, Targeted drug delivery, Drug delivery and Virus. Her Capsid study, which is part of a larger body of work in Virology, is frequently linked to Heterologous, bridging the gap between disciplines.
Her scientific interests lie mostly in Virology, Virus, Immune system, Metabolomics and Nanotechnology. Marianne Manchester connects Virology with Vimentin in her study. Her work on Capsid as part of general Virus study is frequently connected to Heterologous, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
In the subject of general Immune system, her work in Autoimmunity and Experimental autoimmune encephalomyelitis is often linked to Carnitine palmitoyltransferase 1, thereby combining diverse domains of study. Her Metabolomics study combines topics in areas such as Metabolite, Chronic pain, Disease, Neuralgia and Pharmacology. Her Nanotechnology study focuses mostly on Targeted drug delivery, Drug delivery and Nanoparticle.
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Labeling live cells by copper-catalyzed alkyne--azide click chemistry.
Vu Hong;Nicole F. Steinmetz;Marianne Manchester;M. G. Finn.
Bioconjugate Chemistry (2010)
Accelerated bioorthogonal conjugation: a practical method for the ligation of diverse functional molecules to a polyvalent virus scaffold.
Sayam Sen Gupta;Jane Kuzelka;Pratik Singh;Warren G. Lewis.
Bioconjugate Chemistry (2005)
Viral nanoparticles as tools for intravital vascular imaging.
John D Lewis;Giuseppe Destito;Giuseppe Destito;Andries Zijlstra;Maria J Gonzalez.
Nature Medicine (2006)
Virus-based nanoparticles (VNPs): platform technologies for diagnostic imaging.
Marianne Manchester;Pratik Singh.
Advanced Drug Delivery Reviews (2006)
Folic Acid-Mediated Targeting of Cowpea Mosaic Virus Particles to Tumor Cells
Giuseppe Destito;Robert Yeh;Chris S. Rae;M.G. Finn.
Chemistry & Biology (2007)
Hybrid virus-polymer materials. 1. Synthesis and properties of PEG-decorated cowpea mosaic virus.
Krishnaswami S. Raja;Qian Wang;Maria José Gonzalez;Marianne Manchester.
Viral nanoparticles and virus‐like particles: platforms for contemporary vaccine design
Emily M. Plummer;Emily M. Plummer;Marianne Manchester.
Wiley Interdisciplinary Reviews-nanomedicine and Nanobiotechnology (2011)
Bio-distribution, toxicity and pathology of cowpea mosaic virus nanoparticles in vivo.
Pratik Singh;Duane Prasuhn;Robert M. Yeh;Giuseppe Destito;Giuseppe Destito.
Journal of Controlled Release (2007)
Multiple isoforms of CD46 (membrane cofactor protein) serve as receptors for measles virus
M. Manchester;M. K. Liszewski;J. P. Atkinson;M. B. A. Oldstone.
Proceedings of the National Academy of Sciences of the United States of America (1994)
Evasion of Host Defenses by Measles Virus: Wild-Type Measles Virus Infection Interferes with Induction of Alpha/Beta Interferon Production
Denise Naniche;Annie Yeh;Danelle Eto;Marianne Manchester.
Journal of Virology (2000)
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