Phoebe L. Stewart

What is she best known for?

The fields of study she is best known for:

• Gene
• Enzyme
• DNA

Phoebe L. Stewart mainly focuses on Cell biology, Capsid, Virology, Protein structure and Molecular biology. Her Cell biology study incorporates themes from Cell, Cell adhesion, T cell and Receptor, Ectodomain. Her Capsid research integrates issues from Integrin binding, Crystallography, Microscopy, Adenoviridae and Binding site.

Phoebe L. Stewart is studying Virus, which is a component of Virology. The Protein structure study combines topics in areas such as Heat shock protein, Biophysics, Supramolecular chemistry and Chemical physics. Her research integrates issues of MHC class II antigen, Antigen processing and Antigen in her study of Molecular biology.

Her most cited work include:

• Mutation R120G in αB-crystallin, which is linked to a desmin-related myopathy, results in an irregular structure and defective chaperone-like function (329 citations)
• Restricted Receptor Segregation into Membrane Microdomains Occurs on Human T Cells During Apoptosis Induced by Galectin-1 (304 citations)
• The Mannose Receptor Delivers Lipoglycan Antigens to Endosomes for Presentation to T Cells by CD1b Molecules (304 citations)

What are the main themes of her work throughout her whole career to date?

Her scientific interests lie mostly in Virology, Biophysics, Crystallography, Cell biology and Capsid. Her Virology research incorporates elements of Fiber and Integrin. Phoebe L. Stewart has researched Biophysics in several fields, including Heat shock protein, KaiA, KaiC, Circadian clock and Protein structure.

Her studies deal with areas such as Electron paramagnetic resonance, Protein secondary structure, Cryo-electron microscopy and Microscopy as well as Crystallography. She interconnects Receptor, Cell, Tropism and Major vault protein in the investigation of issues within Cell biology. Her biological study spans a wide range of topics, including Molecular biology, Viral vector, Epitope, Adenoviridae and Binding site.

She most often published in these fields:

• Virology (24.18%)
• Biophysics (22.22%)
• Crystallography (22.88%)

What were the highlights of her more recent work (between 2013-2021)?

• Nanoparticle (9.80%)
• Biophysics (22.22%)
• Drug delivery (7.19%)

In recent papers she was focusing on the following fields of study:

Phoebe L. Stewart spends much of her time researching Nanoparticle, Biophysics, Drug delivery, Cell biology and Capsid. Her Biophysics research includes themes of Heat shock protein, Protein subunit, Oligomer and Peptide. Her Drug delivery study incorporates themes from Molecular imaging, Biodistribution and Biomedical engineering.

Her Cell biology study combines topics in areas such as Antibody and Immune system. Her Capsid study introduces a deeper knowledge of Virus. Her Virology research is multidisciplinary, relying on both Integrin and Epidermal growth factor receptor.

Between 2013 and 2021, her most popular works were:

• Structural insight into the assembly of TRPV channels. (51 citations)
• Detection and Imaging of Aggressive Cancer Cells Using an Epidermal Growth Factor Receptor (EGFR)-Targeted Filamentous Plant Virus-Based Nanoparticle (38 citations)
• Targeting G protein-coupled receptor signaling at the G protein level with a selective nanobody inhibitor. (32 citations)

In her most recent research, the most cited papers focused on:

• Gene
• Enzyme
• DNA

Her primary scientific interests are in Drug delivery, Molecular imaging, Nanoparticle, Cell biology and Biomedical engineering. Her Molecular imaging study combines topics from a wide range of disciplines, such as Biophysics, Tobacco mosaic virus, Nuclear magnetic resonance and DOTA. Her Nanoparticle study is related to the wider topic of Nanotechnology.

Her studies in Cell biology integrate themes in fields like Retinal degeneration, HEK 293 cells and Pharmacological chaperone. Her Biomedical engineering research includes elements of Nature inspired and Sulfur hexafluoride. Her research integrates issues of Cryo-electron tomography and Optics in her study of Cryo-electron microscopy.

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