Publications by authors named "Fenna Kolbe"
Article Synopsis
- Researchers developed DNA origami nanoshells that trap and neutralize hepatitis B virus (HBV) in cell cultures.
- The nanoshells, modified with synthetic monoclonal antibodies, enhance neutralization potency by roughly 100 times compared to free antibodies due to their physical barrier and multivalent binding effects.
- The study suggests that using these DNA shells holds promise for creating effective antiviral treatments from components that are ineffective alone.
To design new CARs targeting hepatitis B virus (HBV), we isolated human monoclonal antibodies recognizing the HBV envelope proteins from single B cells of a patient with a resolved infection. HBV-specific memory B cells were isolated by incubating peripheral blood mononuclear cells with biotinylated hepatitis B surface antigen (HBsAg), followed by single-cell flow cytometry-based sorting of live, CD19 IgG HBsAg cells. Amplification and sequencing of immunoglobulin genes from single memory B cells identified variable heavy and light chain sequences.
View Article and Find Full Text PDFBroad-spectrum antiviral platforms that can decrease or inhibit viral infection would alleviate many threats to global public health. Nonetheless, effective technologies of this kind are still not available. Here, we describe a programmable icosahedral canvas for the self-assembly of icosahedral shells that have viral trapping and antiviral properties.
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