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Chemische Evolution antiviraler Wirkstoffe gegen Enterovirus D68 durch Proteintemplat‐gesteuerte Knoevenagelreaktionen.
Published in:
Angewandte Chemie, 2021, v. 133, n. 24, p. 13405, doi. 10.1002/ange.202102074
By:
- Tauber, Carolin;
- Wamser, Rebekka;
- Arkona, Christoph;
- Tügend, Marisa;
- Abdul Aziz, Umer Bin;
- Pach, Szymon;
- Schulz, Robert;
- Jochmans, Dirk;
- Wolber, Gerhard;
- Neyts, Johan;
- Rademann, Jörg
Publication type:
Article
A Critical Study on Acylating and Covalent Reversible Fragment Inhibitors of SARS‐CoV‐2 Main Protease Targeting the S1 Site with Pyridine.
Published in:
ChemMedChem, 2023, v. 18, n. 9, p. 1, doi. 10.1002/cmdc.202200635
By:
- Wamser, Rebekka;
- Pach, Szymon;
- Arkona, Christoph;
- Baumgardt, Morris;
- Aziz, Umer Bin Abdul;
- Hocke, Andreas C.;
- Wolber, Gerhard;
- Rademann, Jörg
Publication type:
Article
Chemical Evolution of Antivirals Against Enterovirus D68 through Protein‐Templated Knoevenagel Reactions.
Published in:
Angewandte Chemie International Edition, 2021, v. 60, n. 24, p. 13294, doi. 10.1002/anie.202102074
By:
- Tauber, Carolin;
- Wamser, Rebekka;
- Arkona, Christoph;
- Tügend, Marisa;
- Abdul Aziz, Umer Bin;
- Pach, Szymon;
- Schulz, Robert;
- Jochmans, Dirk;
- Wolber, Gerhard;
- Neyts, Johan;
- Rademann, Jörg
Publication type:
Article
Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.
Published in:
Nature Communications, 2024, v. 15, n. 1, p. 1, doi. 10.1038/s41467-024-47741-3
By:
- Aziz, Umer Bin Abdul;
- Saoud, Ali;
- Bermudez, Marcel;
- Mieth, Maren;
- Atef, Amira;
- Rudolf, Thomas;
- Arkona, Christoph;
- Trenkner, Timo;
- Böttcher, Christoph;
- Ludwig, Kai;
- Hoelzemer, Angelique;
- Hocke, Andreas C.;
- Wolber, Gerhard;
- Rademann, Jörg
Publication type:
Article
Author Correction: Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.
Published in:
2024
By:
- Aziz, Umer Bin Abdul;
- Saoud, Ali;
- Bermudez, Marcel;
- Mieth, Maren;
- Atef, Amira;
- Rudolf, Thomas;
- Arkona, Christoph;
- Trenkner, Timo;
- Böttcher, Christoph;
- Ludwig, Kai;
- Hoelzemer, Angelique;
- Hocke, Andreas C.;
- Wolber, Gerhard;
- Rademann, Jörg
Publication type:
Correction Notice
Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.
Published in:
Nature Communications, 2024, v. 15, n. 1, p. 1, doi. 10.1038/s41467-024-47741-3
By:
- Aziz, Umer Bin Abdul;
- Saoud, Ali;
- Bermudez, Marcel;
- Mieth, Maren;
- Atef, Amira;
- Rudolf, Thomas;
- Arkona, Christoph;
- Trenkner, Timo;
- Böttcher, Christoph;
- Ludwig, Kai;
- Hoelzemer, Angelique;
- Hocke, Andreas C.;
- Wolber, Gerhard;
- Rademann, Jörg
Publication type:
Article

Found: 6

Chemische Evolution antiviraler Wirkstoffe gegen Enterovirus D68 durch Proteintemplat‐gesteuerte Knoevenagelreaktionen.

A Critical Study on Acylating and Covalent Reversible Fragment Inhibitors of SARS‐CoV‐2 Main Protease Targeting the S1 Site with Pyridine.

Chemical Evolution of Antivirals Against Enterovirus D68 through Protein‐Templated Knoevenagel Reactions.

Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.

Author Correction: Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.

Targeted small molecule inhibitors blocking the cytolytic effects of pneumolysin and homologous toxins.