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Jan Borggräfe

Showing results (1-10 of 12) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|February 28, 2022
Solution NMR Spectroscopy as a Tool to Study DNAzyme Structure and FunctionJan Borggräfe, Manuel Etzkorn
Nature Communications|June 17, 2024
The dynamic world of the 8-17 DNAzymeJessica Felice Schmuck, Jan Borggräfe, Manuel Etzkorn
The FEBS Journal|December 8, 2022
The architecture of the 10-23 DNAzyme and its implications for DNA-mediated catalysisJan Borggräfe, Christoph G W Gertzen, Aldino Viegas, et al.
Journal of Structural Biology|February 20, 2020
Expanding crystallization tools for nucleic acid complexes using U1A protein variantsHannah Rosenbach, Julian Victor, Jan Borggräfe, et al.
Biological Chemistry|February 5, 2021
Influence of monovalent metal ions on metal binding and catalytic activity of the 10-23 DNAzymeHannah Rosenbach, Jan Borggräfe, Julian Victor, et al.
Structure (London, England : 1993)|November 30, 2019
Molecular Architecture of a Network of Potential Intracellular EGFR Modulators: ARNO, CaM, Phospholipids, and the Juxtamembrane SegmentAldino Viegas, Dongsheng M Yin, Jan Borggräfe, et al.
RSC Medicinal Chemistry|March 12, 2025
Site-specific molecular glues for the 14-3-3/Tau pS214 protein-protein interaction <i>via</i> reversible covalent imine tetheringAnsgar Oberheide, Maxime C M van den Oetelaar, Jakob J A Scheele, et al.
Nature|June 28, 2023
Phase separation of FSP1 promotes ferroptosisToshitaka Nakamura, Clara Hipp, André Santos Dias Mourão, et al.
Nature|December 24, 2021
Time-resolved structural analysis of an RNA-cleaving DNA catalystJan Borggräfe, Julian Victor, Hannah Rosenbach, et al.
Journal of Medicinal Chemistry|December 1, 2023
Discovery of Inhibitory Fragments That Selectively Target Spire2-FMN2 InteractionRadoslaw Kitel, Ewa Surmiak, Jan Borggräfe, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Methods in Molecular Biology (Clifton, N.J.)|February 28, 2022
Solution NMR Spectroscopy as a Tool to Study DNAzyme Structure and FunctionJan Borggräfe, Manuel Etzkorn
Nature Communications|June 17, 2024
The dynamic world of the 8-17 DNAzymeJessica Felice Schmuck, Jan Borggräfe, Manuel Etzkorn
The FEBS Journal|December 8, 2022
The architecture of the 10-23 DNAzyme and its implications for DNA-mediated catalysisJan Borggräfe, Christoph G W Gertzen, Aldino Viegas, et al.
Journal of Structural Biology|February 20, 2020
Expanding crystallization tools for nucleic acid complexes using U1A protein variantsHannah Rosenbach, Julian Victor, Jan Borggräfe, et al.
Biological Chemistry|February 5, 2021
Influence of monovalent metal ions on metal binding and catalytic activity of the 10-23 DNAzymeHannah Rosenbach, Jan Borggräfe, Julian Victor, et al.
Structure (London, England : 1993)|November 30, 2019
Molecular Architecture of a Network of Potential Intracellular EGFR Modulators: ARNO, CaM, Phospholipids, and the Juxtamembrane SegmentAldino Viegas, Dongsheng M Yin, Jan Borggräfe, et al.
RSC Medicinal Chemistry|March 12, 2025
Site-specific molecular glues for the 14-3-3/Tau pS214 protein-protein interaction <i>via</i> reversible covalent imine tetheringAnsgar Oberheide, Maxime C M van den Oetelaar, Jakob J A Scheele, et al.
Nature|June 28, 2023
Phase separation of FSP1 promotes ferroptosisToshitaka Nakamura, Clara Hipp, André Santos Dias Mourão, et al.
Nature|December 24, 2021
Time-resolved structural analysis of an RNA-cleaving DNA catalystJan Borggräfe, Julian Victor, Hannah Rosenbach, et al.
Journal of Medicinal Chemistry|December 1, 2023
Discovery of Inhibitory Fragments That Selectively Target Spire2-FMN2 InteractionRadoslaw Kitel, Ewa Surmiak, Jan Borggräfe, et al.
Pageof 2