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Katharina G Wandera

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Methods in Molecular Biology (Clifton, N.J.)|October 25, 2021
Rapidly Characterizing CRISPR-Cas13 Nucleases Using Cell-Free Transcription-Translation SystemsKatharina G Wandera, Chase L Beisel
Cell Host & Microbe|June 11, 2022
A target expression threshold dictates invader defense and prevents autoimmunity by CRISPR-Cas13Elena Vialetto, Yanying Yu, Scott P Collins, et al.
Methods (San Diego, Calif.)|May 24, 2019
An enhanced assay to characterize anti-CRISPR proteins using a cell-free transcription-translation systemKatharina G Wandera, Scott P Collins, Franziska Wimmer, et al.
The CRISPR Journal|May 28, 2025
CRISPR2025 New Zealand: Innovation and CollaborationKatharina G Wandera, Jeremy Dubrulle, Russell Greene, et al.
Nucleic Acids Research|November 28, 2023
Interrogating two extensively self-targeting Type I CRISPR-Cas systems in Xanthomonas albilineans reveals distinct anti-CRISPR proteins that block DNA degradationFranziska Wimmer, Frank Englert, Katharina G Wandera, et al.
Molecular Cell|February 18, 2025
AcrVIB1 inhibits CRISPR-Cas13b immunity by promoting unproductive crRNA binding accessible to RNase attackKatharina G Wandera, Stefan Schmelz, Angela Migur, et al.
Molecular Cell|June 1, 2022
Anti-CRISPR prediction using deep learning reveals an inhibitor of Cas13b nucleasesKatharina G Wandera, Omer S Alkhnbashi, Harris V I Bassett, et al.
Nature|January 4, 2023
Cas12a2 elicits abortive infection through RNA-triggered destruction of dsDNAOleg Dmytrenko, Gina C Neumann, Thomson Hallmark, et al.
Cell Host & Microbe|June 27, 2025
Phage arabinosyl-hydroxy-cytosine DNA modifications result in distinct evasion and sensitivity responses to phage defense systemsMarina Mahler, Liang Cui, Leah M Smith, et al.
Cell Host & Microbe|May 16, 2024
Type IV-A3 CRISPR-Cas systems drive inter-plasmid conflicts by acquiring spacers in transFabienne Benz, Sarah Camara-Wilpert, Jakob Russel, et al.
Pageof 1

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

Sort By:
Pageof 1
Methods in Molecular Biology (Clifton, N.J.)|October 25, 2021
Rapidly Characterizing CRISPR-Cas13 Nucleases Using Cell-Free Transcription-Translation SystemsKatharina G Wandera, Chase L Beisel
Cell Host & Microbe|June 11, 2022
A target expression threshold dictates invader defense and prevents autoimmunity by CRISPR-Cas13Elena Vialetto, Yanying Yu, Scott P Collins, et al.
Methods (San Diego, Calif.)|May 24, 2019
An enhanced assay to characterize anti-CRISPR proteins using a cell-free transcription-translation systemKatharina G Wandera, Scott P Collins, Franziska Wimmer, et al.
The CRISPR Journal|May 28, 2025
CRISPR2025 New Zealand: Innovation and CollaborationKatharina G Wandera, Jeremy Dubrulle, Russell Greene, et al.
Nucleic Acids Research|November 28, 2023
Interrogating two extensively self-targeting Type I CRISPR-Cas systems in Xanthomonas albilineans reveals distinct anti-CRISPR proteins that block DNA degradationFranziska Wimmer, Frank Englert, Katharina G Wandera, et al.
Molecular Cell|February 18, 2025
AcrVIB1 inhibits CRISPR-Cas13b immunity by promoting unproductive crRNA binding accessible to RNase attackKatharina G Wandera, Stefan Schmelz, Angela Migur, et al.
Molecular Cell|June 1, 2022
Anti-CRISPR prediction using deep learning reveals an inhibitor of Cas13b nucleasesKatharina G Wandera, Omer S Alkhnbashi, Harris V I Bassett, et al.
Nature|January 4, 2023
Cas12a2 elicits abortive infection through RNA-triggered destruction of dsDNAOleg Dmytrenko, Gina C Neumann, Thomson Hallmark, et al.
Cell Host & Microbe|June 27, 2025
Phage arabinosyl-hydroxy-cytosine DNA modifications result in distinct evasion and sensitivity responses to phage defense systemsMarina Mahler, Liang Cui, Leah M Smith, et al.
Cell Host & Microbe|May 16, 2024
Type IV-A3 CRISPR-Cas systems drive inter-plasmid conflicts by acquiring spacers in transFabienne Benz, Sarah Camara-Wilpert, Jakob Russel, et al.
Pageof 1