[HTML][HTML] Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - pubmed.ncbi.nlm.nih.gov
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing.
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - search.ebscohost.com
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva, AM Smania… - Nature …, 2022 - orbit.dtu.dk
Rapid engineering of bacterial genomes is a requisite for both fundamental and applied
studies. Here the authors develop an enhanced, broad-host-range cytidine base editor that …
studies. Here the authors develop an enhanced, broad-host-range cytidine base editor that …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva, A Smania, PI Nikel - 2022 - ri.conicet.gov.ar
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - econpapers.repec.org
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing.
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - europepmc.org
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
[HTML][HTML] Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - ncbi.nlm.nih.gov
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - ui.adsabs.harvard.edu
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
Modular (de) construction of complex bacterial phenotypes by CRISPR/nCas9-assisted, multiplex cytidine base-editing
DC Volke, RA Martino, E Kozaeva… - Nature …, 2022 - ideas.repec.org
CRISPR/Cas technologies constitute a powerful tool for genome engineering, yet their use
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …
in non-traditional bacteria depends on host factors or exogenous recombinases, which limits …