Add to ORKGAcinetobacter baylyi ADP1 is a gram-negative bacterium with the ability to uptake extracellular DNA and integrate it into its genome. While ADP1’s natural transformation has been studied with respect to homologous regions and DNA damage, the effect of nucleases on this ability is not known. Our hypothesis is that the transformation event is a race between integration and degradation or fragmentation of internalized DNA. By creating nuclease knockout strains we can characterize their impact on transformation frequency, and hopefully increase the viability of ADP1 as a model organism for large-scale genome engineering. Through studying the three knockout strains successfully created we have found no statistically significant change in transfo...
The process of natural transformation allows for the stable uptake, integration, and functional expr...
<div><p>Lambda Red recombineering is a powerful technique for making targeted genetic changes in bac...
International audienceRecently, we described a method for multiplex genome editing by natural transf...
We are investigating DNA damage response mechanisms in the Gram-negative bacterial genus, [i]Acineto...
The bacterium Acinetobacter baylyi ADP1 has been proposed as a next-generation chassis for genome en...
Acinetobacter baylyi ADP1 has the potential to be a versatile bacterial host for synthetic biology b...
Background Natural transformation enables acquisition of adaptive traits and drives ...
We have investigated to what extent natural transformation acting on free DNA substrates can facilit...
Genetic transformation is widely utilized in molecular biology as a tool for gene cloning in Escheri...
<div><p>We have investigated to what extent natural transformation acting on free DNA substrates can...
Natural transformation is the process by which cells take up DNA from the surrounding medium under p...
Acinetobacter baylyi ADP1 is a non-pathogenic soil bacterium known for its metabolic diversity and h...
Many bacteria use an inducible SOS response system to respond to DNA damage in which the umuDC opero...
Lambda Red recombineering is a powerful technique for making targeted genetic changes in bacteria. H...
Lambda Red recombineering is a powerful technique for making targeted genetic changes in bacteria. H...
The process of natural transformation allows for the stable uptake, integration, and functional expr...
<div><p>Lambda Red recombineering is a powerful technique for making targeted genetic changes in bac...
International audienceRecently, we described a method for multiplex genome editing by natural transf...
We are investigating DNA damage response mechanisms in the Gram-negative bacterial genus, [i]Acineto...
The bacterium Acinetobacter baylyi ADP1 has been proposed as a next-generation chassis for genome en...
Acinetobacter baylyi ADP1 has the potential to be a versatile bacterial host for synthetic biology b...
Background Natural transformation enables acquisition of adaptive traits and drives ...
We have investigated to what extent natural transformation acting on free DNA substrates can facilit...
Genetic transformation is widely utilized in molecular biology as a tool for gene cloning in Escheri...
<div><p>We have investigated to what extent natural transformation acting on free DNA substrates can...
Natural transformation is the process by which cells take up DNA from the surrounding medium under p...
Acinetobacter baylyi ADP1 is a non-pathogenic soil bacterium known for its metabolic diversity and h...
Many bacteria use an inducible SOS response system to respond to DNA damage in which the umuDC opero...
Lambda Red recombineering is a powerful technique for making targeted genetic changes in bacteria. H...
Lambda Red recombineering is a powerful technique for making targeted genetic changes in bacteria. H...
The process of natural transformation allows for the stable uptake, integration, and functional expr...
<div><p>Lambda Red recombineering is a powerful technique for making targeted genetic changes in bac...
International audienceRecently, we described a method for multiplex genome editing by natural transf...