The prokaryote-derived CRISPR–Cas genome editing systems have transformed our ability
to manipulate, detect, image and annotate specific DNA and RNA sequences in living cells …

Clustered regularly interspersed short pallindromic repeats (CRISPR) and CRISPR
associated proteins (Cas) system (CRISPR-Cas) came into light as prokaryotic defence …

Quantitative measurements of biomolecule associations are central to biological
understanding and are needed to build and test predictive and mechanistic models. Given …

Antibiotic treatments have detrimental effects on the microbiome and lead to antibiotic
resistance. To develop a phage therapy against a diverse range of clinically relevant …

Bacteria and archaea possess a range of defense mechanisms to combat plasmids and viral
infections. Unique among these are the CRISPR-Cas (clustered regularly interspaced short …

Prokaryotic organisms are threatened by a large array of viruses and have developed
numerous defence strategies. Among these, only clustered, regularly interspaced short …

Prokaryotes have evolved several defence mechanisms to protect themselves from viral
predators. Clustered regularly interspaced short palindromic repeats (CRISPR) and their …

As befits an immune mechanism, CRISPR-Cas systems are highly variable with respect to
Cas protein sequences, gene composition, and organization of the genomic loci. Optimal …

Prokaryotes have developed numerous defense strategies to combat the constant threat
posed by the diverse genetic parasites that endanger them. Clustered regularly interspaced …

CRISPR–Cas technologies have enabled programmable gene editing in eukaryotes and
prokaryotes. However, the leading Cas9 and Cas12a enzymes are limited in their ability to …