Sequencing bacterial genomes allows scientists to study bacterial diversity, immunity, and the human microbiome, but it ...

CRISPR technology, driven by Cas9, redefines gene editing, facilitating targeted DNA modifications that advance genetic ...

The CRISPR-Cas gene scissors offer a wide range of potential applications, from the treatment of genetic diseases to antiviral therapies and diagnostics. However, to safely harness their powers, ...

Meet the jumbo phage. Scientists believe they’ve cracked the code on how its ‘secret handshakes’ act as a shield against the ...

Traditional diagnostic methods, such as bacterial culture and PCR-based testing, can take 24–72 hours, delaying critical ...

But bacteria are quick to evolve new defenses ... Bondy-Denomy's lab has already developed a CRISPR-based method to make the necessary genetic changes to this specific family of phage. Scientists can ...

Scientists are exploring gene editing as a way to correct trisomy at the cellular level. Using CRISPR-Cas9, researchers ...

Like recombinant DNA before it, gene editing has the potential to transform medicine, agriculture and more. CRISPR is now ...

Researchers at Umeå University have recently developed a highly sensitive method for detecting bacterial spores—tough ...

But bacteria are quick to evolve new defenses ... Bondy-Denomy’s lab has already developed a CRISPR-based method to make the necessary genetic changes to this specific family of phage.

But bacteria are quick to evolve new defenses ... Bondy-Denomy's lab has already developed a CRISPR-based method to make the necessary genetic changes to this specific family of phage.