Researchers identified AlCas12a, a compact, versatile enzyme that improves CRISPR gene editing and enables faster molecular ...

AI‑driven protein design creates potent anti‑CRISPR inhibitors that block Cas13 activity, offering a new potential tool for safer, more controlled gene editing.

The discovery of CRISPR-Cas gene editing technology has revolutionized biological research, providing new insights and opportunities for the advancement of several industries. However, the ...

The CRISPR/Cas system, known for gene editing, is now revolutionizing molecular diagnostics due to its high specificity and efficiency in recognizing and cleaving target sequences. Cas9, Cas12, and ...

Scientists have revealed how Fanzor2's divergence from bacterial ancestors may make it a useful tool for future genomic engineering endeavors. A revolution in biomedicine is currently underway, driven ...

The emergence of advanced genome editing technologies has revolutionized research in life sciences, offering an unprecedented way to uncover unknown biological functions and innovative therapeutic ...

CRISPR-based technologies have taken the world by storm thanks to the technique’s ability to edit nucleic acids. Today, researchers are not only working to understand how to better harness the ...

Researchers in Basel have created SEED/Harvest, a new CRISPR-based technique that tags proteins without leaving any genetic “scars.” By blending two powerful methods, it allows scientists to study ...

The clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated proteins (Cas) system is a bacterial defense mechanism that uses RNA-guided enzymes to cut specific sequences ...

CRISPR, or Clustered Regularly Interspaced Short Palindromic Repeats, is an advanced technology developed in 2012 that can be used to edit genes. It can be used to find specific DNA sequences inside ...