The ability to precisely edit the genomes of bacteria has long been a goal of microbiologists. Such technology would enable ...

Research into human genomic diversity has a number of applications in biomedicine, evolution, and history. However, many ...

This guidance emphasises the potential of NGS methods in mitigating safety risks associated with therapies incorporating ...

An international team has completed gap-free genome sequences for six peanut varieties, identifying genes tied to seed size and oil content. This breakthrough could accelerate breeding of more ...

Hepatocellular carcinoma (HCC) is a leading cause of cancer-related death globally, with incidence continuing to rise in many regions. Despite advances in ...

Researchers led by Gladstone Institutes have successfully adapted a retron-based genome editing system, previously limited to E. coli, to work in 14 additional bacterial species. This breakthrough ...

A research team has uncovered the genomic basis behind why some vine tea varieties accumulate far more dihydromyricetin than others.

The promise of genome editing to help understand human diseases and create new therapies is vast, but technological limitations have limited advancement of the field. While existing editing ...

Explore the decades-long journey to map the full human genome, from early breakthroughs to the first complete, gapless DNA ...

In this webinar, Sophie Kirschner will discuss how integrated DNA methylation and hydroxymethylation analysis improves liquid ...

Clinical genome sequencing now delivers genetic diagnoses for about 1 in 4 suspected rare disease patients, guiding targeted ...