Tired of multi-stage genotyping workflows that slow down your sequencing projects? This high-throughput, one-step genotyping by sequencing method delivers accurate, reproducible data across species ...

This important study, which tackles the challenge of analyzing genome integrity and instability in unicellular pathogens by introducing a novel single-cell genomics approach, presents compelling ...

Key opportunities lie in next-generation sequencing methods, with hospitals as major end-users and North America as a ...

For the first time ever, DNA was successfully sequenced in microgravity as part of the Biomolecule Sequencer experiment performed by NASA astronaut Kate Rubins this weekend aboard the International ...

The landscape of next-generation sequencing (NGS) continues to be defined by astonishing technological progress. We continue ...

Long-read sequencing is being harnessed to improve the rate of rare disease diagnosis. Researchers at the University of California Santa Cruz (CA, USA) have demonstrated that long-read sequencing (LRS ...

The human gut microbiome is complex and diverse, with significant implications for health and disease. The study develops smRandom-seq2, a droplet-based method that overcomes the limitations of ...

Whether you’re interested in why a living system works as it does or the reasons it goes awry, proteins are a critical part of the molecular picture. The proteins circulating in a person’s plasma can ...

Next-generation sequencing (NGS) has moved away from expensive runs and complicated workflows into a new era where benchtop instruments prioritize sustainability, accessibility, accuracy, and speed.

Cornell researchers have found that a new DNA sequencing technology can be used to study how transposons move within and bind to the genome. Transposons play critical roles in immune response, ...