High-throughput sequencing relies on mechanical and enzymatic techniques to break apart DNA into fragments in a consistent and reliable manner. However, traditional approaches tend to favor DNA ...

MIT researchers have built an AI language model that learns the internal coding patterns of a yeast species widely used to manufacture protein-based drugs, then rewrites gene sequences to push protein ...

New innovations designed to simplify NGS workflows Enhances critical variant identification through improved ...

Saliva can provide researchers with a source of high-quality human genomic DNA. Although blood is commonly employed for this purpose, saliva offers several advantages. It is more readily accessible, ...

Roche has put forward a new approach to genetic analysis, which it describes as sequencing-by-expansion—a proprietary method that pulls apart the DNA molecule and amplifies the signal of each ...

In a way, sequencing DNA is very simple: There's a molecule, you look at it, and you write down what you find. You'd think it would be easy—and, for any one letter in the sequence, it is. The problem ...

Industrial yeasts are a powerhouse of protein production, used to manufacture vaccines, biopharmaceuticals, and other useful ...

Although it is an important technology for studying genomes, DNA sequencing was initially accomplished in 1977 by Frederick Sanger. Since its conception, the technology has developed rapidly. Alvaro G ...

The first resource containing high-resolution DNA sequencing data for over 37,000 children and parents collected over multiple decades from across the UK is now available to researchers worldwide. The ...