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

This illustration demonstrates how metapipeline-DNA processes raw genome sequencing data. It begins by aligning the sequence of DNA base pairs to a reference genome. Then produces sets of detected ...

The first human genome sequencing took 13 years and cost $3 billion. It can now be done in a matter of days, but drawing meaningful conclusions from millions of points of data is cumbersome. However, ...

A Ph.D. student in biomolecular engineering at the University of California, Santa Cruz, has built a software program designed to facilitate the kind of precision genome editing involved in the ...

SANTA CRUZ — A Ph.D. graduate student in biomolecular engineering at UC Santa Cruz, with a background in computer science and mathematics, has created an innovative software program called CRISPRware, ...

Metagenomics relies on the use of software programs called assemblers, which can reconstruct tens of thousands of individual microbial genomes from DNA sequencing of samples such as soil, bodily ...

In 1997, Sanger, Nicklen and Coulson described a method for determining DNA nucleotide sequences. 1 Nearly five decades later, Sanger sequencing remains an entrenched technology for targeted ...

Bionano has entered into a software marketing agreement with Revvity, Inc. (Revvity) under which Revvity will market and commercialize Bionano’s VIA™ software to Revvity’s next generation sequencing ...

New genetic research suggests Homo sapiens evolved from multiple interconnected African populations, replacing the single-origin model. Advances in sequencing accuracy and software such as nanoMDBG ...