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Linked-Reads provide long-range information enabling structural variant detection and phasing of genome and exome sequencing data.  In our third 10x-pert Workshop session, our R&D 10x-perts provided an overview of the Loupe™ Genome Browser for structural variant detection and took closer look at visualizing simple structural variants and deriving complex events.
High quality high molecular weight (HMW) DNA is key to getting the most out of Linked-Read data. In a recent 10x-pert Workshop session, our R&D 10x-pert discussed general tips and best practices for isolating HMW DNA and took a closer look at two of our demonstrated protocols for HMW DNA isolation from fresh frozen tissues and DNA size selection.
Have you ever wondered how to best prepare your samples or how much sequencing you need to achieve the highest quality Linked-Read data? We recently published a Bench Tips article with Biocompare, where we highlight important tips to make the most of our Linked-Read technology for long-range genomic analysis.
The Chromium™ Genome and Exome Solutions use Linked-Reads to provide long range information from short read sequencers, giving you the power to detect complex SVs.
Linked-Reads provide the long range information missing from standard short read sequencing approaches, enabling reconstruction of long range haplotypes, detection of complex structural variants and the ability to perform de novo genome assembly.