Deep sequencing is a next generation sequencing (NSG) approach that can detect cells or microbes present in a very small concentrations in a sample. This technique used to sequence a piece of genetic material multiple times.
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To bring your cutting-edge cell and gene therapies to the patients that need them as quickly as possible, you need access to the most knowledgeable scientists, innovative technologies, metho...
Date: May 18, 2023 Time: 9:00am (PDT), 12:00pm (EDT), 6:00pm (CEST)...
Date: March 23, 2023 Time: 8:00am (PDT), 11:00am (EDT), 8:00pm (CEST) Across clinical oncology applications, from molecular testing to cancer research the ability to identify potentially act...
First Broadcast: Date: October 12, 2022 Time: 8:00am PDT, 11:00am EDT Second Broadcast: Date: October 12, 2022 Time: 9:00am SGT The new Embedded CryoSPARC Live, now fully integrated with t...
Date: August 10, 2022 Time: 10:00am PDT, 1:00pm EDT The global pandemic has increased focus and scrutiny on molecular diagnostic assay development, resulting in a need for assays that provid...
Date: May 11, 2022 Time: 12:00pm (PDT), 3:00pm (EDT), 9:00pm (CEST) In this presentation, Dr. Courtney Miller and Daniel Rodrigues Oliveira, M.S. will describe the efforts of the California...
Up until now, Big Data in healthcare has failed to drive any real progress in curing disease. However, we have just now reached a cost and throughput threshold in sequencing and bioinformati...
High-throughput sequencing technology such as RNASeq and whole genome sequencing has enabled deep characterization of health and disease states. Biomarker discovery by these means has only h...
Date: November 4, 2021 Time: 11:00am (PDT), 1:00pm (EDT) Rapid, reliable, and accurate identification of an infective organisms has a profound impact on treatment management and clinical out...
SARS-CoV-2 is an emergent virus. Specifically how it will adapt to human hosts and populations with growing immunity is unknown. Coronaviruses acquire substitutions more slowly than other RN...
Research focused on SARS-CoV-2 has become a primary focus in genomic and molecular biology fields. With a constantly changing field with new methods for screening and studying virus-host int...
Learning Objectives: 1. CRISPR-Cas systems are naturally repurposes for non-canonical functions other than cleaving RNA and DNA 2. CRISPR RNA-guided transposases integrate donor DNA without...