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...
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...
Genome Engineering allows the easy manipulation of genomes down to the nucleotide level. CRISPR is a revolutionizing tool for generating custom edited cell and pre-clinical animal models for...