Transcriptomics: is the study of the transcriptome-the complete set of RNA transcripts that are produced by the genome, under specific circumstances or in a specific cell-using high-throughput methods, such as microarray analysis.
DATE: September 2, 2020 TIME: 03:00pm PDT, 6:00pm EDT Spatial omics is an expanding collection of methods to examine biological molecules in their geographical context. By retaining the prec...
The need for high-throughput laboratory testing to identify SARS-CoV-2 infected individuals has reached nearly unprecedented levels. This demand has also led to supply chain issues that have...
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, whi...
Recent advances in high-throughput single-cell transcriptomics and epigenomics methods allow to measure the expression of thousands of genes and identify the gene transcriptional regulation...
DATE: May 28, 2020 TIME: 10:00am PT, 1:00pm ET Cardiac allograft rejection is a serious concern in transplant medicine, conferring an increased risk of acute graft failure and adverse patient...
Many questions at the forefront of biology depend on the interactions of millions of single cells. My lab develops technologies for studying large numbers of single cells. In this talk, I wi...
The basic units of biological structure and function are cells, which exhibit wide variation in regard to both type and state. We assess such variation by simultaneously profiling the transc...
While many technologies focus on either exploring the spatial context of a handful of targets, or expression patterns of hundreds or thousands of targets in bulk samples or dissociated singl...
The GeoMx Digital Spatial Profiling technology enables high-plex RNA and protein profiling of any region within any tissue type. This workshop will highlight the latest developments toward e...
Date: April 29, 2020 Time: 8:00AM PDT, 11:00AM EDT Single cell genomics and other next generation sequencing applications depend strongly on adequate upstream sample preparation. Results can...
Learning Objectives: 1. What is wrong with healthcare today 2. What kinds of omics and wearables data can be used to best predict disease risk and manage health...
Single-cell RNA sequencing has emerged as an important technology that can reveal gene expression differences between different cell types. This webinar will demonstrate how bioinformatics s...
Triple-negative breast cancer (TNBC) is an aggressive disease that accounts for 10-20% of all breast cancer cases diagnosed annually in the U.S.1. Despite its prevalence, TNBC remains resist...
Single cell RNA sequencing (scRNA-seq) emerged to characterize gene expression differences between individual cells, allowing a higher resolution look at mRNA abundance than bulk RNA- seq. H...
Since the introduction of single cell sequencing techniques to the genomics community, interest in its use has grown exponentially and the number of single cell publications has exploded. Th...
DATE: April 2, 2020 TIME: 8:00am PT, 11:00am ET Cyclins A2 and E1 regulate the cell cycle by promoting S phase entry and progression. We recently identified a hepatocellular carcinoma (HCC)...
Household produce varieties such as ‘Red Delicious,’ ‘Campari,’ and ‘Earlidew’ have been selectively bred and have been enhanced for flavor since the 1990...
The neural basis of simple rhythmic and reflexive behaviors such as swimming and gill withdrawal have been successfully studied in nudibranchs and other gastropod molluscs because the brains...
Since the establishment of reverse genetics techniques to manipulate the influenza virus genome, it has been possible to study viral molecular signatures responsible for virulence, and the ge...
DATE: October 30, 2019TIME: 7:00am PDTJoin us for a webinar to learn how to apply single cell methods to study cancer. Dr. William Greenleaf, Associate Professor from Stanford Universit...
DATE: September 2, 2020 TIME: 03:00pm PDT, 6:00pm EDT Spatial omics is an expanding collection of methods to examine biological molecules in their geographical context. By retaining the prec...
The need for high-throughput laboratory testing to identify SARS-CoV-2 infected individuals has reached nearly unprecedented levels. This demand has also led to supply chain issues that have...
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, whi...
Recent advances in high-throughput single-cell transcriptomics and epigenomics methods allow to measure the expression of thousands of genes and identify the gene transcriptional regulation...
DATE: May 28, 2020 TIME: 10:00am PT, 1:00pm ET Cardiac allograft rejection is a serious concern in transplant medicine, conferring an increased risk of acute graft failure and adverse patient...
Many questions at the forefront of biology depend on the interactions of millions of single cells. My lab develops technologies for studying large numbers of single cells. In this talk, I wi...
The basic units of biological structure and function are cells, which exhibit wide variation in regard to both type and state. We assess such variation by simultaneously profiling the transc...
While many technologies focus on either exploring the spatial context of a handful of targets, or expression patterns of hundreds or thousands of targets in bulk samples or dissociated singl...
The GeoMx Digital Spatial Profiling technology enables high-plex RNA and protein profiling of any region within any tissue type. This workshop will highlight the latest developments toward e...
Date: April 29, 2020 Time: 8:00AM PDT, 11:00AM EDT Single cell genomics and other next generation sequencing applications depend strongly on adequate upstream sample preparation. Results can...
Learning Objectives: 1. What is wrong with healthcare today 2. What kinds of omics and wearables data can be used to best predict disease risk and manage health...
Single-cell RNA sequencing has emerged as an important technology that can reveal gene expression differences between different cell types. This webinar will demonstrate how bioinformatics s...
Triple-negative breast cancer (TNBC) is an aggressive disease that accounts for 10-20% of all breast cancer cases diagnosed annually in the U.S.1. Despite its prevalence, TNBC remains resist...
Single cell RNA sequencing (scRNA-seq) emerged to characterize gene expression differences between individual cells, allowing a higher resolution look at mRNA abundance than bulk RNA- seq. H...
Since the introduction of single cell sequencing techniques to the genomics community, interest in its use has grown exponentially and the number of single cell publications has exploded. Th...
DATE: April 2, 2020 TIME: 8:00am PT, 11:00am ET Cyclins A2 and E1 regulate the cell cycle by promoting S phase entry and progression. We recently identified a hepatocellular carcinoma (HCC)...
Household produce varieties such as ‘Red Delicious,’ ‘Campari,’ and ‘Earlidew’ have been selectively bred and have been enhanced for flavor since the 1990...
The neural basis of simple rhythmic and reflexive behaviors such as swimming and gill withdrawal have been successfully studied in nudibranchs and other gastropod molluscs because the brains...
Since the establishment of reverse genetics techniques to manipulate the influenza virus genome, it has been possible to study viral molecular signatures responsible for virulence, and the ge...
DATE: October 30, 2019TIME: 7:00am PDTJoin us for a webinar to learn how to apply single cell methods to study cancer. Dr. William Greenleaf, Associate Professor from Stanford Universit...
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