While live cell imaging offers advantages over traditional static imaging, this approach has been challenging for studying microbes due to the difficulty in tracking very small cells in a si...
Epidemics are occurring at an increasing pace and scale. Our laboratory group has developed platform technologies for discovery of broad and potent neutralizing antibodies for many emerging...
HIV currently infects almost 40 million people worldwide. The virus is responsible for ~2 million new infections per year and ~1 million deaths. Like all retroviruses, HIV integrates a viral...
Human chromosome 19q13.4 contains genes encoding killer-cell immunoglobulin-like receptors (KIR). The region has certain properties such as single nucleotide variation, structural variation,...
The regions of our genome responsible for encoding the genes that regulate our immune response are some of the most complex and polymorphic known. This complexity encompasses multiple types...
Over the past five years there has been an explosion of research the deep learning field. Companies like Google, Facebook, and OpenAI have created neural networks that are significantly more...
Influenza infections are initiated by just a handful of virions infecting a handful of cells, so it is important to understand what happens in single infected cells. I will describe work tha...
Date: September 4, 2020 Time: 8:00am (PTD), 11:00am (ETD) Direct detection of viral RNA in human or other animal cells by RNA in situ hybridization (ISH) is a powerful tool to establish the...
DATE: September 1, 2020 TIME: 8:00am PT, 11:00am ET Nearly half of all cancer patients are eligible to receive treatment with immune checkpoint inhibitors (ICI). Thus, preventing, identifyin...
DATE: August 18, 2020 TIME: 10:00am PT Get deeper understanding of gene expression patterns by using assays that retain spatial organization at single cell resolution! Come learn about the n...
Current cancer management follows a multipronged approach that include surgery, radiation, and chemotherapy. There is a pressing need for a platform technology to provide precision chemother...
Current cancer management follows a multipronged approach that include surgery, radiation, and chemotherapy. There is a pressing need for a platform technology to provide precision chemother...
Immune escape mechanisms such as the induction/recruitment of immunosuppressive cells and the increased expression of various immunosuppressive molecules including PD-1/PD-1 ligands are esse...
Genetic diseases are known occur due to various types of mutations in the human genome. The molecular assays to diagnose these diseases have been developed based on the type of mutation comm...
Learn about how the new Ion Torrent Genexus System is addressing key challenges to next-generation sequencing (NGS) implementation, like hands-on time, time-to-result, user expertise, and af...
In his 2018 TED talk “How to build synthetic DNA and send it across the internet,” Dr. Dan Gibson highlighted a unique synthetic biology approach for fighting pandemics such as S...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
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...
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...
Precision medicine is the paradigm to develop treatments for patients based on molecular-targets that are effective in vivo when administered. In addition to identifying the molecular and ce...
If you have ever worked in the field of gene-editing, then you must know the powerful gene-editing technology known as CRISPR. It has the potential to alter science and biotechnology at an i...
Techniques to analyze and sort single cells based on secreted products have the potential to transform our understanding of cellular biology as well as accelerate the development of next gen...
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...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
While live cell imaging offers advantages over traditional static imaging, this approach has been challenging for studying microbes due to the difficulty in tracking very small cells in a si...
Epidemics are occurring at an increasing pace and scale. Our laboratory group has developed platform technologies for discovery of broad and potent neutralizing antibodies for many emerging...
HIV currently infects almost 40 million people worldwide. The virus is responsible for ~2 million new infections per year and ~1 million deaths. Like all retroviruses, HIV integrates a viral...
Human chromosome 19q13.4 contains genes encoding killer-cell immunoglobulin-like receptors (KIR). The region has certain properties such as single nucleotide variation, structural variation,...
The regions of our genome responsible for encoding the genes that regulate our immune response are some of the most complex and polymorphic known. This complexity encompasses multiple types...
Over the past five years there has been an explosion of research the deep learning field. Companies like Google, Facebook, and OpenAI have created neural networks that are significantly more...
Influenza infections are initiated by just a handful of virions infecting a handful of cells, so it is important to understand what happens in single infected cells. I will describe work tha...
Date: September 4, 2020 Time: 8:00am (PTD), 11:00am (ETD) Direct detection of viral RNA in human or other animal cells by RNA in situ hybridization (ISH) is a powerful tool to establish the...
DATE: September 1, 2020 TIME: 8:00am PT, 11:00am ET Nearly half of all cancer patients are eligible to receive treatment with immune checkpoint inhibitors (ICI). Thus, preventing, identifyin...
DATE: August 18, 2020 TIME: 10:00am PT Get deeper understanding of gene expression patterns by using assays that retain spatial organization at single cell resolution! Come learn about the n...
Current cancer management follows a multipronged approach that include surgery, radiation, and chemotherapy. There is a pressing need for a platform technology to provide precision chemother...
Current cancer management follows a multipronged approach that include surgery, radiation, and chemotherapy. There is a pressing need for a platform technology to provide precision chemother...
Immune escape mechanisms such as the induction/recruitment of immunosuppressive cells and the increased expression of various immunosuppressive molecules including PD-1/PD-1 ligands are esse...
Genetic diseases are known occur due to various types of mutations in the human genome. The molecular assays to diagnose these diseases have been developed based on the type of mutation comm...
Learn about how the new Ion Torrent Genexus System is addressing key challenges to next-generation sequencing (NGS) implementation, like hands-on time, time-to-result, user expertise, and af...
In his 2018 TED talk “How to build synthetic DNA and send it across the internet,” Dr. Dan Gibson highlighted a unique synthetic biology approach for fighting pandemics such as S...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
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...
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...
Precision medicine is the paradigm to develop treatments for patients based on molecular-targets that are effective in vivo when administered. In addition to identifying the molecular and ce...
If you have ever worked in the field of gene-editing, then you must know the powerful gene-editing technology known as CRISPR. It has the potential to alter science and biotechnology at an i...
Techniques to analyze and sort single cells based on secreted products have the potential to transform our understanding of cellular biology as well as accelerate the development of next gen...
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...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
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