Cell Line Development: Stable cell lines are widely used in a number of important applications including biologics (e.g. recombinant protein and monoclonal antibody) production, drug screening, and gene functional studies. The process of developing stable cell lines often starts with transfecting selected host cells, typically CHO or HEK 293 cells, with desired plasmids. After transfection, researchers then screen and quantify high-expressing clones. Once these high producers are identified, the cell lines and/or the proteins produced by the cells are validated. The manual screening methods traditionally used for cell line development are time-consuming and labor-intensive, creating a great demand for high-throughput, automated solutions for such efforts.
In order to expand the treatment options of cancers driven by oncogenic RAS, new cell surface targets need to be identified and characterized. Here, we describe mass spectrometry based phenot...
We developed two computational methods, CARE and TIDE, to predict response and resistance to targeted therapies and immunotherapies. CARE infers gene signatures of targeted therapy response b...
Recent advances in flow and mass cytometry have greatly expanded the number of immune cell parameters that can be interrogated, resulting in an improved understanding of the immune system het...
The “R2G2” (B6;129-Rag2tm1FwaIL2rgtm1Rsky/DwlHsd) knockout mouse is the latest advancement to provide an alternative option in the highly immunodeficient mouse model category for...
DATE: October 11, 2017TIME: 08:30am PDT, 10:30am CDTSince 1993, Gibco™ B-27™ Supplement and Neurobasal™ Medium has been the trusted standard for a variety of neuronal...
The first small molecule inhibitor of the molecular chaperone Heat Shock Protein 90 (HSP90) was identified more than 20 years ago. Upon determination of the drug binding site and clarificatio...
There has been a great deal of renewed attention in immuno-oncology over the last decade. Therapies for cancer are being developed, approved, and administered that can either initiate,...
DATE: October 10, 2017TIME: 9:00AM PDTPatient-derived xenografts (PDX) are increasingly being used in biomedical research for therapeutic analysis in mice. Unlike traditional cell line...
DATE: October 5th, 2017TIME: 6:00am PT, 9:00am ETIn this webinar you will learn: that temperature variations in your lab and detection instrument will distort your results...
Traditional high throughput screening (HTS) assays for neuronal targets employ non-human primary neuronal cells due to the scale necessary for HTS. Isolation of mouse primary neurons can be u...
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
DATE: September 28, 2017TIME: 10:00am PDT, 1:00pm EDT The use of gene therapy is well studied due to its potential to treat cancer, the second leading cause of death worldwide....
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Checkpoint blockade therapy for cancer has had tremendous impact on clinical outcomes, yet only a subset of patients respond. Recent studies show that response to checkpoint blockade does not...
To study cell metabolism, our laboratory has found it exceedingly informative to integrate Agilent Seahorse XF Analyzers with mass spectrometry-based measurements of metabolomics and stable i...
Einstein researcher Robert Singer, Ph.D., discusses a breakthrough in microscopy that is allowing scientists to track messenger RNA in living cells in real time. The study, published in the S...
A fundamental question in neuronal development is how growth cone cytoskeletal dynamics are coordinated to promote accurate axonal navigation. To address this question, we focus on microtubul...
DATE: September 19, 2017TIME: 10:30am PDT/ 1:30pm EDT/ 7:30pm CESTPart 1 – Cigall Kadoch, Ph.D. (30 min.)Exome- and genome-wide sequencing studies in human cancer have...
In order to expand the treatment options of cancers driven by oncogenic RAS, new cell surface targets need to be identified and characterized. Here, we describe mass spectrometry based phenot...
We developed two computational methods, CARE and TIDE, to predict response and resistance to targeted therapies and immunotherapies. CARE infers gene signatures of targeted therapy response b...
Recent advances in flow and mass cytometry have greatly expanded the number of immune cell parameters that can be interrogated, resulting in an improved understanding of the immune system het...
The “R2G2” (B6;129-Rag2tm1FwaIL2rgtm1Rsky/DwlHsd) knockout mouse is the latest advancement to provide an alternative option in the highly immunodeficient mouse model category for...
DATE: October 11, 2017TIME: 08:30am PDT, 10:30am CDTSince 1993, Gibco™ B-27™ Supplement and Neurobasal™ Medium has been the trusted standard for a variety of neuronal...
The first small molecule inhibitor of the molecular chaperone Heat Shock Protein 90 (HSP90) was identified more than 20 years ago. Upon determination of the drug binding site and clarificatio...
There has been a great deal of renewed attention in immuno-oncology over the last decade. Therapies for cancer are being developed, approved, and administered that can either initiate,...
DATE: October 10, 2017TIME: 9:00AM PDTPatient-derived xenografts (PDX) are increasingly being used in biomedical research for therapeutic analysis in mice. Unlike traditional cell line...
DATE: October 5th, 2017TIME: 6:00am PT, 9:00am ETIn this webinar you will learn: that temperature variations in your lab and detection instrument will distort your results...
Traditional high throughput screening (HTS) assays for neuronal targets employ non-human primary neuronal cells due to the scale necessary for HTS. Isolation of mouse primary neurons can be u...
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
DATE: September 28, 2017TIME: 10:00am PDT, 1:00pm EDT The use of gene therapy is well studied due to its potential to treat cancer, the second leading cause of death worldwide....
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Checkpoint blockade therapy for cancer has had tremendous impact on clinical outcomes, yet only a subset of patients respond. Recent studies show that response to checkpoint blockade does not...
To study cell metabolism, our laboratory has found it exceedingly informative to integrate Agilent Seahorse XF Analyzers with mass spectrometry-based measurements of metabolomics and stable i...
Einstein researcher Robert Singer, Ph.D., discusses a breakthrough in microscopy that is allowing scientists to track messenger RNA in living cells in real time. The study, published in the S...
A fundamental question in neuronal development is how growth cone cytoskeletal dynamics are coordinated to promote accurate axonal navigation. To address this question, we focus on microtubul...
DATE: September 19, 2017TIME: 10:30am PDT/ 1:30pm EDT/ 7:30pm CESTPart 1 – Cigall Kadoch, Ph.D. (30 min.)Exome- and genome-wide sequencing studies in human cancer have...
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