Bioinformatics: an interdisciplinary field that develops methods and software tools for understanding biological data. As an interdisciplinary field of science, bioinformatics combines computer science, statistics, mathematics, and engineering to analyze and interpret biological data.
DATE: July 20thTIME: 8AM PT, 11AM ET, 5PM CESTTherapies like ipilimumab and nivolumab have shown the potential for approaches that direct the patient’s own immune system aga...
This presentation is a rebroadcast of a previous webinar with live Q&A. Please confirm the start time and date in your time zone. We’ve included several examples below for your re...
DNA and RNA sequencing sample preparation can involve many tedious and error prone steps. Liquid handling automation solutions can help standardize your processes and achieve more consistent ...
DATE: June 9, 2016
TIME: 9AM Pacific time, 12pm Eastern time
The rapid growth of Microbiomics has increased the demand for standard methods to improve the reproducibility and...
DATE: May 26, 2016TIME: 8am pacific time, 11am eastern timeJoin us live and learn about a breakthrough in TCR sequencing using single-cell analysis.T cells recognize spe...
Generating NGS data you can trust is highly reliant on the quality of the library sample that’s sequenced. NGS sample prep has become more streamlined, but it’s still a labo...
DATE: May 17, 2016
TIME: 7am Pacific time, 10am Eastern time, 4pm Swedish time
Data generation is becoming easier and easier and many organizations have matured in their data storage and ...
Millions of individuals have been sequenced or genotyped and linked with medical records, providing an exciting opportunity for therapeutic target discovery. My lab has been using a resilienc...
Targeted sequencing assays are increasingly used to identify tumor mutations that guide therapeutic decisions. Interpretation of a cancer variant’s origin and therapeutic impact poses a...
In order to realize the benefits of personalized cancer therapy, increasing demands are placed upon clinical laboratories to provide timely, comprehensive, clinically actionable, and analytic...
The biological state of the cell is characterized by a complex network of interacting genes, gene products, proteins, microRNAs, as well as other molecules. Microarrays and next generation se...
DNA methylation is an essential mechanism of epigenetic gene regulation with broad relevance in development and disease. Its localization on genomic DNA and general stability make this epigen...
Working with biology currently takes too long, costs too much, and fails too often. At the core of this is the complexity of the systems we are trying to understand, compounded by a lack of r...
Emerging technologies facilitate basic science research, but their value in regulatory applications requires rigorous assessment and consensus within the research community. Next-generation s...
We are at a time where traditionally risk-adverse health care systems and their IT architecture are confronted with the deluge of data at a massive scale and tremendous variability. In many H...
Imaging-based techniques have traditionally been restricted to the diagnosis and staging of cancer. But technological advances are moving imaging modalities into the heart of patient care. Im...
Pathology departments are under significant pressure to meet the demands of a precise medicine environment where general phenotypic attributes are no longer sufficient for accurately defining...
While next-generation sequencing has proven to be a very useful tool in basic research, two major hurdles remain for its broad adoption in the clinical research setting: lack of seamless work...
The advent of the microarray technology in 2000 has paved the way for advanced translational research methods that use molecular markers such as microRNA, proteins, metabolites and copy numbe...
In December 2012 the UK Prime Minister announced the 100,000 genomes project to introduce whole genome sequencing for treatment into the UK National Health Service (NHS) o...
DATE: February 2nd, 2016
TIME: 9am pacific time, 12pm eastern time
What is the most appropriate technology to empower your research?
Next generation sequencing (NGS) for RN...
DATE: January 21, 2016
TIME: 8am Pacific time, 11am Eastern time
In this webinar, you will learn:
basics of pooled lentiviral screening workflows
implications of ...
The HIV and AIDS pandemic ranks among the most devastating in recorded history. Substantial research efforts over the past 30 years have led to novel discoveries with respect to the vir...
DATE: July 20thTIME: 8AM PT, 11AM ET, 5PM CESTTherapies like ipilimumab and nivolumab have shown the potential for approaches that direct the patient’s own immune system aga...
This presentation is a rebroadcast of a previous webinar with live Q&A. Please confirm the start time and date in your time zone. We’ve included several examples below for your re...
DNA and RNA sequencing sample preparation can involve many tedious and error prone steps. Liquid handling automation solutions can help standardize your processes and achieve more consistent ...
DATE: June 9, 2016
TIME: 9AM Pacific time, 12pm Eastern time
The rapid growth of Microbiomics has increased the demand for standard methods to improve the reproducibility and...
DATE: May 26, 2016TIME: 8am pacific time, 11am eastern timeJoin us live and learn about a breakthrough in TCR sequencing using single-cell analysis.T cells recognize spe...
Generating NGS data you can trust is highly reliant on the quality of the library sample that’s sequenced. NGS sample prep has become more streamlined, but it’s still a labo...
DATE: May 17, 2016
TIME: 7am Pacific time, 10am Eastern time, 4pm Swedish time
Data generation is becoming easier and easier and many organizations have matured in their data storage and ...
Millions of individuals have been sequenced or genotyped and linked with medical records, providing an exciting opportunity for therapeutic target discovery. My lab has been using a resilienc...
Targeted sequencing assays are increasingly used to identify tumor mutations that guide therapeutic decisions. Interpretation of a cancer variant’s origin and therapeutic impact poses a...
In order to realize the benefits of personalized cancer therapy, increasing demands are placed upon clinical laboratories to provide timely, comprehensive, clinically actionable, and analytic...
The biological state of the cell is characterized by a complex network of interacting genes, gene products, proteins, microRNAs, as well as other molecules. Microarrays and next generation se...
DNA methylation is an essential mechanism of epigenetic gene regulation with broad relevance in development and disease. Its localization on genomic DNA and general stability make this epigen...
Working with biology currently takes too long, costs too much, and fails too often. At the core of this is the complexity of the systems we are trying to understand, compounded by a lack of r...
Emerging technologies facilitate basic science research, but their value in regulatory applications requires rigorous assessment and consensus within the research community. Next-generation s...
We are at a time where traditionally risk-adverse health care systems and their IT architecture are confronted with the deluge of data at a massive scale and tremendous variability. In many H...
Imaging-based techniques have traditionally been restricted to the diagnosis and staging of cancer. But technological advances are moving imaging modalities into the heart of patient care. Im...
Pathology departments are under significant pressure to meet the demands of a precise medicine environment where general phenotypic attributes are no longer sufficient for accurately defining...
While next-generation sequencing has proven to be a very useful tool in basic research, two major hurdles remain for its broad adoption in the clinical research setting: lack of seamless work...
The advent of the microarray technology in 2000 has paved the way for advanced translational research methods that use molecular markers such as microRNA, proteins, metabolites and copy numbe...
In December 2012 the UK Prime Minister announced the 100,000 genomes project to introduce whole genome sequencing for treatment into the UK National Health Service (NHS) o...
DATE: February 2nd, 2016
TIME: 9am pacific time, 12pm eastern time
What is the most appropriate technology to empower your research?
Next generation sequencing (NGS) for RN...
DATE: January 21, 2016
TIME: 8am Pacific time, 11am Eastern time
In this webinar, you will learn:
basics of pooled lentiviral screening workflows
implications of ...
The HIV and AIDS pandemic ranks among the most devastating in recorded history. Substantial research efforts over the past 30 years have led to novel discoveries with respect to the vir...
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