Computational Biology: covers the development and application of data-analytical and theoretical methods, mathematical modeling and computational simulation techniques to the study of biological, ecological, behavioral, and social systems.
DATE: September 20th, 2016TIME: 7:00AM PST, 10:00AM ETThere is a growing trend towards developing in vitro cell models that recapitulate the in vivo environment in basic research,...
The global trend towards industrialization and urbanization has led to ever more people living and working indoors. Some studies estimate that humans in industrialized countries spend as much...
The human body is populated with trillions of microorganisms, collectively termed the human microbiome, that play vital roles in health including nutrition and metabolism, immune development,...
DATE: August 24th 2016TIME: 8:00AM PST, 11:00AM ESTPreclinical micro-computed tomography (microCT) imaging systems are utilized across a wide range of applications requiring imagi...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
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...
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...
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...
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...
The clinical utility of high-dimensional molecular profiling has been provisionally established in several domains of medicine. Today, interrogation of scores of genes and even whole ex...
Precision medicine requires understanding the mechanistic basis of complex disorders, and to precisely manipulate these mechanisms to better human health. This is partly enabled by the recent...
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...
Every day, vast amounts of healthcare data are collected from clinical trials as well as real world medical visits on patient treatment regimens and subsequent clinical outcomes. This big dat...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
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...
Noise and vibration are very effective activators of stress pathways in rodent models that can increase variability in animal models, thereby confounding virtually every area of biomedical an...
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...
Structure-based drug discovery requires expert designers, aided by software that integrates 3D structure visualization and molecular editing with multivariate experimentaland calculated prope...
As a computational scientist I have been fortunate to work with many collaborators to generate biological data to train and test my models. We are in a position with increasing amounts of dat...
One of the challenges in sustaining innovation in computational molecular design is the need to harness and deliver promising solutions irrespective of their source, without creating new soft...
Among many surprising insights, the genomic revolution has helped us to realize that we're never alone and, in fact, barely human. For most of our lives, we share our bodies with some ten ti...
The emerging field of RNA nanotechnology has led to the utilization of the platform in the field of bionanotechnology as sensing platforms, diverse nanoparticle construction, in vivo computin...
I will discuss the use of genomic technologies - mostly ultrahigh-throughput DNA sequencing - to study normal human biology and to determine what goes wrong when we have disease. First I wil...
Perhaps the greatest surprise of genetic studies of human disease is that 90% of top-scoring disease-associated loci lie outside protein-coding regions. This has increased the urgency of mapp...
DATE: September 20th, 2016TIME: 7:00AM PST, 10:00AM ETThere is a growing trend towards developing in vitro cell models that recapitulate the in vivo environment in basic research,...
The global trend towards industrialization and urbanization has led to ever more people living and working indoors. Some studies estimate that humans in industrialized countries spend as much...
The human body is populated with trillions of microorganisms, collectively termed the human microbiome, that play vital roles in health including nutrition and metabolism, immune development,...
DATE: August 24th 2016TIME: 8:00AM PST, 11:00AM ESTPreclinical micro-computed tomography (microCT) imaging systems are utilized across a wide range of applications requiring imagi...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
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...
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...
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...
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...
The clinical utility of high-dimensional molecular profiling has been provisionally established in several domains of medicine. Today, interrogation of scores of genes and even whole ex...
Precision medicine requires understanding the mechanistic basis of complex disorders, and to precisely manipulate these mechanisms to better human health. This is partly enabled by the recent...
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...
Every day, vast amounts of healthcare data are collected from clinical trials as well as real world medical visits on patient treatment regimens and subsequent clinical outcomes. This big dat...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
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...
Noise and vibration are very effective activators of stress pathways in rodent models that can increase variability in animal models, thereby confounding virtually every area of biomedical an...
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...
Structure-based drug discovery requires expert designers, aided by software that integrates 3D structure visualization and molecular editing with multivariate experimentaland calculated prope...
As a computational scientist I have been fortunate to work with many collaborators to generate biological data to train and test my models. We are in a position with increasing amounts of dat...
One of the challenges in sustaining innovation in computational molecular design is the need to harness and deliver promising solutions irrespective of their source, without creating new soft...
Among many surprising insights, the genomic revolution has helped us to realize that we're never alone and, in fact, barely human. For most of our lives, we share our bodies with some ten ti...
The emerging field of RNA nanotechnology has led to the utilization of the platform in the field of bionanotechnology as sensing platforms, diverse nanoparticle construction, in vivo computin...
I will discuss the use of genomic technologies - mostly ultrahigh-throughput DNA sequencing - to study normal human biology and to determine what goes wrong when we have disease. First I wil...
Perhaps the greatest surprise of genetic studies of human disease is that 90% of top-scoring disease-associated loci lie outside protein-coding regions. This has increased the urgency of mapp...
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