High throughput cell biology is the use of automation equipment with classical cell biology techniques to address biological questions that are otherwise unattainable using conventional methods. It may incorporate techniques from optics, chemistry, biology or image analysis to permit rapid, highly parallel research into how cells function, interact with each other and how pathogens exploit them in disease. High-throughput biology serves as one facet of what has also been called "omics research" - the interface between large scale biology (genome, proteome, transcriptome), technology and researchers. High throughput cell biology has a definite focus on the cell, and methods accessing the cell such as imaging, gene expression microarrays, or genome wide screening. The basic idea is to take methods normally performed on their own and do a very large number of them without impacting their quality.
Respiratory viral infections remain a leading cause of medical visits and can contribute significantly to morbidity and mortality. Influenza, together with pneumonia, is the leading infectio...
Polyamines are small, mostly linear organic molecules found in almost all living cells, and are positively charged at physiological pH. As a consequence of their positive charge, polyamines b...
DNASTAR offers an integrated suite of software for accurate assembly and analysis of sequence data for key NGS workflows, including microbial genome assembly. The DNASTAR assembly software is...
Advances in sequencing technology and increasing recognition of the importance of our microbial world have led to unprecedented discoveries in recent years with respect to the human microbiom...
The human race, like all macrobiological life, evolved in a sea of microbes. There was no way to keep the bacterial and archaeal hoards at bay, so instead life evolved mechanisms to live with...
Managing microbial contaminants is critical during the manufacturing of biologics, food and beverage to ensure that products meet the high quality product standard as well as staying complian...
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...
DATE: August 20, 2015TIME: 8:00am PDT, 11:00am EDT, 4:00pm BSTLight Sheet Microscopy for 3D live fluorescent imaging at high spatiotemporal resolution Dr Bi-Chang Chen will discuss his ...
Sign up here to watch this Webinar On DemandCytotoxicity remains one of the major causes of drug withdrawal and there is an urgent need for reliable and time-saving assay workflows. Cells exp...
Deep mutational scanning is a method that marries selection for protein function amongst a large library of protein variants with high-throughput DNA sequencing to measure the activity of hun...
I will present new insights into how multiomics profiling can be used to analyze and provide new insights into two complexes diseases, type 2 diabetes and autism....
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...
The continued growth of DNA sequencing as a fundamental data output has driven the need for the ability to generate high quality data from an increasing breadth of diminishing primary sample...
Technological advances in high throughput, low cost DNA sequencing coupled with the availability of a high quality reference assembly allow us to interrogate the genome with greater precision...
In recent years, sophisticated new methods for sedimentation data analysis have opened up new avenues for leveraging AUC technology in a wide range of technology sectors, including life scien...
Date: Tuesday, April 7th, 2015Time: 8:30AM PST, 11:30AM EST, 5:30PM CETThe development of new medicines for Diabetes Type 2 complications has proven to be challenging due to the use of cell...
 In this presentation we will illustrate the advantages of AFA technology in clinically significant applications (NGS, FFPE, ChIP) and will demonstrate the flexibility of Covaris AFA in deliv...
 Single-cell analysis is one of the most rapidly growing fields in biomedical research that is significantly expanding our understanding on the biologic characteristics of various diseases. F...
Dr. Oliver Kepp will be presenting on:Immunogenic cell death fingerprinting utilizing a high-throughput screening approachThe strategy of immunogenic cell death fingerprinting has been design...
Mass spectrometry (MS)-based profiling of clinical specimens has been increasingly used in cancer research to characterize changes in protein expression between tumor and healthy tissue or be...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
This webinar presents LC-MS workflows for cost-effective research and forensic laboratory operation. The workflows, enabled by simple sample preparation coupled with rapid analysis ...
Protein-protein interactions and allosterically regulated enzymes have been challenging but important targets for probe- and drug discovery. We and others have found that fragment-based lead...
Respiratory viral infections remain a leading cause of medical visits and can contribute significantly to morbidity and mortality. Influenza, together with pneumonia, is the leading infectio...
Polyamines are small, mostly linear organic molecules found in almost all living cells, and are positively charged at physiological pH. As a consequence of their positive charge, polyamines b...
DNASTAR offers an integrated suite of software for accurate assembly and analysis of sequence data for key NGS workflows, including microbial genome assembly. The DNASTAR assembly software is...
Advances in sequencing technology and increasing recognition of the importance of our microbial world have led to unprecedented discoveries in recent years with respect to the human microbiom...
The human race, like all macrobiological life, evolved in a sea of microbes. There was no way to keep the bacterial and archaeal hoards at bay, so instead life evolved mechanisms to live with...
Managing microbial contaminants is critical during the manufacturing of biologics, food and beverage to ensure that products meet the high quality product standard as well as staying complian...
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...
DATE: August 20, 2015TIME: 8:00am PDT, 11:00am EDT, 4:00pm BSTLight Sheet Microscopy for 3D live fluorescent imaging at high spatiotemporal resolution Dr Bi-Chang Chen will discuss his ...
Sign up here to watch this Webinar On DemandCytotoxicity remains one of the major causes of drug withdrawal and there is an urgent need for reliable and time-saving assay workflows. Cells exp...
Deep mutational scanning is a method that marries selection for protein function amongst a large library of protein variants with high-throughput DNA sequencing to measure the activity of hun...
I will present new insights into how multiomics profiling can be used to analyze and provide new insights into two complexes diseases, type 2 diabetes and autism....
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...
The continued growth of DNA sequencing as a fundamental data output has driven the need for the ability to generate high quality data from an increasing breadth of diminishing primary sample...
Technological advances in high throughput, low cost DNA sequencing coupled with the availability of a high quality reference assembly allow us to interrogate the genome with greater precision...
In recent years, sophisticated new methods for sedimentation data analysis have opened up new avenues for leveraging AUC technology in a wide range of technology sectors, including life scien...
Date: Tuesday, April 7th, 2015Time: 8:30AM PST, 11:30AM EST, 5:30PM CETThe development of new medicines for Diabetes Type 2 complications has proven to be challenging due to the use of cell...
 In this presentation we will illustrate the advantages of AFA technology in clinically significant applications (NGS, FFPE, ChIP) and will demonstrate the flexibility of Covaris AFA in deliv...
 Single-cell analysis is one of the most rapidly growing fields in biomedical research that is significantly expanding our understanding on the biologic characteristics of various diseases. F...
Dr. Oliver Kepp will be presenting on:Immunogenic cell death fingerprinting utilizing a high-throughput screening approachThe strategy of immunogenic cell death fingerprinting has been design...
Mass spectrometry (MS)-based profiling of clinical specimens has been increasingly used in cancer research to characterize changes in protein expression between tumor and healthy tissue or be...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
This webinar presents LC-MS workflows for cost-effective research and forensic laboratory operation. The workflows, enabled by simple sample preparation coupled with rapid analysis ...
Protein-protein interactions and allosterically regulated enzymes have been challenging but important targets for probe- and drug discovery. We and others have found that fragment-based lead...
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