Genetics technology broadly describes the tools and processes used to identify, treat, or monitor genetic disorders. Genetics technology can include laboratory testing, scientific instruments, and analytical software programs.
ImmunoChemistry Technologies offers multiple tools for fluorescent imaging in the context of cancer research and oncology. ICT’s in vitro cell-based apoptosis assays allow biomedical re...
Micro RNAs (miRNAs) are small, naturally-occurring non-coding ribonucleic acids with sizes between 18 and 40 nucleotides (nts) that have been demonstrated to play a significant role in the re...
The genome determines changes of the transcription profile upon environmental changes and finally determines how a cell reacts. A comparative genome and transcriptome analysis of the same sam...
To learn more about Gene Editing watch “Webinar: CRISPR-Cas9 Gene Editing with Synthetic RNA – from start to finish!”
Attendees will learn:
the importance of ...
Genome editing technologies, including the CRISPR/Cas9 system, allow for precise and corrective molecular modifications to treat the underlying cause of genetic diseases. Editas Medicine is d...
Chromosomal microarray analysis (CMA) is an established technology, which has demonstrated great sensitivity and specificity for detecting genome-wide copy number variants (CNVs). CMA represe...
This presentation will discuss fundamental physical, chemical, and biological concepts important to understanding control of detrimental biofilms. Four phenomena that are important in the act...
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...
DATE: July 22, 2015TIME: 9:00AM PT, 12:00PM ETHuman induced pluripotent stem cells (iPSCs) bring human biology into pre-clinical aspects of drug discovery. iPSC-derived cardiomyocytes have em...
Consistent accuracy in reporting quantitative viral load results is critically important to patients, their physicians and to the clinical laboratory. In clinical practice, quantitative viral...
Date: Thursday, June 11th, 2015Time: 07:00AM PDT, 10:00AM EDT, 03:00PM BST Alzheimer's disease (AD) is the most common form of dementia with nearly 44 million people affected worldwide. Chara...
DATE: Tuesday, May 26th, 2015TIME: 09:00AM PDT, 12:00PM EDTNext-generation sequencing (NGS) is changing the landscape of clinical research. This powerful technology is enabling researchers to...
Asthma is heritable, influenced by the environment, and is modified by in utero exposures and aging; all of these features are also common to epigenetic regulation. Furthermore, genetic varia...
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...
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...
Advanced sequencing technologies have made population scale whole genome sequencing a possibility. However, current strategies for analysis of this data rely upon parallelization approaches t...
Next-generation sequencing technology allows us to peer inside the cell in exquisite detail, revealing new insights into biology, evolution, and disease that would have been impossible to dis...
I will discuss recent statistical methods for identifying differentially expressed genes in static and time course bulk RNA-seq experiments. I will also provide an overview of the opportunit...
Every major scientific and technological revolution in history has been driven by one thing: access to data. Today, the availability of Big Data from a wide variety of sources is transforming...
A new affinity-based spin column procedure has been developed for highly specific isolation of exosomes and other extracellular vesicles (EVs) from serum or plasma, as well as for vesicular R...
The implementation of Next Generation Sequencing (NGS) technology in the clinical laboratory has allowed for large-scale panel testing of many genes simultaneously at a reduced cost and turn-...
Please click here to watch this webinar On DemandsiRNA-mediated silencing of gene expression has revolutionized the study of biology by enabling rapid and unbiased loss-of-function studies to...
Extracellular vesicles (EVs) include the exosomes (30-100 nm) that are produced through the endocytic pathway via the multivesicular bodies and the ectosomes (100-1000 nm) that are released t...
ImmunoChemistry Technologies offers multiple tools for fluorescent imaging in the context of cancer research and oncology. ICT’s in vitro cell-based apoptosis assays allow biomedical re...
Micro RNAs (miRNAs) are small, naturally-occurring non-coding ribonucleic acids with sizes between 18 and 40 nucleotides (nts) that have been demonstrated to play a significant role in the re...
The genome determines changes of the transcription profile upon environmental changes and finally determines how a cell reacts. A comparative genome and transcriptome analysis of the same sam...
To learn more about Gene Editing watch “Webinar: CRISPR-Cas9 Gene Editing with Synthetic RNA – from start to finish!”
Attendees will learn:
the importance of ...
Genome editing technologies, including the CRISPR/Cas9 system, allow for precise and corrective molecular modifications to treat the underlying cause of genetic diseases. Editas Medicine is d...
Chromosomal microarray analysis (CMA) is an established technology, which has demonstrated great sensitivity and specificity for detecting genome-wide copy number variants (CNVs). CMA represe...
This presentation will discuss fundamental physical, chemical, and biological concepts important to understanding control of detrimental biofilms. Four phenomena that are important in the act...
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...
DATE: July 22, 2015TIME: 9:00AM PT, 12:00PM ETHuman induced pluripotent stem cells (iPSCs) bring human biology into pre-clinical aspects of drug discovery. iPSC-derived cardiomyocytes have em...
Consistent accuracy in reporting quantitative viral load results is critically important to patients, their physicians and to the clinical laboratory. In clinical practice, quantitative viral...
Date: Thursday, June 11th, 2015Time: 07:00AM PDT, 10:00AM EDT, 03:00PM BST Alzheimer's disease (AD) is the most common form of dementia with nearly 44 million people affected worldwide. Chara...
DATE: Tuesday, May 26th, 2015TIME: 09:00AM PDT, 12:00PM EDTNext-generation sequencing (NGS) is changing the landscape of clinical research. This powerful technology is enabling researchers to...
Asthma is heritable, influenced by the environment, and is modified by in utero exposures and aging; all of these features are also common to epigenetic regulation. Furthermore, genetic varia...
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...
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...
Advanced sequencing technologies have made population scale whole genome sequencing a possibility. However, current strategies for analysis of this data rely upon parallelization approaches t...
Next-generation sequencing technology allows us to peer inside the cell in exquisite detail, revealing new insights into biology, evolution, and disease that would have been impossible to dis...
I will discuss recent statistical methods for identifying differentially expressed genes in static and time course bulk RNA-seq experiments. I will also provide an overview of the opportunit...
Every major scientific and technological revolution in history has been driven by one thing: access to data. Today, the availability of Big Data from a wide variety of sources is transforming...
A new affinity-based spin column procedure has been developed for highly specific isolation of exosomes and other extracellular vesicles (EVs) from serum or plasma, as well as for vesicular R...
The implementation of Next Generation Sequencing (NGS) technology in the clinical laboratory has allowed for large-scale panel testing of many genes simultaneously at a reduced cost and turn-...
Please click here to watch this webinar On DemandsiRNA-mediated silencing of gene expression has revolutionized the study of biology by enabling rapid and unbiased loss-of-function studies to...
Extracellular vesicles (EVs) include the exosomes (30-100 nm) that are produced through the endocytic pathway via the multivesicular bodies and the ectosomes (100-1000 nm) that are released t...
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