mRNA contain a riboswitch which allows for self-regulation by binding to a target molecule. RNA regulation occurs in response to concentrations of target molecule allowing control of gene expression. Riboswitches are most common in bacteria, plants, and fungi.
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...
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: June 16, 2015Time: 8:00AM Pacific time, 11:00AM Eastern TimeGroup 2 innate lymphoid cells (ILC2s) are recently described innate immune cells that contribute to type 2 inflammation, tiss...
The live event will start at 8am PDT, 11am EDT, 5pm CEST, 11pm CST.Substances leaching out of plastic consumables – so-called “leachables” – are still frequently under...
A well done RNA-Seq experiment can provide the most comprehensive, accurate and unbiased way to study gene expression, alternative splicing, RNA variation and RNA structure. The past few yea...
Cancers exhibit abnormal molecular signatures associated with disease initiation and progression. Molecular signatures could improve cancer screening, detection, drug development and selectio...
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...
Structural pathways are important. They are essential to the understanding of how oncogenic mutations work and to figuring out alternative parallel pathways in drug resistant mutants. Structu...
Circulating miRNAs have great potential as biomarkers due to their aberrant expression in cancer and other diseases. However, miRNAs from body fluids are hard to obtain in amounts sufficient...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
In this webinar, we will describe a comprehensive approach for NGS-based marker discovery and the successful migration of these markers to targeted NGS assays using low-quality (FFPE) and low...
Next-Generation Sequencing is enabling scientists to study the transcriptome in ways never before possible. During this session with Illumina Distinguished Scientist, Dr. Gary Schroth, you w...
Understanding how genes coordinate their expression across cells in a growing embryo can provide insights into the transcriptional programs that control development. Intercellular variability...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
The next generation sequencing technologies are profoundly influencing our way to study biology. We have previously developed cap-analysis gene expression (CAGE) to simultaneously mRNA/noncod...
Approximately 98% of the human genome comprises noncoding DNA, the function of which is largely unknown. Intriguingly, more than 85% of single nucleotide polymorphisms identified to be associ...
High throughput transcriptomic analyses have shown that most of the human genome is dynamically transcribed to produce an extraordinary range of overlapping and interlacing intronic, intergen...
Long non-coding RNAs (lncRNA) are a novel class of RNA molecule that are emerging as important regulators of gene transcription and post-transcriptional events. lncRNAs have been shown to reg...
Codon-optimization describes gene engineering approaches that use synonymous codon changes to increase protein production. It is used extensively for expressing recombinant protein drugs, gen...
RNASeq has become the primary method for studying changes in gene expression in modern genomics research. By directly sequencing the various types of RNA molecules, including mRNA, ncRNA, an...
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...
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: June 16, 2015Time: 8:00AM Pacific time, 11:00AM Eastern TimeGroup 2 innate lymphoid cells (ILC2s) are recently described innate immune cells that contribute to type 2 inflammation, tiss...
The live event will start at 8am PDT, 11am EDT, 5pm CEST, 11pm CST.Substances leaching out of plastic consumables – so-called “leachables” – are still frequently under...
A well done RNA-Seq experiment can provide the most comprehensive, accurate and unbiased way to study gene expression, alternative splicing, RNA variation and RNA structure. The past few yea...
Cancers exhibit abnormal molecular signatures associated with disease initiation and progression. Molecular signatures could improve cancer screening, detection, drug development and selectio...
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...
Structural pathways are important. They are essential to the understanding of how oncogenic mutations work and to figuring out alternative parallel pathways in drug resistant mutants. Structu...
Circulating miRNAs have great potential as biomarkers due to their aberrant expression in cancer and other diseases. However, miRNAs from body fluids are hard to obtain in amounts sufficient...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
In this webinar, we will describe a comprehensive approach for NGS-based marker discovery and the successful migration of these markers to targeted NGS assays using low-quality (FFPE) and low...
Next-Generation Sequencing is enabling scientists to study the transcriptome in ways never before possible. During this session with Illumina Distinguished Scientist, Dr. Gary Schroth, you w...
Understanding how genes coordinate their expression across cells in a growing embryo can provide insights into the transcriptional programs that control development. Intercellular variability...
As next-generation sequencing (NGS) platforms advance in their speed, ease-of-use, and cost-effectiveness, many translational researchers are transitioning from microarrays to RNA sequencing...
The next generation sequencing technologies are profoundly influencing our way to study biology. We have previously developed cap-analysis gene expression (CAGE) to simultaneously mRNA/noncod...
Approximately 98% of the human genome comprises noncoding DNA, the function of which is largely unknown. Intriguingly, more than 85% of single nucleotide polymorphisms identified to be associ...
High throughput transcriptomic analyses have shown that most of the human genome is dynamically transcribed to produce an extraordinary range of overlapping and interlacing intronic, intergen...
Long non-coding RNAs (lncRNA) are a novel class of RNA molecule that are emerging as important regulators of gene transcription and post-transcriptional events. lncRNAs have been shown to reg...
Codon-optimization describes gene engineering approaches that use synonymous codon changes to increase protein production. It is used extensively for expressing recombinant protein drugs, gen...
RNASeq has become the primary method for studying changes in gene expression in modern genomics research. By directly sequencing the various types of RNA molecules, including mRNA, ncRNA, an...
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