Protein Interaction: Protein–protein interactions are the physical contacts of high specificity established between two or more protein molecules as a result of biochemical events steered by electrostatic forces including the hydrophobic effect.
The therapeutic applications of medical cannabis and cannabinoid drugs is controversial, however the number of medical conditions in which cannabinoids and cannabis have shown promise as ther...
With prospective clinical sequencing of tumors emerging as a mainstay in cancer care, there is an urgent need for clinical support tools that aid clinicians in their decision making. To this...
When the human genome was sequenced almost 15 years ago, it was a milestone for the understanding of an individual’s genome. However to fully understand a disease, millions of ind...
Precision medicine based on molecular profiling is moving from the realm of clinical utility studies towards standard of care. There remain, however, significant technological and implementat...
Precision medicine and next-generation sequencing – Two terms characterized by a highly dynamic nature, strong innovations and a bright future. Both merged together will exert a decisiv...
Cell line screening studies require highly efficient protocols for studying many samples in parallel. We have developed a lyse-and-go protocol for digital gene expression profiling of u...
Gene expression studies give a snapshot of the different types of RNAs being expressed at a given time point in cells or tissues in vivo. Different RNA types have different roles, for example...
The arrangement of chromatin inside the nucleus has long been recognized as a key element in genomic stability and an active participant in transcriptional control. With the development and d...
Machine learning approaches to pattern discovery in protein-protein interaction networks of Huntington’s disease brain and model organisms are revealing novel connections of the disease...
Most neuropsychiatric diseases involve multifactorial systems characterized by complex interactions among genetic predisposition/resiliency, environmental/social determinants, molecular seque...
Complex animal behavior is produced by dynamic interactions between discrete regions of the brain. As such, defining functional connections between brain regions is critical in gaining a full...
Rapid, accurate estimation of relative ligand affinities offers the potential to allow computational methods to direct drug design and development. Towards this goal we have developed t...
For academic, biotech, and pharmaceutical scientists who are screening clones or performing high throughput protein purification, the goal is to automate the sample processing without sacrifi...
Exosomes are nano-scale lipid membrane-enclosed extracellular vesicles that form in the cellular endosomal system but are released outside the cell. These virus-sized “fat balls”...
The first small molecule inhibitor of the molecular chaperone Heat Shock Protein 90 (HSP90) was identified more than 20 years ago. Upon determination of the drug binding site and clarificatio...
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
I will present my lab’s effort on studying and manipulating RNA processing, with particular emphasis on using CRISPR/Cas systems for targeting RNA in living cells in diseases such as my...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Actin cytoskeleton drives cell migration in muscle and non-muscle cells and plays a major role in such diverse processes as tissue morphogenesis, muscle contraction, and cancer metastases. In...
The therapeutic applications of medical cannabis and cannabinoid drugs is controversial, however the number of medical conditions in which cannabinoids and cannabis have shown promise as ther...
With prospective clinical sequencing of tumors emerging as a mainstay in cancer care, there is an urgent need for clinical support tools that aid clinicians in their decision making. To this...
When the human genome was sequenced almost 15 years ago, it was a milestone for the understanding of an individual’s genome. However to fully understand a disease, millions of ind...
Precision medicine based on molecular profiling is moving from the realm of clinical utility studies towards standard of care. There remain, however, significant technological and implementat...
Precision medicine and next-generation sequencing – Two terms characterized by a highly dynamic nature, strong innovations and a bright future. Both merged together will exert a decisiv...
Cell line screening studies require highly efficient protocols for studying many samples in parallel. We have developed a lyse-and-go protocol for digital gene expression profiling of u...
Gene expression studies give a snapshot of the different types of RNAs being expressed at a given time point in cells or tissues in vivo. Different RNA types have different roles, for example...
The arrangement of chromatin inside the nucleus has long been recognized as a key element in genomic stability and an active participant in transcriptional control. With the development and d...
Machine learning approaches to pattern discovery in protein-protein interaction networks of Huntington’s disease brain and model organisms are revealing novel connections of the disease...
Most neuropsychiatric diseases involve multifactorial systems characterized by complex interactions among genetic predisposition/resiliency, environmental/social determinants, molecular seque...
Complex animal behavior is produced by dynamic interactions between discrete regions of the brain. As such, defining functional connections between brain regions is critical in gaining a full...
Rapid, accurate estimation of relative ligand affinities offers the potential to allow computational methods to direct drug design and development. Towards this goal we have developed t...
For academic, biotech, and pharmaceutical scientists who are screening clones or performing high throughput protein purification, the goal is to automate the sample processing without sacrifi...
Exosomes are nano-scale lipid membrane-enclosed extracellular vesicles that form in the cellular endosomal system but are released outside the cell. These virus-sized “fat balls”...
The first small molecule inhibitor of the molecular chaperone Heat Shock Protein 90 (HSP90) was identified more than 20 years ago. Upon determination of the drug binding site and clarificatio...
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
I will present my lab’s effort on studying and manipulating RNA processing, with particular emphasis on using CRISPR/Cas systems for targeting RNA in living cells in diseases such as my...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Actin cytoskeleton drives cell migration in muscle and non-muscle cells and plays a major role in such diverse processes as tissue morphogenesis, muscle contraction, and cancer metastases. In...
Follow
