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Detection of siRNA-Mediated Gene Modulation Using SmartFlare™ Detection Probes

Merck
19 Jun 2013

Modulation of gene expression using techniques such as RNAi has become a fundamental tool in the study of gene function and biological pathways. To determine the efficiency of gene knockdown using most widely used detection methods, cell samples must be sacrificed by lysis or permeabilization and fixation. In addition to sample destruction, another disadvantage of these techniques is that they yield results that only reflect the average expression of the gene in the collected cell population. One nondestructive option is the use of transfected reporter constructs. However, although the cells remain alive, the technique cannot reveal endogenous gene expression and can have negative effects on cell health. An ideal RNA detection agent provides a noninvasive approach to interrogating gene expression while enabling sorting of live cells that can be separated and directly used for downstream studies. In this application note read how SmartFlare™ RNA detection probes provide efficient, non-destructive detection of siRNA mediated gene knockdown on a cell-by-cell basis.

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SmartFlare RNA Detection Probes

Merck

SmartFlare Probes work by recognizing specific native RNA sequences within living cells, therefore there are many possible sequences that you could design to recognize your target of interest. Instead of lysed cells, switch to live cells. And while you’re at it, eliminate sample preparation and transfection steps all together. Live cell RNA detection is now possible, in a single incubation step using inert nanoparticle technology to specifically detect native RNA. And when you’re done, the probes exit the cells allowing you to perform downstream analyses with the same, unperturbed cells. Make the smart change!SmartFlare RNA Detection Probes are fueled by the NanoFlare technology developed by renowned chemist Dr. Chad Mirkin.What's Smart? Detect RNA expression in live cells for real time, physiologically relevant data Eliminate laborious, costly sample preparation Easy analysis on the fluorescent detection platform of your choice Nanoparticle based technology that allows cells to be used for downstream assays

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Cell / Tissue CultureCell culture or tissue culture is used to study the biology of cells or tissues and to isolate cellular products in an environment which can be manipulated and well defined. Accurately control your culture environment with bioreactors or culture incubators, bind your cells to a surface or together with an extracellular matrix. Distinguish cell types with differential media or proliferate cells with certain characteristics using selective media. Enrich your media with supplements such as growth factors, sera and vitamins. Find the best cell and tissue culture products, kits and equipment in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Genome AnalysisGenomics, the study of genomes, includes functional genomics, evolutionary genomics and comparative genomics. There are many genomic technologies such as DNA sequencing of whole genomes, computational biology and bioinformatics. DNA and nucleic acids must be isolated and concentrated from cells for analysis with kits, automated analyzers and software. Other useful technologies for studying genomics include PCR, microarrays and electrophoresis.Flow Cytometry / Cell CountingFlow cytometers are used to count, sort and examine multiple characteristics of cells. Other cell analysis equipment includes image cytometers, cell counters, fluorescence-activated cell sorters (FACS), magnetic-activated cell sorters (MACS), and a range of flow cytometry assay kits. Flow cytometers can reveal information on cell viability, cell proliferation, apoptosis and cell cycle progression, as well as identify cell populations and intracellular or cell-surface molecules. Additionally, some flow cytometers, known as FACS, have an additional sorting function after analysis. Cell counters and image cytometers count live and dead cell populations and can also conduct cell proliferation assays. Find the best flow cytometers, cell counters and cell sorters in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Cell-Based AssaysCell-based assays are used to monitor the presence, quantity and activities of a desired cellular analyte including drug molecules or biomarkers. This can reveal information on cell health (apoptosis, cytotoxicity, viability and proliferation assays), cell metabolism, cell migration and cell signaling mechanisms. Find the best cell-based assay products, kits and equipment with our peer reviewed product directory: compare products, check customer reviews and receiving pricing direct from manufacturers.RNA InterferenceRNA interference (RNAi) uses siRNA or miRNA for transcriptional silencing, gene knockdown and regulation of gene expression. RNAi requires chemical synthesis, introduction of DNA vectors into cells, an assay of RNAi effects and RNAi quantification or analysis. Consider target sequence selection, reagent preparation, controls, high specificity and effectiveness and low non-specific gene knockdown.BiomarkersBiomarkers are biological markers which can be measured and evaluated to indicate a biological state. The use of biomarkers in research and diagnosis can indicate a normal or disease state or drug response of cells / tissues. Biomarkers include genetic markers, cell surface markers such as antigens, antibodies or receptors and secreted molecules such as cytokines. An assay system is required for identification of biomarkers. :Cancer ResearchAlthough cancer is often referred to as a single condition, it actually consists of more than 100 different diseases. Microscopy, mass spectrometry, high throughput sequencing and flow cytometry are some of the most common techniques employed in cancer research labs.siRNA

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Detection of siRNA-Mediated Gene Modulation Using SmartFlare™ Detection Probes