Bio-Rad’s new ZE5 Cell Analyzer is a game-changing cell analyzer that was designed with direct input from scientists and flow core labs. Karen Helm runs the flow core facility at the University of Colorado Cancer Center and was one of the experts consulted. See how ZE5 is helping her flow core users do better science.
Producing highly purified proteins in large quantities is a challenge and requires modification of methods and protocols to attain high efficiency. Dr Murat Kasap from Kocaeli University, Turkey, has overcome these difficulties by taking advantage of the modularity of the NGC Chromatography System and successfully synthesized and purified cardiac troponin-I protein.
To run a core flow cytometry lab is no easy task. There is always a balance between running simple sorts and developing new assays for answering complicated questions that demand pushing the limits of existing assays and the limitations of the sorters. See how Andy Riddell, a flow core manager, pushes the limits of his existing assays and how Bio-Rad’s S3e™ cell sorter is allowing him to accomplish that.
Tumor metastasis is a complex process. It requires the ability of the cancer cells to invade their surroundings and travel to distant sites and survive. Dr. Traci Lyons studies the mechanism of COX-2 functioning in the metastasis of breast cancer cells. Find out how Dr. Lyons used Bio-Rad’s PrimePCR™ Assays to confirm COX-2 knockdown at the mRNA level.
Too Many Questions, Too Little Sample: Developing a Real-Time PCR Workflow for Monitoring Gene Expression in Limited Samples
Traditional real-time PCR workflows often limit the number of genes that can be studied, especially when sample amounts are small. A new workflow now allows Mark Kibschull of the Lunenfeld-Tanenbaum Research Institute in Toronto to track the expression of hundreds of genes using a fraction of the starting material required by traditional methods.
3 Moments of Inquiry with Bio-Rad’s pGLO™ Transformation and Inquiry for AP Biology: A ThINQ! Investigation Kit
“Inquiry-based” is the new buzzphrase in science education. But what do these learning practices look like on the ground? Visit one high school in Southern California and find out about this new approach to teaching science.
Who’s watching over swimmer safety at America’s beaches? Go inside one agency tasked with pioneering new methods for water quality monitoring, and see how its scientists are employing Droplet Digital PCR technology to check coastal waters for harmful pathogens.
For a long time X-ray film has been the standard for imaging western blots, but this method has its limitations. Find out how 3 researchers are using the digital tools offered by the new ChemiDoc Touch Imaging System to beat these limitations and improve their blot images.
Researchers are having success applying Droplet Digital PCR (ddPCR™) technology across many different fields. Here are two such success stories, one involving the application of ddPCR in detecting mutations in iPS cells, the other in predicting allele-specific variation in human brain development.
Structural biologist Petr Novák employs the latest techniques to model natural killer cell receptor molecules, research that may one day result in powerful therapies to treat cancer and infections. Go inside the fascinating world of structural characterization and find out how Novák has integrated the NGC™ chromatography system into his effort to visualize these molecules in vivid detail.