Fluidigm's TOPAZ 1.96 screening chips employ microscale channels and valves for diffusive mixing of protein and crystallization reagents. Future chip designs will steadily increase parallel throughput ...

The Crystallization Center has been a resource for structural biology providing enhanced high-throughput crystallization screening for SARS-CoV-2 protein samples. Dr. Sarah Bowman gave a lightning ...

A unique method to screen large-scale libraries for industrially useful bacterial strains was recently developed by Tokyo Tech researchers. The simple approach combines biosensors and microfluidics to ...

Our facility supports production and purification of high quantity and purity protein samples. We have instrumentation for the growth, cell harvesting, and lysis of large volume bacterial and insect ...

Dynamic light scattering is frequently utilized to assess the quality of protein aggregation, degradation and solution. However, for high-throughput screening, conventional dynamic light scattering ...

While the drug pipeline narrows, pharmaceutical companies are broadening their options by ruling nothing out. Protein crystallization technology is proving to be a ...

The new cell-free protein crystallization (CFPC) method includes direct protein crystallization and is a major headway in the field of structural biology. This technique will enable the analysis of ...

The new cell-free protein crystallization (CFPC) method developed by Tokyo Tech includes direct protein crystallization and is a major headway in the field of structural biology. This technique will ...