Inside every cell are lipid molecules that make up cellular membranes, helping organelles communicate and respond to stress.
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 ...
A NIMS research team has developed a new experimental method capable of rapidly evaluating numerous material compositions by measuring anomalous Hall resistivity 30 times faster than conventional ...
This article discusses how Cyto-Mine ® can be used to screen complex populations of primary B cells and hybridomas by employing a miniaturized, high-throughput, homogeneous secretion assay for the ...
This study is achieved by Professor Wei Xu’s research team from Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences. The research team established mDRIP-seq, a ...
This article explores the causes of high-throughput screening assay failures, how these failures manifest in screening ...
The downstream processing of virus particles, vesicles, RNAs, plasmids and other forms of DNA, contains multiple interdependent steps, each requiring optimization for best results. This webinar will ...
A review maps high throughput strategies that link automation, microfluidics, and barcoding into a unified pipeline, enabling faster, more predictive lipid nanoparticle development for genetic ...
Developing new pharmaceuticals is a complex and costly process that requires innovation and efficiency. High-throughput immunoassays (HTIs) are an emerging technology poised to accelerate the drug ...