by | Jan 7, 2021 | Hogrebe, Nathaniel, Millman, Jeffrey, Velazco-Cruz, Leonardo, Veronese Paniagua, Daniel, Wernes, Kristina
— Technology Description:
Researchers in Prof. Jeffrey Millman’s laboratory have developed multiple techniques for enhancing the differentiation, maturation and function of glucose-responsive, insulin-producing SC-beta cells (pancreatic beta cells made from human pluripotent stem cells). Downst…
by | Nov 23, 2020 | Mitra, Robi, Moudgil, Arnav, Qi, Zongtai, Wilkinson, Michael Nathaniel
— Technology Description
Researchers in Prof. Rob Mitra’s laboratory have developed single cell calling cards (“scCCs”), a robust and versatile self-reporting transposon system for high throughput analysis of protein-DNA binding with single cell resolution. This technology simulta…
by | Sep 25, 2020 | Binkley, Michael, Bose, Arpita, Meacham, John, Rengasamy, Karthikeyan
— Technology Description
An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…
by | Sep 25, 2020 | Binkley, Michael, Bose, Arpita, Meacham, John, Rengasamy, Karthikeyan
— Technology Description
An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…
by | Sep 4, 2020 | Storch, Gregory, Wylie, Kristine, Wylie, Todd
— Technology Description
A team of researchers at Washington University designed patented primers for a sensitive, specific, real-time reverse transcriptase PCR (RT-PCR) assay to quickly detect enterovirus D68 (EV-D68).
EV-D68 is an emerging, highly contagious respiratory virus that can cause seve…