UW-Madison researchers have developed a new combination adjuvant composition (dubbed QTAP) that combines two safe adjuvants (Quil-A and DOTAP) using a nanoparticle preparation protocol developed by th...
Learn More

UW-Madison researchers have developed a washed platelet extract with increased platelet growth factor concentration and decreased total protein relative to platelet rich plasma, and methods of making ...
Learn More

UW-Madison researchers have developed a new screening approach for identifying host factors that impact influenza viral production after the initial infection, and have used the screen to identify doz...
Learn More

Two UW-Madison researchers have developed a programmable reaction-diffusion system, derived from two small bacterial proteins MinD and MinE, that can be encoded into mammalian cells. In addition, the ...
Learn More

Research into new therapies for skin diseases is challenging for a number of reasons. As is known, skin cells are exposed to both atmospheric air and liquids within the body. However, conventional cel...
Learn More

Metagenomics is the study of genetic material from environmental samples for detecting microbes, especially pathogens. It is increasingly used within clinical and industrial settings. While metagenomi...
Learn More

UW-Madison inventors have developed a device that controls a series of actuators mounted onto various inverted microscopes (i.e. Nikon TiE II) to add 3D bioprinting and pick and place capabilities. Th...
Learn More

UW-Madison researchers have developed a set of novel isobaric chemical tags, DiLeu-Biotin-Azide (DBA), that could be useful in proteomics, particularly quantification of post translational modificatio...
Learn More

A UW-Madison researcher has created a cell line capable of growing LDV virus in vitro. The inventor explains that he made an educated guess as to what the receptor for this virus might (CD163) be and ...
Learn More

A UW-Madison researcher has developed FcRn-overexpressing cell lines that are susceptible to arterivirus infection. Through a genetic screen, the inventor discovered that the neonatal Fc receptor (FcR...
Learn More

UW-Madison researchers have developed and validated a novel “parasitome” method to accurately characterize parasites in samples. Like published metabarcoding protocols, the new method consists of ...
Learn More

Su-Chun Zhang, a world-renowned neuroscientist and pioneer in stem cell research, has developed a method for printing neural tissues that allows cells to form neural networks in vitro. The human brain...
Learn More

UW-Madison researchers have identified several tryptophan decarboxylase (TDC) mutations for improving enzymatic activity towards substituted tryptamines. Having identified these mutations, the researc...
Learn More

Aspects of the present disclosure from UW Madison researchers are directed to methods and apparatuses involving characterization via homologizing disparate speech terminology. As may be implemented in...
Learn More

UW-Madison researchers have developed a protein-based method for selective deuteration of amino acids. The inventors’ method leverages the aminotransferase DsaD, a PLP-dependent enzyme, and a small ...
Learn More

UW-Madison researchers disclose an improved method for generating diverse microbiomes. The method leverages growth media composition and species inoculum ratios to control the makeup of the consortia,...
Learn More

Catalysts play countless roles in modern society including production of fertilizer, synthesis of plastics and other ubiquitous materials and development of pharmaceuticals. However, many catalysts re...
Learn More

UW-Madison researchers have developed and characterized nine murine monoclonal antibody (mAb) reagents that react uniquely with the EC1 (2x), EC2 (2x), EC5 (3x), and EC6 (2x) extracellular cadherin re...
Learn More

A UW-Madison researcher has established a cell line, called VACO6, from a discarded tissue specimen of a surgically resected primary human colon cancer. The detailed characteristics of the clinical do...
Learn More

UW-Madison researchers have developed a number of variants of lytic strain L. reuteri ∆Φ1attB1∆Φ2∆attB2 (WARF case P170020). They are: L. reuteri∆Φ1, in which prophage #1 is deleted from th...
Learn More

UW-Madison researchers have developed photo-cleavable anionic surfactants, particularly 4-hexylphenylazosulfonate (Azo) and sodium 4-hexylphenylazosulfonate derivatives, which can be rapidly degraded ...
Learn More

UW-Madison researchers developed an improved method of gene editing human iPSCs through CRISPR-Cas. They added the histone deacetylase small molecule inhibitor Trichostatin A (TSA) before addition of ...
Learn More

A UW-Madison researcher has developed a Rhesus Macaque induced pluripotent stem cell (iPSC) line, called the Rh2431 iPSC line. 
Learn More

UW-Madison researchers have developed a titin DNA construct (a ‘titin minigene plasmid’) that is useful for identifying agents that modulate the titin size reduction that correlates with age and l...
Learn More

A UW-Madison researcher has developed a Cynomolgus Macaque induced pluripotent stem cell (iPSC) line, called the cy0657 iPSC line.
Learn More