Drosophila melanogaster muscle stem cell line
TS-064271 — The Need
In the rapidly advancing landscape of life sciences, researchers and biotech companies face an escalating demand for reliable and versatile cell lines. The need for a specialized cell line that combines adaptability, reproducibility, and ease of use is paramount in accelerating breakthroug…
- College: College of Arts & Sciences
- Inventors: Simcox, Amanda
- Licensing Officer: Dahlman, Jason
"Jay"
A modified intein for temperature sensitive applications
TS-063697 — Controlled Protein Release Over a Broad Range of Temperatures
The Need:
In the biotechnology field, the demand for efficient protein purification methods and innovative drug delivery solutions is ever-growing. Researchers and companies require technologies that can streamline the purification process, ensuring high yields and purity, while offering versatile …
- College: College of Engineering (COE)
- Inventors: Wood, David; Coolbaugh, Michael; Stimple, Samuel "Sam"; Yuan, Hongyu
- Licensing Officer: Dahlman, Jason
"Jay"
Advanced AAV Gene Therapy Characterization Technique
TS-062608 — Gene therapy is an emerging technology that replaces a faulty gene or adds a new gene to cure disease or improve your body's ability to fight infection. These next-generation treatments hold promise for treating various genetic and chronic conditions, including but not limited to cancer, cystic …
- College: College of Arts & Sciences
- Inventors: Wysocki, Vicki; Cleary, Sean; Du, Chen
- Licensing Officer: Dahlman, Jason
"Jay"
Functional "fingerloop" DNA antisense motifs for nucleic acid targeting and detection technologies
TS-062547 — The Need: The field of molecular biology and genetic engineering faces challenges in achieving precise and accurate detection and amplification of target nucleic acid sequences. Traditional hybridization technologies suffer from the issue of mismatched targets, leading to reduced specificity and rel…
- College: College of Arts & Sciences
- Inventors: Lease, Richard
- Licensing Officer: Dahlman, Jason
"Jay"
Anaplasma Platys Diagnostics
TS-062349 — The Need
In the veterinary field, there is a crucial need for accurate and specific diagnostic tests to identify and distinguish between Anaplasma platys (Apl) and other related pathogens like Anaplasma phagocytophilum (Aph). Current diagnostic methods lack specificity, leading to challenges in dif…
- College: College of Veterinary Medicine
- Inventors: Rikihisa, Yasuko
- Licensing Officer: Dahlman, Jason
"Jay"
Rapid Viral Quantification with Target Gene Detection
TS-062346 — The Need
The ability to rapidly identify and determine virus titer is of utmost importance in numerous biomedical applications, ranging from gene editing to pharmaceutical and vaccine development. Current methods for characterizing viruses and determining viral titer, such as ELISA, PCR, and cell c…
- College: College of Arts & Sciences
- Inventors: Schultz, Zachary; Morder, Courtney
- Licensing Officer: Dahlman, Jason
"Jay"
Ion Carpet-Based Surface-Induced Dissociation Device
TS-062342 — The Need
In the field of mass spectrometry (MS), the study of proteins and protein complexes in their native form, known as native MS, has become crucial in understanding their structure and function. However, the current collision-induced dissociation (CID) technique used in tandem MS experiments …
- College: College of Arts & Sciences
- Inventors: Wysocki, Vicki; Gilbert, Joshua; Stiving, Alyssa
- Licensing Officer: Dahlman, Jason
"Jay"
Avian Genome Editing Advancements- Improving production efficiency
TS-062249 — The Need: Unlocking Avian Genetic Potential
The poultry industry plays a crucial role in meeting the growing demand for protein-rich food worldwide. However, avian genetic research has been limited by the complexity of editing avian genomes efficiently. Conventional methods utilizing primordial ger…
- College: College of Food, Agricultural, and Environmental Sciences (CFAES)
- Inventors: Lee, Kichoon "Kichoon"; Lee, Joonbum
- Licensing Officer: Dahlman, Jason
"Jay"
Quadruplex-based non-enzymatic DNA signal amplification
TS-042905 — A quadruplex-based non-enzymatic DNA signal amplification scheme for point of care diagnostic testing.
Currently, non-enzymatic signal amplification assays, an alternative to PCR, are complicated reactions employing multiple DNA constructs. The most successful non-enzymatic assays rely on stand-displacement reactions within DNA duplexes that result in background activity. Because of this background…
- College: College of Arts & Sciences
- Inventors: Kankia, Besik
- Licensing Officer: Dahlman, Jason
"Jay"
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