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Antibiotic-free selection of plasmids for recombinant DNA technology applications

TS-065461 — The Need: In the field of modern biochemistry, the production of recombinant proteins in bacterial hosts like Escherichia coli is integral for both research and industrial applications. However, the traditional method of using antibiotics for selection in protein production is costly and contributes…

College: College of Arts & Sciences
Inventors: Gopalan, Venkat
Licensing Officer: Willson, Christopher

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"

Column-free Purification of Recombinant Proteins

TS-064270 — Large-scale recombinant proteins in Gram-negative bacteria (i.e., E. coli) are of significant interest in recombinant protein/enzyme production. These proteins exhibit wide-ranging applications, including food and beverages, conversion of carbohydrates into fuel ethanol or biodiesel, components for …

College: College of Arts & Sciences
Inventors: Gopalan, Venkat
Licensing Officer: Panic, Ana

Post synthetic incorporation of Ti into zeolite Beta via defect sites originating from methyl-silanes and its impacts on epoxidation and reduction reactions

TS-062968 — A novel method of creating catalytic material containing paired Lewis acids in combination with alkyl-metal precursors for improving the production of materials used in agricultural, chemical, and other commercial/industrial applications/processes.

More efficient techniques to create catalytic material are required to enable higher efficiencies and other performance improvements when used for manufacturing of specialty chemicals and other compounds. The conventional methods whereby Lewis acids play a role in catalysis has some key limitation…

College: College of Engineering (COE)
Inventors: Brunelli, Nicholas "Nick"; Spanos, Alex
Licensing Officer: Randhawa, Davinder

Surrogates for Concrete Dividers

TS-062834 — Road departure can be extremely dangerous for vehicles. Some vehicles are equipped with road departure mitigation systems to prevent this from happening. However, testing these systems can be difficult and costly, as it involves crashing vehicles into roadside objects. The concrete divider surr…

College: College of Engineering (COE)
Inventors: Chen, Chi-Chih; Chen, Yaobin; Chien, Stanley; Lin, Jun; Sherony, Rini; Yi, Qiang
Licensing Officer: Zinn, Ryan

Surrogates for Metal Guardrails

TS-062797 —

Road departures remain a significant source of traffic accidents. Tools for limiting road departures are needed to reduce accidents and improve safe driving conditions. The Ohio State University researcher Dr. Chi-Chih Chen, along with a team of researchers, has developed a novel metal guardrai…

College: College of Engineering (COE)
Inventors: Chen, Chi-Chih; Chen, Yaobin; Chien, Stanley; Lin, Jun; Sherony, Rini
Licensing Officer: Zinn, Ryan

Low-Cost, Multiplexed Microfluidic Force Spectroscopy on-a-Chip

TS-057780 — A novel, low-cost, and massively-parallel force spectroscopy strategy that leverages microfluidic technology to dynamically test strength of molecular binding interactions to enable quick, full characterization of a molecular interaction of interest.

Development of several force spectroscopy strategies have enabled characterization of various types of molecular binding interactions with applications in biophysics, molecular biology and medicine. Despite various efforts to decrease the cost of force spectroscopy, full characterization of a mole…

College: College of Engineering (COE)
Inventors: Akbari, Ehsan; Castro, Carlos; Shahhosseini, Melika; Song, Jonathan "Jon"
Licensing Officer: He, Panqing

Functionalization of Polymethylmethacrylate (PMMA) Surface by Amination with Polyethyleneimine (PEI) for Applications in Microfluidic Immunoassays, Protein/Enzyme Biochips, and Biocatalysis

TS-037631 — Polymethylmethacrylate (PMMA) is a useful material for development of assays, biochips, and other biological materials. However, PMMA makes for a difficult substrate because of complexities with respect to adhesion. This technology presents two new methods for enhanced protein binding onto PMMA.

Polymethylmethacrylate (PMMA) is a synthetic resin in the acrylic family, often used as a substitute for glass or as a material for biomedical devices. PMMA-based biosensors have low protein binding efficiency and low sensitivity. PMMA is used in a variety of applications like immunoassays, biosen…

College: College of Engineering (COE)
Inventors: Yang, Shang-Tian "ST"; Bai, Yunling
Licensing Officer: Panic, Ana