MTRAC Tier I Grant Recipients | 2016
MSU MTRAC is designed to bridge the gap between successful academic results and the point at which an innovation is sufficiently developed, scaled-up, and de-risked to enable it to be transitioned to commercial development. This is a grant program jointly funded by Michigan State University and the State of Michigan under Grant Case-48166 of the 21st Century Jobs Trust Fund received through the Michigan Strategic Fund.
The MSU MTRAC Program focuses on one of the University’s core strengths: Ag/Bio Science and Technology. This can include research in areas from Animal Science to Chemical Engineering. Some examples of the areas of translational research that may be eligible for funding include: Bio-based Chemicals or Biofuels Synthesis, Livestock Health and Nutrition, Plant Traits and Crop Improvements, Consumer Food Products and Agriculture Production Tools.
In Spring 2016, five Ag/Bio projects were selected for grants to help make them broadly available for consumer use.
Winners of the 2016 Tier I grants include the following:
Single-Modifier Strategy for Plant biomass and Productivity Enhancement – Transition from Model Species to Commercial Crops
In an effort to address food security issues related to increasing land scarcity for crops, Dr. Brandizzi has established a new technology based on the overexpression of a single gene. This overexpression causes an increase in photosynthesis, biomass, and digestibility. With Tier I MTRAC funding, Dr. Brandizzi’s lab will transfer the technology from a model plant species into two crops of high economic relevance, soybean and alfalfa. The expected outcome of this approach is an increase in seed yield of soybean plants and also an increase in biomass and improved quality of alfalfa plants.
Commercialization of Microbial Electrochemical Reactors (MERs) and the Market Product Biopropanediol
Marking her third MTRAC award, Dr. Reguera will take her platform Microbial Electrochemical Reactor (MER) technology from benchtop to pilot scale (200L) in her 2016 Tier I MTRAC project. Dr. Reguera’s most recent MTRAC award will support the scale-up to 200L of the MER technology to produce bio-derived 1,3-PDO from crude glycerin. This technology can easily be integrated or retrofitted into any industrial biodiesel plant and the current worldwide oversupply of crude glycerin provides the ideal market for utilization and commercialization of this technology. Additionally, Dr. Reguera and her team also have future technology development plans to expand the application of the electrochemical reactors to utilize alternative feedstocks and produce other bio-derived chemicals or value-added products.
Biomass Valorization by Pyrolysis and Electrocatalysis to Create Liquid Fuels, Chemical Intermediates and Advanced Materials
Even when petroleum is inexpensive, making advanced materials from it can be complicated, dangerous, and expensive. In an attempt to solve this problem, Dr. Saffron and his team will be utilizing 2016 Tier I MTRAC funding to advance and optimize processes to convert renewable plant bio-oil into commercially viable products such as cyclohexanol, ethylene glycol, polyols, carbon foams, and fuel oil. This project relates to Dr. Saffron’s previous Tier II MTRAC funding which enabled the building of a small pyrolysis reactor.
Improvement of Commercial Value of EliteTree Technology
Dr. Han was awarded his second Tier I MTRAC grant to continue his work on the EliteTree technology designed to produce poplar trees with greater wood density at an accelerated growth rate. MTRAC work will include initial field trials. If ultimately successful, these trees, grown as short-rotation crops, will provide a consistent, renewable, high-energy supply of woody biomass feedstock with the potential to significantly improve the profitability of the bioenergy, fiber, industrial chemical, and pulp and paper industries.
Improvement of Commercial Value and Marketability of XERICO Drought Tolerance Technology
Drought has been an ongoing concern in agriculture in recent years and Dr. Han seeks to reduce crop/yield loss due to drought through commercialization of his XERICO technology. Unlike other drought-tolerance technologies, the XERICO technology has been shown to enhance drought-resistance of both monocot and dicot crops without inhibiting growth during early plant development. The MTRAC award will enable functional demonstration of the genetic technology in corn.
Data Storage and Accessibility for the Automated Quantitative Histopathology Tool (QuHAnT)
Dr. Zacharewski was awarded a second Tier I MTRAC award to further support translational development work related to QuHAnT, a closed source, web-accessible software to reduce the time and costs associated with non-clinical studies required for safety testing of food additives, nutritional supplements, and food contact substances such as pesticides, and packaging materials. QuHAnT will perform quantitative histopathology analysis quickly and efficiently with result validation from certified pathologists. This software has the potential to improve the process of introducing new foods and agriculture products to consumers by providing a more comprehensive analysis, expediting time to market, and reducing product development expenses.