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Chromatin is unlocking the potential of plants to produce greater value and meaningful products for consumers, growers, seed producers, and processors. At the same time, the company's technology can benefit the environment through decreased use of pesticides and fertilizers. The company's mini-chromosome technology simultaneously introduces multiple genetic traits into plants, reducing the time and cost required to develop improved and novel crop-based products, such as medicines, biomaterials, textiles and nutritionally improved foods. These products are enabled while allowing growers to enjoy the benefits of the most up-to-date agronomic traits, such as herbicide tolerance, pest resistance, and diseases resistance. Mini-chromosomes also provide unprecedented precision and control of new traits at every point in a plant's life cycle, from seed to field and beyond. Crop stewardship is at the core of Chromatin's values, and the company is equally focused on using its technology to introduce sustainable, healthy agricultural practices while enhancing commercial value and quality of life.
At Karuna, our purpose is to create and deliver transformative medicines for people living with psychiatric and neurological conditions. Through the cultivation of our deep expertise in neuroscience, and inventive thinking around drug discovery and development, we are advancing a pipeline of novel medicines with the goal of providing a meaningful difference in the lives of those affected by these conditions. Our culture is defined by our passion to serve those affected by mental illness. We are purpose-driven and intentional. We know impactful innovations don`t come easy, but are borne from passion and hard work. Together, we are working toward a goal bigger than ourselves.
Juventas Therapeutics is a private clinical-stage company developing novel therapies for ischemic cardiovascular disease. The company`s lead product` JVS-100` is a non-viral plasmid that encodes for stromal cell-derived factor-1 (SDF-1). SDF-1 has been shown to significantly increase end-organ function following tissue injury by promoting cell survival` recruiting endogenous stem cells to the damaged region` and promoting new blood vessel growth. The SDF-1 repair pathway is well conserved throughout end-organ systems providing the opportunity to impact a broad range of diseases. Target cardiovascular clinical indications address large markets with high unmet medical need and significant market potential. Juventas is currently enrolling multiple clinical trials to test therapy efficacy in heart failure and critical limb ischemia patients.
RiboCor is a Minneapolis, MN-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
We work at the intersection of biology, engineering, and design, developing technologies that emulate human biology. Our products are enabling a new era of precision medicine and the development of applications for personalized health. Our Human Emulation System, which uses Organs-on-Chips technology, is being used by industry, government, and academia to understand how different diseases, medicines, chemicals and foods affect human health. The system offers researchers a new standard for predicting human response — with greater precision and control than today`s cell culture or animal-based experimental methods. We are also leading a bold, new precision medicine initiative with our clinical partners. Named "Patient-on-a-Chip," the program is developing personalized chips with patients` own cells. This initiative will help transform the way each of us understands our own bodies and manages our own health. Research conducted using our Organ-Chips has been published in high-impact scientific journals, including Science. In addition, Organ-Chips have been acquired by the Museum of Modern Art (MoMA) in New York for their permanent collection, and have also been awarded Product Design of the Year 2015 by London`s Design Museum. Our founding team pioneered the original Organs-on-Chips technology during their residency within the Wyss Institute for Biologically Inspired Engineering at Harvard University.