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Adicet Bio, Inc. is a publicly held biotechnology company (Nasdaq: ACET) discovering and developing allogeneic gamma delta T cell therapies for cancer and other diseases. Adicet is advancing a pipeline of “off-the-shelf” gamma delta T cells, engineered with chimeric antigen receptors and T cell receptor-like targeting moieties to enhance selective tumor targeting, facilitate innate and adaptive anti-tumor immune response, and improve persistence for durable activity in patients.
St. Mary's Janesville Hospital is a Janesville, WI-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Navitor Pharmaceuticals, Inc., is a biopharmaceutical company developing novel medicines by targeting cellular nutrient signaling pathways. The companys proprietary drug discovery platform targets mTORC1, which responds to and integrates the cells response to nutrient availability and plays a key role in protein synthesis and cellular growth. Navitors therapeutics are designed to selectively modulate the cellular signals that are aberrant in disease processes caused by the dysregulation of mTORC1 activity to address a wide range of diseases, including metabolic, neurodegenerative, autoimmune and musculoskeletal diseases, as well as several rare disorders. The companys founding intellectual property is based on the groundbreaking discoveries related to the mTORC1 pathway and nutrient signaling mechanisms by Dr. David Sabatini at The Whitehead Institute for Biomedical Research. The company is backed by leading financial and corporate investors, including Polaris Partners, Atlas Venture, Johnson and Johnson Development Corporation, SR One and The Longevity Fund.
Cathay Industrial Biotech is a Mt Zion, IL-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Oxford Nanopore Technologies aims to disrupt the paradigm of biological analysis. Our technology and commercial model has already opened up DNA analysis to researchers who previously had no direct access to sequencing technologies, freeing them up to perform analyses in their own labs, in real time or in the field. Over time, the technology will continue to improve, new form factors of the technology will be introduced and workflows will be further simplified by new preparation techniques or analysis workflows. This technology pathway is designed to enable the analysis of any living thing, by any person, in any environment. Oxford Nanopore has developed the worlds first and only nanopore DNA sequencer, the MinION. The MinION is a portable, real time, long-read, low cost device that has been designed to bring easy biological analyses to anyone, whether in scientific research, education or a range of real world applications such as disease/pathogen surveillance, environmental monitoring, food chain surveillance, self-quantification or even microgravity biology. Commercially available since 2015, the MinION is in use by a thriving community of scientists in >50 countries, where it is enabling myriad applications within the traditional laboratory environment and in the field. Nanopore sensing technology is fully scalable. The GridION X5 is a desktop device that includes compute module and the ability to run up to five MinION Flow Cells. The the high-throughput/sample number PromethION is currently being released in the PromethION Early Access Programme (PEAP). Oxford Nanopore is focused on making DNA based analyses easy enough for any user and so we are working to simplify the sample preparation and data analysis processes. For sample preparation this includes a 5-10 minute sample prep kit, and VolTRAX (in development), a rapid, programmable, portable, disposable sample preparation device designed to prepare DNA for addition to a nanopore sequencing device.