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RareCyte is a company focused on characterizing and isolating rare cells from blood.
Promosome is a New York, NY-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
T-knife Therapeutics is a biopharmaceutical company dedicated to developing novel therapeutics to fight cancer, initially focused on T cell receptor (TCR) engineered T cell therapies (TCR-Ts), a modality that holds the potential to generate transformative responses in patients with solid tumors. The Company`s unique approach leverages its proprietary HuTCR mouse platform, a next-generation T cell receptor and epitope discovery engine that produces fully human, tumor-specific TCRs, naturally selected in vivo for optimal affinity and high specificity. T-knife is advancing a portfolio of TCR-T product candidates against targets with high unmet medical need, including cancer testis antigens, oncoviral antigens and commonly shared tumor-driving neoantigens. T-knife was founded by leading T-cell and immunology experts using technology developed at the Max Delbruck Center for Molecular Medicine together with Charité – Universitätsmedizin Berlin.
Poseida Therapeutics is a clinical-stage biotechnology company translating best-in-class technology into lifesaving cell and gene therapies for patients with high unmet medical need. The company is developing CAR T-cell immunotherapies for multiple myeloma, prostate and other cancer types, as well as in vivo gene therapies for orphan genetic diseases. These cell therapies and the gene therapies soon to come are products of our proprietary suite of industry-leading gene engineering technologies, including the piggyBac® DNA Modification System, Cas-CLOVER™ and TAL-CLOVER™ site-specific nucleases.
What if we told you that our bodies make use of only a few hundred different signaling pathways to control all of our 20,000 or so genes. We call it the gene circuitry code, unique for every gene in our body. CAMP4 has built a proprietary 4-D Gene Circuity Platform to codify the discrete set of combinatorial rules used by any human cell type central to disease pathology. By applying the power of computational biology and machine learning algorithms, CAMP4 is able to rapidly solve for druggable targets to control the output of any disease gene of interest.