The international group of companies 3B Scientific specializes in the manufacturing and marketing of didactic material for scientific, medical and patient education. The group`s oldest site in Budapest/Hungary began its manufacturing history in 1819, making 3B Scientific the most experienced group of companies in the industry. The mother company was founded 1948 in Hamburg by the 3 Bs: Mr. Paul Binhold, his wife Hedwig Binhold and their daughter Marion Binhold, now Marion Kurland.
Nurix Therapeutics discovers drugs that harness the body`s natural process to control protein levels. Our drugs control ubiquitin E3 ligases, the key enzymes responsible for protein breakdown in human cells, as a unique therapeutic approach to treat a broad range of diseases. Our focus is on developing drugs to treat cancer including novel, small molecule immuno-oncology agents.
Sangart is a San Diego, CA-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
Opentrons Labworks, Inc., is a disruptive life science company leveraging its integrated lab platform to supercharge the pace of innovation in research and healthcare. Opentrons Labworks is the parent company to business units Opentrons Robotics and Neochromosome. Through Opentrons Robotics, thousands of institutions are automating R&D operations with flexible, easy-to-use liquid handling lab robots. Through Neochromosome, biopharma and biotech at large can benefit from our world-class genome-scale cell engineering solutions. Opentrons Robotics, a business unit of Opentrons Labworks, Inc., is the industry leader in flexible, user-friendly automation for life science labs. Our open-source ecosystem offers the scientific community the tools they need to automate experiments, share protocols and reproduce each other`s results. Opentrons robots can be found in thousands of academic, biopharma, synthetic biology and clinical research labs in more than 40 countries.
Elevation Oncology is founded on the belief that every patient living with cancer deserves to know what is driving the growth of their disease and have access to therapeutics that can stop it. We aim to make genomic tests actionable by selectively developing drugs to inhibit the specific alterations that have been identified as drivers of tumor growth. Together with our peers, we work towards a future in which each tumor`s unique genomic test result can be matched with a purpose-built precision medicine to enable an individualized treatment plan for each patient. Our lead candidate, seribantumab, is intended to inhibit tumor growth driven by NRG1 fusions and is currently being evaluated in the Phase 2 CRESTONE study for patients with solid tumors of any origin that have an NRG1 gene fusion.