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Life Biosciences was co-founded in 2017 by David Sinclair, PhD, a professor in the Department of Genetics at Harvard Medical School, and Tristan Edwards, who developed its innovative structure as Chapter Two in his life, after a highly successful career as a global institutional investor, working across all asset classes. The company`s novel Daughter company business model creates the robust research ecosystem required to forge industry leadership through two investment strategies. The first is to establish new companies, thereby extending the research of visionary scientists around the world. Secondly, Life Biosciences invests in other groundbreaking firms, providing them with the resources to maximize their potential. In addition to Lua, there are six Daughter companies working independently and together within the Life Biosciences research environment. The company provides Daughter companies with the resources required to maximize human potential, including Lua`s AI-driven data and communications platform, experienced management, drug development experience, and a 25,000 square foot, state-of-the-art vivarium, robotics and drug screening facility in Cambridge, Mass, augmented by laboratories and offices on four continents. Co-founded in 2017 by David Sinclair, PhD, AO, and Tristan Edwards, Life Biosciences is the first and largest biotech company addressing the eight pathways of age-related decline (ARD) in totality. It has established Daughter companies around the world, led by a Dream Team of respected scientists, to independently and collaboratively attack these pathways through pioneering research and product development. The company provides Daughter companies with resources to maximize human potential, including Lua`s AI-driven data and communications platform, drug development experience, and a 25,000 square foot, state-of-the-art vivarium, robotics and drug screening facility. Life Biosciences seeks to increase healthspans for everyone, including companion animals, by addressing the systemic breakdown of the body, rather than as a series of isolated symptoms and conditions.
Sapience Therapeutics is a preclinical-stage biotechnology company focused on advancing novel therapeutics for major unmet medical needs, particularly high mortality cancers. Our drug development program involves translating science into novel therapies, and our initial goal is to develop a first-in-class treatment for glioblastoma multiforme (GBM), which is the most severe and deadly form of brain cancer.
We are a precision medicines company looking to eliminate the “all comer” approach that is seen with today`s treatments for people with autoimmune disease. We are leveraging a precision analytics platform, powered by Foresite Labs, coupled with a team of experts with deep experience in precision medicine drug development and immunology, in order to create medicines that change the lives of people with autoimmune disease.
Affinor Growers are excited to bring you fresh, non-GMO, delicious food grown in pristine environments without pesticides or chemicals. We are building facilities to grow dark, leafy green vegetables such as Spinach and Lettuce with near zero-water waste. We are an industry leader growing water-fed, nutrient rich strawberries. Affinor will grow in a safe, secure environment with focus on analytical results. Our scientists are always exploring new ways to produce high quality, premium medical marihuana strains and plants for medicinal purposes. Patients will appreciate the pain relieving quality and safety of our trusted products.
We are a genome editing company developing genetic medicines for the fight against rare pediatric diseases. GeneRide™ is a promoterless and nuclease-free approach to gene insertion which may improve the safety profile of AAV based gene therapies With GeneRide™, the therapeutic gene is site-specifically integrated into the genome allowing durable gene expression in dividing cells and mature tissues. Furthermore, therapeutic gene expression is regulated by the targeted locus so production can be limited to specific cell types.