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Broncus Medical, Inc. is a well-funded, commercial stage company based in San Jose, CA. The Company`s mission is to deliver navigation, diagnostic & therapeutic technologies to treat patients with lung disease. The Company has a comprehensive intellectual property portfolio with over 75 patents including those issued, licensed, and pending. Along with Broncus Medical`s focus on technological advancements, it is committed to providing outstanding value to patients, healthcare professionals, investors and employees.
Our vision is to become the leading innovative global life-sciences company that unlocks the potential of T-cell biology and combines it with the power of T-cell engineering excellence to provide cures for patients. Through our model of seamless and rapid integration of research, translational medicine, manufacturing science, clinical development and customer-centric approaches, we will design and deliver enhanced state-of-the-art solutions for patients in a host of disease areas using Chimeric Antigen Receptors (CARs), Gene edited T-Cells, T regulatory cells (Treg), and engineered T Cell Receptors (TCRs)
NuProbe brings together cutting-edge innovations in molecular engineering with leading scientific expertise and management to take on one of the world`s greatest challenges — non-invasive early detection of rare genetic variants in patients. NuProbe will take a multi-platform approach to apply these breakthrough technology capabilities in precision medicine to cancer diagnostics, NIPT, and infectious disease screening, building on scientific findings licensed by Wyss Institute, Harvard University.
Bicycle Therapeutics (NASDAQ: BCYC) is a clinical-stage biopharmaceutical company developing a novel class of medicines, referred to as Bicycles, for diseases that are underserved by existing therapeutics. Bicycles are fully synthetic short peptides constrained with small molecule scaffolds to form two loops that stabilize their structural geometry. This constraint facilitates target binding with high affinity and selectivity, making Bicycles attractive candidates for drug development. Bicycle is evaluating BT5528, a second-generation Bicycle Toxin Conjugate (BTC™) targeting EphA2; BT8009, a second-generation BTC targeting Nectin-4, a well-validated tumor antigen; and BT7480, a Bicycle TICA™ targeting Nectin-4 and agonizing CD137, in company-sponsored Phase I/II trials. In addition, BT1718, a BTC that targets MT1-MMP, is being investigated in an ongoing Phase I/IIa clinical trial sponsored by the Cancer Research UK Centre for Drug Development. Bicycle is headquartered in Cambridge, UK, with many key functions and members of its leadership team located in Lexington, MA.
Locus Biosciences` novel approach to precision antimicrobials works by taking advantage of an immune system present in many bacteria called the CRISPR-Cas system. The CRISPR-Cas system protects bacteria from invaders such as viruses by creating a small strand of RNA called a CRISPR RNA, which matches a DNA sequence specific to a given invader. If the CRISPR RNA is matched to a complementary DNA sequence, the Cas proteins will cleave the invading DNA.