| Name | Title | Contact Details |
|---|---|---|
Nathan Haas |
Chief Financial Officer | Profile |
Intellikine is a La Jolla, CA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Tasso is changing the way that care is delivered with simple, virtually painless, clinical-grade diagnostic testing that can be done from home.
Bamboo was formed to advance the work of Dr. Richard Jude Samulski, the Director of the Gene Therapy Center at the University of North Carolina (UNC), from the laboratory into human clinical trials where it could meet the requirements for drug approval. Dr. Samulski is a pioneer in the field of gene therapy. Over thirty (30) years ago, Dr. Samulski was the first person to realize the potential to use the adeno-associated virus (AAV) as a vehicle to replace a defective gene with a healthy gene. Since that time, he has re-engineered the naturally occurring virus to target delivery to certain tissues, de-target other tissues, and improve its safety. This has resulted in over twenty (20) patents related to the use of AAV for therapeutic uses. Dr. Samulski continues to lead innovation in the field of vector optimization and AAV re-engineering.
Eleven Therapeutics is at the forefront of mRNA therapeutics innovation, harnessing combinatorial chemistry, synthetic biology, and artificial intelligence to develop next-generation therapies. The company`s pipeline includes extended-release mRNA therapeutics (xRNA) targeting unmet medical needs in metabolic, hematologic, and infectious disease areas. Proprietary high-throughput screening platforms, TERA™ and DELiveri™, underpin Eleven Therapeutics` pipeline by generating chemically modified xRNAs and cell-penetrating delivery carriers. Founded in 2020 by world-leading scientists across Cambridge (UK), Boston (US), and Tel Aviv (Israel), Eleven Therapeutics is supported by top-tier venture capitalists and the Bill & Melinda Gates Foundation.
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.