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Create a company profileHarvestone Low Carbon Partners (HLCP) is a midwestern biofuels enterprise that owns Blue Flint, a 73 million gallon per year biorefinery in operation since 2007 near Underwood, North Dakota; Dakota Spirit, a 75 million gallon per year biorefinery in operation since 2015 near Spiritwood, North Dakota; and Iroquois Bio Energy Company, a 50 million per year biorefinery in operation since 2007 at Rensselaer, Indiana. Together, with our partners, we are building a renewable energy future for our country, creating value for local producers, and bringing prosperity to our communities. Together with our partners, we are building a renewable energy future for the country, increasing value for North Dakota farmers, and bringing prosperity to our communities.
Invicro was founded with a mission of improving the role and function of imaging in translational drug discovery and development. To this effort we offer a suite of services and software with applications ranging from tissue to human, from target identification to Phase IV trials across the entire electromagnetic spectrum of imaging techniques. We start all projects with a data-driven mentality and the knowledge that quality data are the key to solving scientific challenges. Our analytics team is constantly innovating to develop the processes by which true and valuable quantitative information is extracted. Our approach has always been one of a scientific partner and collaborator, offering the service of our 200+ researchers on our team from a broad array of disciplines.
Aviva Systems Biology provides polyclonal and monoclonal antibodies for research needs.
We provide researchers world-wide with top-quality monoclonal antibodies
G-CON Manufacturing, Inc.’s prefabricated, turnkey cleanroom systems represent a significant transition to forward thinking in pharmaceutical and biopharmaceutical processing. G-CON Manufacturing, the innovator of autonomous cleanroom PODs, turned the challenges experienced by the biopharmaceutical industry into readily deployable, flexible, mobile and scalable cleanroom solutions. PODs are ideal for multi-product sites, rigorous containment needs, and on demand scaling of production and laboratory space. Building on its first design in 2009, G-CON now has a wide array of cleanroom PODs in their product portfolio to accommodate the increased demand from the pharmaceutical, biopharmaceutical and cell therapeutic industries. Moreover, G-CON’s patent portfolio continues to grow which will effectively preclude imitators from copying G-CON’s initial and more recent innovations. At G-CON, we will continue to evolve and grow with the industry to provide a comprehensive cleanroom solution that truly is flexible, scalable and fast, all for a fair and known price from the time the contract is signed.
Mindera Health™ is commercializing scalable extraction technology and data analysis to report a patient’s individual transcriptomic data. Mindera’s technology creates Dermal Intelligence™, actionable information for payers, providers and patients. The company’s flagship test, Mind.Px, uses both a dermal biomarker patch and Machine Learning to determine a patient’s receptivity to very expensive psoriasis biologics. This information is valuable to payers, who can save thousands of dollars per biologic patient using Mind.Px at the outset of prescription. Mind.Px is the first test in a large planned product pipeline, including psoriatic arthritis and eczema biologic receptivity.
Longevity Biotech develops a new class of therapeutics via artificial protein technology that focuses on pharmaceutical preparation.
HealthPlan Data Solutions, through its fully-owned subsidiary Rx-Xchange, helps patients and caregivers pay less for medications.
Arbor Biotechnologies is an early stage life sciences company pushing the boundaries of biodiscovery. Arbor’s platform employs a diverse set of technologies and techniques – including artificial intelligence, genome sequencing, gene synthesis and high-throughput screening – for accelerating the discovery of proteins for improving human health and sustainability.
PharmaEssentia Corporation is a rapidly growing biopharmaceutical innovator. We are leveraging deep expertise and proven scientific principles to deliver effective new biologics for challenging diseases in the areas of hematology and oncology, with one product approved in The United States and a diversifying pipeline. We believe in the potential to improve both health and quality of life for patients with limited options today through the combination of rigorous research and innovative thinking. Founded in 2003 by a team of Taiwanese-American executives and renowned scientists from U.S. biotechnology and pharmaceutical companies, today we are listed on the Taipei Exchange (TPEx: 6446) and are expanding our global presence with operations in the U.S., Japan, South Korea and China, along with a world-class biologics production facility in Taichung. See our community guidelines: bit.ly/PECcommunity
Lycia is a Series B biotech company building upon the novel platform developed by academic founder Professor Carolyn Bertozzi at Stanford University to develop LYTAC (lysosomal targeting chimera) protein degraders that harness the cell’s lysosomal trafficking and degradation pathway to target both soluble and membrane-bound extracellular proteins. Applications of the LYTAC platform include: targeting challenging membrane proteins, clearing pathogenic immune complexes in circulation and depleting antibodies to specific antigens of interest. The platform can potentially deliver next-generation therapeutics to address a range of difficult-to-treat diseases, including cancer and autoimmune diseases.
BostonGene Corporation is pioneering the use of biomedical software for advanced patient analysis and personalized therapy decision making in the fight against cancer. BostonGene’s unique solution performs sophisticated analytics to aid clinicians in their evaluation of viable treatment options for each patient's individual genetics, tumor and tumor microenvironment, clinical characteristics and disease profile. BostonGene’s mission is to enable physicians to provide every patient with the highest probability of survival through optimal cancer treatments using advanced, personalized therapies
MEI Pharma is a San Diego-based clinical-stage pharmaceutical company committed to the development and commercialization of novel, best-in-class, cancer therapies intended to improve outcomes for patients. Our approach is to fully understand and leverage the mechanisms and properties of our drug candidates to optimize the balance between efficacy and tolerability to best meet the needs of patients with cancer. Each of our pipeline candidates has a unique mechanism of action that can target pathways involved in driving various hematological malignancies and/or solid tumors. Zandelisib (formerly called ME-401) is in multiple ongoing clinical trials evaluating patients with B-cell malignancies intended to support marketing approvals with the FDA and other regulatory authorities globally. Voruciclib, a potent inhibitor of CDK9, is a clinical stage drug candidate being explored in combination with standard therapies for the treatment of hematologic malignances and solid tumors. ME-344, a mitochondrial inhibitor, is a clinical stage drug candidate being evaluated for the treatment of solid tumors. We are committed to pursuing our company mission in a manner that upholds our workplace values of dedication, shared commitment, personal accountability, mutual trust and fiscal discipline. Interested in joining our team of friendly, dedicated, experienced and collaborative professionals? Visit meipharma.com/careers for more details.
Oxeia Biopharmaceuticals is a clinical stage biotech company.
Danaher is a global science and technology innovator committed to helping their customers solve complex challenges and improve quality.
MyChem is specialized in making ultra pure nucleotides.
InfraScan is a medical device company.
Scholar Rock is a biopharmaceutical company that discovers, develops, and delivers life-changing therapies for people with serious diseases that have high unmet need. As a global leader in the biology of the transforming growth factor beta (TGFβ) superfamily of cell proteins and named for the visual resemblance of a scholar rock to protein structures, the clinical-stage company is focused on advancing innovative treatments where protein growth factors are fundamental. Over the past decade, the company has created a pipeline with the potential to advance the standard of care for neuromuscular disease, cardiometabolic disorders, cancer, and other conditions where growth factor-targeted drugs can play a transformational role. Scholar Rock is the only company to show clinical proof of concept for a muscle-targeted treatment in spinal muscular atrophy (SMA). This commitment to unlocking fundamentally different therapeutic approaches is powered by broad application of a proprietary platform, which has developed novel monoclonal antibodies to modulate protein growth factors with extraordinary selectivity. By harnessing cutting-edge science in disease spaces that are historically under-addressed through traditional therapies, Scholar Rock works every day to create new possibilities for patients. Learn more about the company’s approach at ScholarRock.com and follow @ScholarRock and on LinkedIn. For additional information on our guidelines, please visit https://scholarrock.com/community-guidelines/ For more information on how Scholar Rock collects, uses, and shares personal information, please visit: https://scholarrock.com/privacy-policy
Cmxtwenty focuses on developing lipid compounds for use in non-narcotic pain treatment.
GenEdit is focused on overcoming the major challenge to genetic medicines: Delivery. We aim to overcome this limitation and enable treatment of a broad range of diseases, having a positive impact on the lives of as many people as possible. The foundation of our company is our NanoGalaxy platform. NanoGalaxy contains a library spanning thousands of unique non-viral, non-lipid, polymer nanoparticles. Using our iterative screening process, we are able to identify polymer nanoparticles that can deliver the needed genetic medicine payload to the needed tissue to treat disease. We are focusing our research on the treatment of diseases for which our delivery technology can enable therapeutic options that otherwise may not be possible. We are developing an internal pipeline of therapeutic candidates to treat a range of diseases with high unmet medical need.