Bloomage Biotech pioneered the bioproduction of platform-level bioactive substances, beginning with hyaluronic acid. By integrating global advances in bioproduction research, we have driven three major technological advances in the field, based on fundamental bioactive substances such as hyaluronic acid. Through precision manufacturing, cost optimization, scale, and high-end product preparation technologies, we have established a foremost position in the global glycoscience field and become a key partner for leading universities, research institutions, top hospitals, pharmaceutical companies, and Fortune 500 enterprises in related fields worldwide.
After mastering advanced technology for precise molecular weight control of high-quality hyaluronic acid, Bloomage Biotech leveraged collaborations with global universities, research institutions, and pharmaceutical companies to conduct reverse research. This expanded our research into emerging areas of cell biology and glycobiology, including aging intervention and tissue regeneration. Based on the critical role of glycan-based biomaterials in cell differentiation and signaling mechanisms, our research scope expanded from the extracellular matrix (ECM), where hyaluronic acid is located, to cell-to-cell communication and the cells themselves, establishing three core research pillars.
Bloomage Biotech has applied the capabilities of the world's largest synthetic biological manufacturing platform, accumulated over 25 years, to commercialize research across these three areas. We focus on precision manufacturing of key bioactive compounds related to human health and beauty, and explore their industrial applications in anti-aging intervention and tissue regeneration. The key substances in these three sectors include:
• Extracellular Matrix: Hyaluronic acid and derivatives, chondroitin sulfate, collagen peptides, poly-gamma-glutamic acid, and antimicrobial peptides
• Intercellular Signaling: Precision molecular weight hyaluronic acid, heparin, human milk oligosaccharides (HMOs), polynucleotides (PDRN), and GABA
• Intracellular: Ergothioneine, pyrroloquinoline quinone (PQQ), and salidroside