StrainSyn Biotech was founded to translate cutting-edge biological research into scalable, real-world biomanufacturing solutions. The company integrates computational biology, synthetic biology, and fermentation science to develop next-generation microbial platforms.
As a deep-tech biotechnology startup focused on synthetic biology, microbial strain engineering, and precision fermentation, we develop scalable and sustainable biological solutions for healthcare, industrial biotechnology, agriculture, and environmental applications.
• Engineer robust microbial platforms using synthetic and systems biology
• Enable cost-effective and scalable biomanufacturing
• Accelerate translation from proof-of-concept to pilot scale
• Support national and global goals in green and circular bioeconomy
To become a globally trusted biotechnology innovation partner enabling sustainable, scalable, and intelligent biological manufacturing.
Built on strong expertise in genomics, bioinformatics, and metabolic engineering, StrainSyn Biotech bridges the gap between academic innovation and translational biomanufacturing.
Cutting-edge computational biology and genomic analysis capabilities for biological discovery and process optimization.
Machine learning and AI technologies integrated into strain design and optimization processes.
End-to-end fermentation solutions from laboratory to pilot scale with optimized processes.
Supporting proof-of-concept development, validation, and early-stage scale-up across technology readiness levels.
Computational biologist and synthetic biology researcher with 15+ years of experience in genomics, bioinformatics, transcriptomics, and bioprocess innovation, with strong experience in grant-driven and translational R&D.
Strong foundation in synthetic biology, genomics, and bioinformatics.
Women-led, research-driven innovation with strong expertise in computational biology and synthetic biology.
End-to-end capability: design → build → validate → scale.
Aligned with BioE3 policy, circular bioeconomy, and sustainability goals, prioritizing renewable feedstocks and reduced carbon footprint.
