Our advanced analytical and synthetic technology platforms combine innovative cell-free transcription/translation, precision biosensors, cutting-edge spectroscopy, and AI-powered analytics to provide unparalleled insights into biological systems, molecular functions, and synthetic gene circuits.
Leverage our adaptable cell-free gene expression systems to synthesize proteins and test complex genetic circuits in vitro without the constraints of living cells. These platforms enable rapid prototyping and functional validation of synthetic constructs, providing precise control over transcriptional and translational dynamics.
Our integrated biosensor and lab-on-chip devices utilize optical, impedance, and electrochemical detection modalities for real-time, label-free analysis of biomolecular interactions and cellular responses. These miniaturized systems enable high-throughput screening and precise mechanistic studies in physiologically relevant microenvironments.
Detailed structural and stability assessments are performed using Raman, infrared (IR), and circular dichroism (CD) spectroscopy, alongside thermal shift assays. These technologies provide critical data on biomolecular conformation, folding, ligand binding, and thermal resilience essential for drug design and formulation development.
Our cutting-edge AI-driven workflows automate and enhance the analysis of Western blots, qPCR, high-content imaging, and enzyme kinetics data. Implementing machine learning algorithms, we deliver accurate, reproducible quantification and predictive modeling, accelerating discovery and regulatory decision-making.
State-of-the-art cell-free synthetic biology platforms for rapid gene circuit testing.
Sensitive and miniaturized biosensor and microfluidic assays for real-time analysis.
Comprehensive spectroscopic and thermal techniques for structural integrity and stability.
Intelligent AI-powered data analysis ensuring robust workflow integration.
Tailored solutions across discovery, preclinical, and translational research.
