Technology Innovation

Molecular design has become a pillar of synthetic biology, propelling biomanufacturing to an advanced level. Biocreatech's molecular design technology focuses on biological macromolecules such as RNA and proteins. Among them, protein molecular design integrates protein structure modeling, machine learning, and innovative algorithms for function prediction to establish an accurate correlation between protein structure and function, significantly improving the efficiency of protein design. Our protein molecular machine technology efficiently achieves synergistic effects by controlling the spatial positions and dynamic interactions between multiple protein molecules and thereby enhances the efficiency of comprehensive biosynthesis.

Biocreatech innovatively applies molecular design to the biosynthesis of RNA, functional proteins, and bulk raw materials, providing high-performance products for skin health, precision medicine, and green industries. We believe that molecular design will continue to break the boundaries between life and engineering, driving the rapid development of biomanufacturing toward high performance and sustainability.

Artificial Intelligence (AI) is leading synthetic biology into a new age. Through deep learning, predictive modeling, and big data analytics, it enables the precise design and optimization of biological systems. AI-driven prediction of protein structure and function greatly shortens the protein design cycle and improves success rate of design, thereby accelerating the R&D of biological macromolecules such as functional proteins and RNA.

Biocreatech integrates artificial intelligence (AI) and our automated high throughput screening platform, achieving end-to-end intelligence in the entire process ranging from product design to validation. In cell engineering, it rapidly optimizes metabolic pathways and regulatory networks, endowing engineered cells with unprecedented and superior functions. We embrace the scientific momentum and innovative potential that AI brings to synthetic biology, accelerating the widespread application of high-performance products in skin health, precision medicine, and green manufacturing.

The key technologies of cell engineering include gene editing (e.g., CRISPR/Cas systems), synthetic pathway design, and regulatory network optimization. By combining high-throughput screening with artificial intelligence, precise regulation of cellular metabolism and functions is achieved. These technologies greatly enhance the efficiency and design flexibility of cellular engineering, making it a powerful tool in synthetic biology.

Biocreatech has achieved highly customized and controllable cell engineering in the fields of cellular synthesis of proteins and RNA, as well as green manufacturing. It promotes innovation in multi-field ranging from macromolecule synthesis to green synthesis of bulk commodities, laying a solid foundation for the large-scale application of sustainable and efficient modern biomanufacturing.

Precision fermentation technology harnesses both high-efficiency cell factories enabled by cell engineering and advanced sensing equipment and intelligent control technologies, upgrading traditional fermentation to intelligent fermentation. This fundamentally changes the "black-box" operation mode of traditional fermentation, achieving a fundamental transformation of fermentation technology from experience-driven to data-driven, and from passive control to intelligent optimization.

Biocreatech integrates high-precision online equipment, big data, artificial intelligence, and digital twin technology to build an intelligent control platform for precision fermentation, thereby significantly improving the yield, purity of target products and the environmental adaptability of production. We have achieved precise control of large-scale fermentation and are continuously improving our precision fermentation system on an industrial scale.