CD Biosynsis aims to deliver timely and precise computational enzyme design services to its customers. A computational enzyme model is a powerful protein engineering tool. By computer simulation and algorithm-optimisation, enzymes are developed with a certain catalytic activity, stability and selectivity. With the combination of computational chemistry and bioinformatics, this technology can now be used to make enzymes design less a trial-and-error exercise, and more predictive and optimisation computationally. Web: https://www.biosynsis.com/...
CD Biosynsis is fully engaged in providing customers around the world with satisfactory services and cost-effective solutions to promote the development of synthetic biology. Our scientific team is committed to helping our customers solve any problems encountered in their projects and bring diverse creative ideas to fruition.
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Rational protein design is a great challenge to our understanding of protein structure and physical chemistry. It has been widely used in numerous fields, including synthetic biology. Rational design is the most significant approach of protein engineering based on site-directed mutagenesis. The strategy is based on the relating structure to function, frequently via molecular modeling techniques. Rational design requires the knowledge of the amino acid sequence, 3D structure and function of the target protein. This method provides controllable amino acid sequence changes such as insertion, deletion, substitution, exchange of secondary structural elements, exchange of the entire domain, or fusion of enzymes to create new proteins.
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AI Guided Enzyme Design is a process that uses artificial intelligence and machine learning to design and improve enzymes. It combines computational methods, machine learning algorithms, and experimental validation for precise results. The use of AI in enzyme design process allows for a more efficient and quicker design of new enzymes, as well as the enhancement of existing ones. It can predict the structure and function of enzymes based on their sequence, removing a lot of the guesswork from enzyme design. It serves a crucial role in modern enzyme design, with the potential to create enzymes with novel functions that could not be achieved using traditional methods. For more information, please visit at: https://www.biosynsis.com/...
Experience the future of synthetic biology with our One-Stop Services, where innovation and convenience converge. From design to build, test, and learn, our platform covers every aspect of your synthetic biology project lifecycle—simplify your journey to groundbreaking discoveries with our unified, cutting-edge solutions.
https://www.biosynsis.com/