Author(s):
Synthetic biology has emerged as a transformative field, offering innovative strategies to design and engineer biomaterials with tailored properties for tissue engineering applications. By leveraging genetic programming, cellular machinery, and biomolecular engineering, synthetic biology enables precise control over the biochemical, mechanical, and structural attributes of biomaterials. This review highlights recent advancements in the integration of synthetic biology with biomaterial development, emphasizing applications such as scaffolds for tissue regeneration, bioactive materials for controlled cell signaling, and dynamic systems capable of adapting to physiological environments. Additionally, challenges and opportunities in this interdisciplinary domain are discussed, providing insights into future directions for creating next-generation biomaterials that closely mimic the complexity of native tissues
