A new revolutionary method accelerates the development of sustainable biomaterials from years to minutes
Press release 15 May 2024
A groundbreaking study, published in the scientific journal Advanced Materials, on 6 May 2024, led by researchers of VTT Technical Research Centre of Finland, introduces a transformative approach that integrates synthetic biology with advanced machine learning and computational techniques to significantly accelerate the development of new biomaterials. This method reduces the material development timeline from years to mere minutes, promising rapid advancements in medical and industrial applications.
"By leveraging the power of AI and synthetic biology, we have managed to fine tune and dramatically speed up the design process of new protein-based materials, allowing for the rapid development of biomaterials with tailored functionalities, achieving what used to take years in just months, with the potential to further reduce this time to minutes,” says Pezhman Mohammadi, VTT’s Senior Research Scientist and the head of the study.
By utilising machine learning algorithms, VTT’s research team was able to efficiently sift through thousands of protein structures to pinpoint the most promising candidates for laboratory synthesis.
Accelerating high-demand applications, such as smart materials
The new high-performance, protein-based biomaterials developed through this method are expected to replace fossil-based materials and bring game-changing properties for high-demand applications, such as medicinal injectables and smart materials to name a few. The research showcased the effective use of hybrid biomimetic and de novo design strategies, combining insights from nature’s own design capabilities to create innovative materials from scratch.
"Synthetic biology enables production of complicated structures present in nature. Through this approach, we are not only replicating the extraordinary properties of natural materials but also enhancing them to meet specific functional needs, going one step beyond the evolution. The ability to quickly produce materials with customised properties opens new horizons for innovation in biotechnology and materials science," says Pezhman.
The publication in Advanced Materials marks a significant milestone in the multidisciplinary field of material biotechnology and showcases the potential of integrated sciences in solving complex global challenges. The research team, including collaborators from VTT, the Polish Academy of Sciences, Temple University, Nanyang Technological University and Aalto University, brings diverse expertise in biology, chemistry, physics, data science, machine learning, AI and computational science. Together, they continue to refine these innovative techniques and expand their applications in the near future.
“As we move forward, we envision that the fusion of biotechnology, biorefinery processes, automation, synthetic biology, as well as the pivotal roles of machine learning and AI - all underpinned by biointelligence - will dramatically transform manufacturing. This comprehensive approach enables the rapid, precise design and production of biomaterials, leveraging automation to streamline and scale operations efficiently. Convergence of all these technologies not only accelerates innovation but also enables a radical shift towards more customised, sustainable production methods across various sectors, which offer tailored solutions with minimal environmental impact, revolutionising industry practices,” says Pezhman.
The study, titled Accelerated Engineering of ELP-based materials through Hybrid Biomimetic-De Novo predictive moledular design and published in Advanced Materials on 6 May, 2024, demonstrates how the collaboration of experts from diverse fields, including synthetic biology, artificial intelligence, molecular dynamics simulation and more, has led to the creation of new biomaterials that are both sustainable and highly functional.
Further information
VTT Technical Research Centre of Finland
Mohammadi Pezhman, Senior Research Scientist
pezhman.mohammadi@vtt.fi, tel. +358 401637835
Photo: Snapshots from the molecular dynamic simulation showing the programable self-assembly of the protein at the molecular scale.
Figure: De novo design.
Further information on VTT:
Paula Bergqvist, Senior Specialist, Communications
+358 20 722 5161, paula.bergqvist@vtt.fi
www.vttresearch.com
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