Biofunctionality with a twist: The importance of molecular organisation, handedness and configuration in synthetic biomaterial design

SIS Hendrikse; R Contreras-Montoya; AV Ellis; P Thordarson; JW Steed

Journal article

Biofunctionality with a twist: The importance of molecular organisation, handedness and configuration in synthetic biomaterial design

SIS Hendrikse, R Contreras-Montoya, AV Ellis, P Thordarson, JW Steed

Chemical Society Reviews | Published : 2022

DOI: 10.1039/d1cs00896j

Abstract

The building blocks of life-nucleotides, amino acids and saccharides-give rise to a large variety of components and make up the hierarchical structures found in Nature. Driven by chirality and non-covalent interactions, helical and highly organised structures are formed and the way in which they fold correlates with specific recognition and hence function. A great amount of effort is being put into mimicking these highly specialised biosystems as biomaterials for biomedical applications, ranging from drug discovery to regenerative medicine. However, as well as lacking the complexity found in Nature, their bio-activity is sometimes low and hierarchical ordering is missing or underdeveloped. M..

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University of Melbourne Researchers

Amanda Ellis Author

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Grants

Awarded by University of Melbourne

Funding Acknowledgements

This work was supported by funding from the Australian Research Council (ARC), Discovery Projects (DP190100055, SISH and AVE) and (DP190101892, PT), the McKenzie Fellowship from the University of Melbourne (SISH), and the Engineering and Physical Sciences Research Council (EP/S035877/1, RC-M and JWS).