Strathclyde’s Dr Tell Tuttle and Professor Rein Ulijn, the director of nanoscience at City University New York’s new advanced research centre who also holds a position at Strathclyde, believe their team’s breakthrough dramatically simplifies discovery of functional gels that can be used in a wide range of applications.
Until now, discovery of new gels relied largely on chance discoveries. They developed a screening method to accurately predict how peptides – the building blocks of living systems – could combine to form stable gels.
Professor Ulijn said, “It is our aim to design structures based on peptides that are inspired by biology, but are much simpler, making them scalable, tunable, robust and functional and we now have predictive methods to achieve this.
“The number of possible sequences of amino acids is huge, meaning it is not feasible to test them all – previously limiting the discovery of new candidate peptides for specific applications.”
Prior to this discovery, there was no way to reliably predict whether a particular peptide – e.g. a tripeptide composed of three amino acids – would form a structure, such as a biological gel, and scientists would rely on chance or time-consuming individual experiments of each one.
Dr Tuttle said, “There are 8,000 possible tripeptides and we have developed computational methods to predict which of these could be used to develop materials with desirable properties.
“These methods led to the discovery of a new family of simple tripeptides that are able to form hydrogels at neutral pH. These materials are much simpler compared to the gels of biological systems but they have some interesting properties that may be exploited in various areas, such as cell culture and ingredients for cosmetics.”
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Read the original article at University of Strathclyde: ‘Breakthrough simplifies design of gels for food, cosmetics and biomedicine‘
The Nature article is available to view in full here.