livMatS Colloquium | Dr. Martina Delbianco (Max Planck Institute of Colloids and Interfaces) | Carbohydrate foldamers and assemblies

Abstract
Natural biopolymers have inspired the development of synthetic analogues – i.e. foldamers – capable of adopting defined conformations and forming programmable three-dimensional architectures. These compounds are mainly based on peptides and nucleic acids, that are well understood at the molecular level. In contrast, synthetic carbohydrates capable of adopting defined geometries were never explored.
In the Delbianco group, we rationally design glycans adopting stable secondary structures, challenging the common belief that glycans are not capable of folding due to their flexibility. For example, by combining natural glycan motifs, we created a glycan hairpin, a secondary structure not present in nature. Moreover, we designed glycan sequences that assemble into programmable supramolecular architectures, from fibers and particles to hydrogels. We anticipate that carbohydrate foldamers and assemblies may find applications in areas across materials science, biology, and catalysis.

Biography
Martina Delbianco studied chemistry at the University of Milan (Italy). She then moved to Durham University (UK) to pursue a PhD under the supervision of Prof. David Parker. During her post doc, she explored automated synthesis of carbohydrates in the group of Prof. Peter Seeberger at the Max Planck Institute for Colloids and Interfaces, MPIKG (Germany). Since 2018, Martina is the group leader of the Carbohydrate Materials at the MPIKG, supported by the BMBF and the ERC starting grant. In 2022, she got promoted to W2 research group leader, a tenured position equivalent to associate professor.