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© Ce graphique présente, pour chaque date d'observation depuis 2018, le taux d'accès ouvert des publications scientifiques de l'Institut Pasteur, avec un DOI Crossref, parues durant l'année précédente.
Publication : ChemBioChem

Controlled E. coli Aggregation Mediated by DNA and XNA Hybridization

Team: Bioorganic chemistry of nucleic acids
Member: Marcel Hollenstein
Scientific Fields
Diseases
Organisms
Applications
Technique

Published in ChemBioChem - 28 Aug 2023

Cécile Gasse,* Puneet Srivastava, Guy Schepers, Joachim Jose, Marcel Hollenstein, Philippe Marlière, and Piet Herdewijn*

ChemBioChem 2023, 24, e202300191

Chemical cell surface modification is a fast-growing field of research, due to its enormous potential in tissue engineering, cell-based immunotherapy, and regenerative medicine. However, engineering of bacterial tissues by chemical cell surface modification has been vastly underexplored and the identification of suitable molecular handles is in dire need. We present here, an orthogonal nucleic acid-protein conjugation strategy to promote artificial bacterial aggregation. This system gathers the high selectivity and stability of linkage to a protein Tag expressed at the cell surface and the modularity and reversibility of aggregation due to oligonucleotide hybridization. For the first time, XNA (xeno nucleic acids in the form of 1,5-anhydrohexitol nucleic acids) were immobilized via covalent, SNAP-tag-mediated interactions on cell surfaces to induce bacterial aggregation.