Unit

Laboratory of Therapeutic Proteins and Peptides

Laboratory

Summary

The Laboratory of Therapeutic Protein and Peptides at EPFL focuses on developing new therapeutics based on cyclic peptides. They specialize in in vitro evolution of bicyclic peptides using phage display technology and high-throughput synthesis of macrocycles. The ultimate goal is to address unmet medical needs by developing drugs that can engage with challenging protein targets. Recent publications include the development of small cyclic peptides that are orally bioavailable, high-affinity peptides against calprotectin, and the synthesis of large macrocycle diversities. The lab actively participates in various international conferences and symposiums related to peptide therapeutics and drug discovery.

Official source

https://lppt.epfl.ch

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Related people (9)

Christian Heinis, Aurélien Bornet, Inmaculada Rentero Rebollo, Xinjian Ji, Chloé Rogg, Anne Sofie Luise Zarda, Lisa Patricia Elisabeth Bader, Pauline Skigin, Yu Teng Wu

Related publications (474)

Methods for high-throughput synthesis and screening of peptide libraries

Zsolt Bognár

Macrocycles provide an attractive modality for drug development but the identification of ligands to targets of interest is hindered by the lack of large macrocyclic compound libraries for high-throughput screening. A strategy to efficiently synthesize lar ...

EPFL2024

Large Libraries of Structurally Diverse Macrocycles Suitable for Membrane Permeation

Christian Heinis, Xinjian Ji, Edward Jeffrey Will, Anne Sofie Luise Zarda, Alessandro Angelini, Alexander Lund Nielsen, Manuel Leonardo Merz, Mischa Schüttel, Ganesh Kumar Mothukuri, Zsolt Bognár

Macrocycles offer an attractive format for drug development due to their good binding properties and potential to cross cell membranes. To efficiently identify macrocyclic ligands for new targets, methods for the synthesis and screening of large combinator ...

Wiley-V C H Verlag Gmbh2024

Aptamer-Functionalized Interface Nanopores Enable Amino Acid-Specific Peptide Detection

Nako Nakatsuka, Xinyu Zhang, Haiying Hu

Single-molecule proteomics based on nanopore technology has made significant advances in recent years. However, to achieve nanopore sensing with single amino acid resolution, several bottlenecks must be tackled: controlling nanopore sizes with nanoscale pr ...

2024

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