Engineering of brick and staple components for ordered assembly of synthetic repeat proteins.

Synthetic ɑRep repeat proteins are engineered as Brick and Staple protein pairs that together self-assemble into helical filaments. In most cases, the filaments spontaneously form supercrystals. Here, we describe an expanded series of ɑRep Bricks designed to stabilize the interaction between consecutive Bricks, to control the length of the assembled multimers, or to alter the spatial distribution of the Staple on the filaments.

Design, synthesis, and characterization of protein origami based on self-assembly of a brick and staple artificial protein pair.

A versatile strategy to create an inducible protein assembly with predefined geometry is demonstrated. The assembly is triggered by a binding protein that staples two identical protein bricks together in a predictable spatial conformation. The brick and staple proteins are designed for mutual directional affinity and engineered by directed evolution from a synthetic modular repeat protein library.

Design of an artificial phage-display library based on a new scaffold improved for average stability of the randomized proteins.

Scaffold-based protein libraries are designed to be both diverse and rich in functional/folded proteins. However, introducing an extended diversity while preserving stability of the initial scaffold remains a challenge. Here we developed an original approach to select the ensemble of folded proteins from an initial library.

Biosynthetic proteins targeting the SARS-CoV-2 spike as anti-virals.

The binding of the SARS-CoV-2 spike to angiotensin-converting enzyme 2 (ACE2) promotes virus entry into the cell. Targeting this interaction represents a promising strategy to generate antivirals. By screening a phage-display library of biosynthetic protein sequences build on a rigid alpha-helicoidal HEAT-like scaffold (named αReps), we selected candidates recognizing the spike receptor binding domain (RBD).

An Artificial Hemoprotein with Inducible Peroxidase- and Monooxygenase-Like Activities.

A novel inducible artificial metalloenzyme obtained by covalent attachment of a manganese(III)-tetraphenylporphyrin (MnTPP) to the artificial bidomain repeat protein, (A3A3')Y26C, is reported. The protein is part of the αRep family. The biohybrid was fully characterized by MALDI-ToF mass spectrometry, circular dichroism and UV/Vis spectroscopies.