Michael Nash - NCCR MSE

Michael Nash

Department of Chemistry, University of Basel

Project Leader

Publications

R. Vanella, G. Kovacevic, V. Doffini, J. Fernández de Santaella, M. Nash “High-throughput screening, next generation sequencing and machine learning: advanced methods in enzyme engineering“ Chem. Commun. 2022. [DOI]
H. Liu, R. A. Moreira, A. Dujmović, B. Yang, A. B. Poma, M. Nash “Mapping Mechanostable Pulling Geometries of a Therapeutic Anticalin/CTLA-4 Protein Complex“ Nano Lett. 2022. [DOI]
M. S. Santos, H. Liu, V. Schittny, R. Vanella, M. Nash “Correlating Single-molecule Rupture Mechanics with Cell Population Adhesion by Yeast Display of Monomeric Streptavidin“ Biophys. Rep. 2021. [DOI]
B. Yang, Z. Liu, R. Doenen, M. Nash “Influence of Fluorination on Single-Molecule Unfolding and Rupture Pathways of a Mechanostable Protein Adhesion Complex“ Nano Lett. 2020. [DOI]
H. Liu, V. Schittny, M. Nash “Removal of a Conserved Disulfide Bond Does Not Compromise Mechanical Stability of a VHH Antibody Complex“ Nano Lett. 2019. [DOI]
H. Liu, D. T. Ta, M. Nash “Mechanical Polyprotein Assembly Using Sfp and Sortase-Mediated Domain Oligomerization for Single-Molecule Studies“ Small Methods 2019. [DOI]
R. Vanella, D. T. Ta, M. Nash “Enzyme-mediated hydrogel encapsulation of single cells for high-throughput screening and directed evolution of oxidoreductases“ Biotechnol. Bioeng. 2019. [DOI]
R. Vanella, A. Bazin, D. T. Ta, M. Nash “Genetically encoded stimuli-responsive cytoprotective hydrogel capsules for single cells provide novel genotype-phenotype linkage“ Chem. Mater. 2019. [DOI]
D. T. Ta, R. Vanella, M. Nash “Bioorthogonal Elastin-like Polypeptide Scaffolds for Immunoassay Enhancement“ ACS Appl. Mater. Interfaces 2018. [DOI]
H. Liu, D. T. Ta, M. Nash “Mechanical Polyprotein Assembly Using Sfp and Sortase‐Mediated Domain Oligomerization for Single‐Molecule Studies“ Small Methods 2018. [DOI]
D. T. Ta, R. Vanella, M. Nash “Magnetic separation of elastin-like polypeptide receptors for enrichment of cellular and molecular targets“ Nano Lett. 2017. [DOI]