ID
|
Author
|
Year
|
Title
|
Publisher
|
4493036 |
Ta, Duy Tien; Vanella, Rosario; Nash, Michael A. |
2018 |
Bioorthogonal Elastin-like Polypeptide Scaffolds for Immunoassay Enhancement |
ACS Applied Materials and Interfaces |
4658263 |
Risser, Fanny; López-Morales, Joanan; Nash, Michael A. |
2022 |
Adhesive Virulence Factors of Staphylococcus aureus Resist Digestion by Coagulation Proteases Thrombin and Plasmin |
ACS Bio & Med Chem Au |
4194263 |
Ott, Wolfgang; Jobst, Markus A.; Bauer, Magnus S.; Durner, Ellis; Milles, Lukas F.; Nash, Michael A.; Gaub, Hermann E. |
2017 |
Elastin-like Polypeptide Linkers for Single-Molecule Force Spectroscopy |
ACS Nano |
4194229 |
Durner, Ellis; Ott, Wolfgang; Nash, Michael A.; Gaub, Hermann E. |
2017 |
Post-translational Sortase-mediated Attachment of High-strength Force Spectroscopy Handles |
ACS Omega |
4611314 |
Urosev, Ivan; Lopez Morales, Joanan; Nash, Michael A. |
2020 |
Phase Separation of Intrinsically Disordered Protein Polymers Mechanically Stiffens Fibrin Clots |
Advanced Functional Materials |
3691611 |
Ott, Wolfgang; Nicolaus, Thomas; Gaub, Hermann E.; Nash, Michael A. |
2016 |
Sequence-Independent Cloning and Post-Translational Modification of Repetitive Protein Polymers through Sortase and Sfp-Mediated Enzymatic Ligation |
Biomacromolecules |
4616627 |
Nash, Michael A. |
2020 |
Zig Zag AFM Protocol Reveals New Intermediate Folding States of Bacteriorhodopsin |
Biophysical journal |
4658274 |
Santos, Mariana Sá; Liu, Haipei; Schittny, Valentin; Vanella, Rosario; Nash, Michael A. |
2022 |
Correlating single-molecule rupture mechanics with cell population adhesion by yeast display |
Biophysical reports |
4658272 |
Risser, Fanny; Urosev, Ivan; López-Morales, Joanan; Sun, Yang; Nash, Michael A. |
2022 |
Engineered Molecular Therapeutics Targeting Fibrin and the Coagulation System: a Biophysical Perspective |
Biophysical reviews |
4509211 |
Vanella, Rosario; Ta, Duy Tien; Nash, Michael A. |
2019 |
Enzyme-mediated hydrogel encapsulation of single cells for high-throughput screening and directed evolution of oxidoreductases |
Biotechnology and bioengineering |
4638133 |
Huo, Zihe; Sá Santos, Mariana; Drenckhan, Astrid; Holland-Cunz, Stefan; Izbicki, Jakob R.; Nash, Michael A.; Gros, Stephanie J. |
2021 |
Metastatic Esophageal Carcinoma Cells Exhibit Reduced Adhesion Strength and Enhanced Thermogenesis |
Cells |
4493037 |
Lewis, Daniel D.; Vanella, Rosario; Vo, Christopher; Rose, Lesilee; Nash, Michael; Tan, Cheemeng |
2018 |
Engineered Stochastic Adhesion Between Microbes as a Protection Mechanism Against Environmental Stress |
Cellular and Molecular Bioengineering |
4642277 |
Vanella, Rosario; Kovacevic, Gordana; Doffini, Vanni; de Santaella, Jaime Fernandez; Nash, Michael A. |
2022 |
High-throughput screening, next generation sequencing and machine learning: advanced methods in enzyme engineering |
Chemical Communications |
4495264 |
Vanella, Rosario; Bazin, Alfred; Ta, Duy Tien; Nash, Michael A. |
2019 |
Genetically encoded stimuli-responsive cytoprotective hydrogel capsules for single cells provide novel genotype-phenotype linkage |
Chemistry of Materials |
4611318 |
Nash, Michael A. |
2020 |
Single-molecule and Single-cell Approaches in Molecular Bioengineering |
Chimia |
4638136 |
Nash, Michael A. |
2021 |
Scalable Online Learning in Physical Chemistry |
Chimia |
3691608 |
Nash, Michael A.; Shoseyov, Oded |
2016 |
Editorial overview: Nanobiotechnology at a crossroads: moving beyond proof of concept |
Current Opinion in Biotechnology |
3691612 |
Malinowska, Klara H; Nash, Michael A |
2016 |
Enzyme- and affinity biomolecule-mediated polymerization systems for biological signal amplification and cell screening |
Current Opinion in Biotechnology |
3691609 |
Nash, Michael A.; Smith, Steven P.; Fontes, Carlos Mga; Bayer, Edward A. |
2016 |
Single versus dual-binding conformations in cellulosomal cohesin–dockerin complexes |
Current Opinion in Structural Biology |
4627469 |
Yang, Byeongseon; Liu, Zhaowei; Liu, Haipei; Nash, Michael A. |
2020 |
Next Generation Methods for Single-Molecule Force Spectroscopy on Polyproteins and Receptor-Ligand Complexes |
Frontiers in Molecular Biosciences |