| A highly selective DNAzyme sensor for mercury cations M Hollenstein, C Hipolito, DD Curtis Lam, M David | 363 | 2008 |
| Aptamer chemistry P Röthlisberger, M Hollenstein Advanced drug delivery reviews 134, 3-21, 2018 | 317 | 2018 |
| Recent progress in non-native nucleic acid modifications LK McKenzie, R El-Khoury, JD Thorpe, MJ Damha, M Hollenstein Chemical Society Reviews 50 (8), 5126-5164, 2021 | 192 | 2021 |
| Nucleoside triphosphates—building blocks for the modification of nucleic acids M Hollenstein Molecules 17 (11), 13569-13591, 2012 | 183 | 2012 |
| DNA catalysis: the chemical repertoire of DNAzymes M Hollenstein Molecules 20 (11), 20777-20804, 2015 | 154 | 2015 |
| A self-cleaving DNA enzyme modified with amines, guanidines and imidazoles operates independently of divalent metal cations (M 2+ ) M Hollenstein, CJ Hipolito, CH Lam, DM Perrin Nucleic acids research 37 (5), 1638-1649, 2009 | 140 | 2009 |
| Generation of aptamers with an expanded chemical repertoire S Diafa, M Hollenstein Molecules 20 (9), 16643-16671, 2015 | 121 | 2015 |
| A DNAzyme with Three Protein‐Like Functional Groups: Enhancing Catalytic Efficiency of M2+‐Independent RNA Cleavage M Hollenstein, CJ Hipolito, CH Lam, DM Perrin ChemBioChem 10 (12), 1988-1992, 2009 | 96 | 2009 |
| Nucleic acid aptamers: Emerging applications in medical imaging, nanotechnology, neurosciences, and drug delivery P Röthlisberger, C Gasse, M Hollenstein International journal of molecular sciences 18 (11), 2430, 2017 | 91 | 2017 |
| Chemical methods for the modification of RNA M Flamme, LK McKenzie, I Sarac, M Hollenstein Methods 161, 64-82, 2019 | 82 | 2019 |
| Terminal deoxynucleotidyl transferase in the synthesis and modification of nucleic acids I Sarac, M Hollenstein ChemBioChem 20 (7), 860-871, 2019 | 74 | 2019 |
| Toward the combinatorial selection of chemically modified DNAzyme RNase A mimics active against all-RNA substrates M Hollenstein, CJ Hipolito, CH Lam, DM Perrin ACS combinatorial science 15 (4), 174-182, 2013 | 70 | 2013 |
| Synthesis of deoxynucleoside triphosphates that include proline, urea, or sulfonamide groups and their polymerase incorporation into DNA M Hollenstein Chemistry–A European Journal 18 (42), 13320-13330, 2012 | 68 | 2012 |
| Evolution of abiotic cubane chemistries in a nucleic acid aptamer allows selective recognition of a malaria biomarker YW Cheung, P Röthlisberger, AE Mechaly, P Weber, F Levi-Acobas, Y Lo, ... Proceedings of the National Academy of Sciences 117 (29), 16790-16798, 2020 | 67 | 2020 |
| Deoxynucleoside triphosphates bearing histamine, carboxylic acid, and hydroxyl residues–synthesis and biochemical characterization M Hollenstein Organic & biomolecular chemistry 11 (31), 5162-5172, 2013 | 55 | 2013 |
| Nucleic acid enzymes based on functionalized nucleosides M Hollenstein Current Opinion in Chemical Biology 52, 93-101, 2019 | 50 | 2019 |
| Ruthenium-initiated polymerization of lactide: A route to remarkable cellular uptake for photodynamic therapy of cancer N Soliman, LK McKenzie, J Karges, E Bertrand, M Tharaud, ... Chemical Science 11 (10), 2657-2663, 2020 | 42 | 2020 |
| On the enzymatic incorporation of an imidazole nucleotide into DNA P Röthlisberger, F Levi-Acobas, I Sarac, P Marlière, P Herdewijn, ... Organic & Biomolecular Chemistry 15 (20), 4449-4455, 2017 | 42 | 2017 |
| Fluorinated olefinic peptide nucleic acid: Synthesis and pairing properties with complementary DNA M Hollenstein, CJ Leumann The Journal of organic chemistry 70 (8), 3205-3217, 2005 | 42 | 2005 |
| Synthesis and incorporation into PNA of fluorinated olefinic PNA (F-OPA) monomers M Hollenstein, CJ Leumann Organic letters 5 (11), 1987-1990, 2003 | 39 | 2003 |
