Biologically active molecules with a “light switch” G Mayer, A Heckel Angewandte Chemie International Edition 45 (30), 4900-4921, 2006 | 1331 | 2006 |
Functional aptamers and aptazymes in biotechnology, diagnostics, and therapy M Famulok, JS Hartig, G Mayer Chemical reviews 107 (9), 3715-3743, 2007 | 960 | 2007 |
Light‐controlled tools C Brieke, F Rohrbach, A Gottschalk, G Mayer, A Heckel Angewandte Chemie International Edition 51 (34), 8446-8476, 2012 | 946 | 2012 |
The chemical biology of aptamers G Mayer Angewandte Chemie International Edition 48 (15), 2672-2689, 2009 | 700 | 2009 |
Nucleic acid aptamers from selection in vitro to applications in vivo M Famulok, G Mayer, M Blind Accounts of Chemical research 33 (9), 591-599, 2000 | 539 | 2000 |
The nuclear receptor PPARγ selectively inhibits Th17 differentiation in a T cell–intrinsic fashion and suppresses CNS autoimmunity L Klotz, S Burgdorf, I Dani, K Saijo, J Flossdorf, S Hucke, J Alferink, ... Journal of Experimental Medicine 206 (10), 2079-2089, 2009 | 386 | 2009 |
Systematic evaluation of error rates and causes in short samples in next-generation sequencing F Pfeiffer, C Gröber, M Blank, K Händler, M Beyer, JL Schultze, G Mayer Scientific reports 8 (1), 10950, 2018 | 338 | 2018 |
Aptamer modules as sensors and detectors M Famulok, G Mayer Accounts of chemical research 44 (12), 1349-1358, 2011 | 314 | 2011 |
Fluorescence-activated cell sorting for aptamer SELEX with cell mixtures G Mayer, MSL Ahmed, A Dolf, E Endl, PA Knolle, M Famulok Nature protocols 5 (12), 1993-2004, 2010 | 244 | 2010 |
Repression of the genome organizer SATB1 in regulatory T cells is required for suppressive function and inhibition of effector differentiation M Beyer, Y Thabet, RU Müller, T Sadlon, S Classen, K Lahl, S Basu, ... Nature immunology 12 (9), 898-907, 2011 | 232 | 2011 |
Selection and biosensor application of aptamers for small molecules F Pfeiffer, G Mayer Frontiers in chemistry 4, 25, 2016 | 231 | 2016 |
Enrichment of cell‐targeting and population‐specific aptamers by fluorescence‐activated cell sorting MSL Raddatz, A Dolf, E Endl, P Knolle, M Famulok, G Mayer Angewandte Chemie International Edition 47 (28), 5190-5193, 2008 | 219 | 2008 |
Aptamers as tools in molecular biology and immunology M Famulok, G Mayer Combinatorial Chemistry in Biology, 123-136, 1999 | 207 | 1999 |
Biologisch aktive Moleküle mit “Lichtschalter” G Mayer, A Heckel Angewandte Chemie 118 (30), 5020-5042, 2006 | 206 | 2006 |
Lichtgesteuerte Werkzeuge C Brieke, F Rohrbach, A Gottschalk, G Mayer, A Heckel Angewandte Chemie 124 (34), 8572-8604, 2012 | 204 | 2012 |
Light regulation of aptamer activity: an anti-thrombin aptamer with caged thymidine nucleobases A Heckel, G Mayer Journal of the American Chemical Society 127 (3), 822-823, 2005 | 188 | 2005 |
A versatile approach towards nucleobase‐modified aptamers F Tolle, GM Brändle, D Matzner, G Mayer Angewandte Chemie International Edition 54 (37), 10971-10974, 2015 | 166 | 2015 |
Multidomain targeting generates a high‐affinity thrombin‐inhibiting bivalent aptamer J Müller, B Wulffen, B Pötzsch, G Mayer ChemBioChem 8 (18), 2223-2226, 2007 | 148 | 2007 |
Controlling small guanine–nucleotide-exchange factor function through cytoplasmic RNA intramers G Mayer, M Blind, W Nagel, T Böhm, T Knorr, CL Jackson, W Kolanus, ... Proceedings of the National Academy of Sciences 98 (9), 4961-4965, 2001 | 147 | 2001 |
Intramers as promising new tools in functional proteomics M Famulok, M Blind, G Mayer Chemistry & biology 8 (10), 931-939, 2001 | 140 | 2001 |