Publications

[221] S. Rieth, D. Spliesgar, J. Orth, M. Lehner, R. Kasprzyk, F. Stengel, A. Marx “A desthiobiotin labelled NAD+ analogue to uncover Poly(ADP-ribose) polymerase 1 protein targets” ChemBioChem 2024, 25, e202300797.​​​​​​​

[220] P. Saumer, M. Scheffner, A. Marx, F. Stengel “Interactome of intact chromatosome variants with site-specifically ubiquitylated and acetylated linker histone H1.2” Nucleic Acids Res. 2024, 52, 101-113.

[219] Ö. Akyüz, M. Mißun, R. Rosenberg, M. Scheffner, A. Marx, H. Cölfen “Thermostable protein-stabilized gold nanoclusters as a peroxidase mimic” Nanoscale Adv. 2023, 5, 6061-6068.

[218] K. Sawade, A. Marx, C. Peter, O. Kukharenko “Combining molecular dynamics simulations and scoring method to computationally model ubiquitylated linker histones in chromatosomes” PLoS Comput. Biol. 2023, 19, e1010531.

[217]    L. B. Huber, N. Kaur, M. Henkel, V. Marchard, Y. Motorin. A. E. Ehrenhofer-Murray, A. Marx “A dual-purpose Polymerase engineered for direct Sequencing of Pseudouridine and Queuosine” Nucleic Acids Res. 2023, 51, 3971–3987.

[216]    Y. Yuan, F. M. Stumpf, L. A. Schlor, O. P. Schmidt, P. Saumer, L. B. Huber, M. Frese, E. Höllmüller, M. Scheffner, F. Stengel, K. Diedrichs, A. Marx “Chemoproteomic discovery of a human RNA ligase” Nat. Commun. 2023, 14, 842.

[215]    C. J. Albrecht, F. M. Stumpf, L. Krüger, M. L. Niedermeier, F. Stengel, A. Marx “Chemical proteomics reveals interactors of the alarmone diadenosine triphosphate in the cancer cell line H1299” J. Pept. Sci. 2023, 29, e3458.

[214]    M. Frese, P. Saumer, Y. Yuan, D. Herzog, D. Höpfner, A. Itzen, A. Marx “The Alarmone Diadenosine Tetraphosphate as a Cosubstrate for Protein AMPylation” Angew. Chem. Int. Ed. 2023, 62, e202213279.

[213]    L. B. Huber, K. Betz, A. Marx "Reverse Transcriptases: From Discovery and Applications to Xenobiology" ChemBioChem. 2022, e202200521

[212]    S. Kienle, T. Schneider, K. Stuber, C. Globisch, J. Jansen, F. Stengel, C. Peter, A. Marx, M. Kovermann, M. Scheffner "Electrostatic and steric effects underlie acetylation-induced changes in ubiquitin structure and function" Nat. Commun. 2022, 13, 5432

[211]   P. Ghosh, H. M. Kropp, K. Betz, S. Ludmann, K. Diederichs, A. Marx* and S. G. Srivatsan* "Microenvironment-Sensitive Fluorescent Nucleotide Probes from Benzofuran, Benzothiophene, and Selenophene as Substrates for DNA Polymerases"   J. Am. Chem. Soc. 2022, 144, 10556–10569

[210]    D. Herzog, J. Jansen, M. Mißun, K. Diedrichs, F. Stengel, A. Marx “Chemical proteomics of the tumor suppressor Fhit covalently bound to the cofactor Ap3A elucidates its inhibitory action on translation” J. Am. Chem. Soc. 2022, 144, 8613–8623

[209]    M. Lehner, S. Rieth, E. Höllmüller, D. Spliesgar, B. Mertes, F. Stengel, A. Marx “Profiling of the ADP-Ribosylome in Living Cells” Angew. Chem. Int. Ed. 2022, 134, e202200977.

[208]    A. Julier, V. Radtke, A. Marx, M. Scheffner “Generation and Characterisation of Site-Specifically Mono-Ubiquitylated p53“ ChemBioChem 2022, 23, e202100659.

[207] K. Stuber, T. Schneider, J. Werner, M. Kovermann, A. Marx, M. Scheffner “Structural and functional consequences of NEDD8 phosphorylation” Nat. Commun. 2021, 12, 5939.

[206] L. Krüger, C. J Albrecht, H. K. Schammann, F. Stumpf, M. L. Niedermeier, Y. Yuan, K. Stuber, J. Wimmer,F. Stengel, M. Scheffner, A. Marx “Chemical proteomics profiling of the alarmones diadenosine triphosphate and tetraphosphate reveals protein interactors” Nat. Commun. 2021, 12, 5808.

[205] A. Butterworth, P. Pratibha, A. Marx, D. K. Corrigan “Electrochemical Detection of Oxacillin Resistance using Direct-Labeling Solid-Phase Isothermal Amplification.“ ACS Sens. 2021, 6 (10), 3773-3780

[204] H. M. Kropp, S. Ludmann, K. Diederichs, K. Betz, A. Marx A “Structural Basis for The Recognition of Deaminated Nucleobases by An Archaeal DNA Polymerase“ ChemBioChem 2021, 22, 3060-3066

[203] E. Höllmüller, K. Greiner, S. M. Kienle, M. Scheffner, A. Marx, F. Stengel “The interactome of site-specifically acetylated linker histone H1” J. Proteome Res. 2021, 20, 9, 4443–4451

[202] A. Bhat, S. Li, D. Hammler, M. J. Winterhalder, A. Marx, A. Zumbusch “Live Cell Imaging of Enzymatic Turnover of an Adenosine 5'-Tetraphosphate Analog” Int. J. Mol. Sci. 2021, 22, 8616. 

[201]    E. Höllmüller, S. Geigges, M. Niedermeier, K.-M. Kammer, S. Kienle, D. Rösner, M. Scheffner, A. Marx, F. Stengel “Site-specific ubiquitylation acts as a regulator of linker histone H1” 2021, Nat. Comm., 12, 3497.

[200]   F. Offensperger, F. Müller, J. Jansen, D. Hammler, K. H Götz, A. Marx, C. L. Sirois; S. J. Chamberlain, F. Stengel, M. Scheffner “Identification of small molecule activators of the ubiquitin ligase E6AP/UBE3A and Angelman syndrome-derived E6AP/UBE3A variants” Cell Chem. Biol. 2020, 27, 1510-20.

[199] J. W. P. Kuiper, T. Baade, M. Kremer, R. Kranaster, L. Irmisch, M. Schuchmann, J. Zander, A. Marx, C. R. Hauck „Detection of SARS-CoV-2 from raw patient samples by coupled high temperature reverse transcription and amplification” PLoS One 2020, 15, e0241740.

[198] L. Aberle, A. Krüger, J. M. Reber, M. Lippmann, M. Hufnagel, M. Schmalz, I. R. E. A. Trussina, S. Schlesiger, T. Zubel, K. Schütz, A. Marx, A. Hartwig, E. Ferrando-May, A. Bürkle, A. Mangerich “PARP1 catalytic variants reveal branching and chain length-specific functions of poly(ADP-ribose) in cellular physiology and stress response” Nucleic Acids Res. 2020, 48, 10015-10033.

[197] M. Henkel, A. Marx “Expanding the reverse transcription toolbox“ Nat. Chem. 2020, 12, 668-9

[196] J. Lutz, E. Höllmüller, M. Scheffner, A. Marx, F. Stengel “The length of a ubiquitin chain is a general determinant for selective recognition by ubiquitin-binding proteins” Angew. Chem. Int. Ed. 2020, 59, 12371-12375.

[195] M. Welter, A. Marx „Combining the Sensitivity of LAMP and Simplicity of Primer Extension via a DNA-Modified Nucleotide” Chemistry 2020, 2, 490-8.

[194] H. Bronner, A.-K. Holzer, A. Finke, M. Kunkel, A. Marx, M. Leist, S. Polarz  “The Influence of Structural Gradients in Large Pore Organosilica Materials on the Capabilities for Hosting Cellular Communities” RSC Advances 2020, 10, 17327-35.

[193] D. Hammler, K. Stuber, F. Offensperger, M. Scheffner, A. Zumbusch, A. Marx “Novel fluorescently labelled ATP analogues for direct monitoring of ubiquitin activation” Chem. Eur. J. 2020, 26, 3446-3463.

[192] A. Marx, K. Betz “The structural basis for processing of unnatural base pairs by DNA polymerases” Chem. Eur. J. 2020, 26, 3446-3463.

[191] L. Henschke, M. Frese, S. Hellmuth, A. Marx, O. Stemmann, T. U. Mayer “Identification of Bioactive Small Molecule Inhibitors of Separase” ACS Chem. Biol. 2019, d14, 2155-59.

[190] X. Zhao, M. Scheffner, A. Marx “Assembly of Branched Ubiquitin Oligomers by Click Chemistry” Chem. Commun. 2019, 55, 13093-95.

[189] K. H. Götz, M. Mex, K. Stuber, F. Offensperger, M. Scheffner, A. Marx, M. Kovermann “Formation of the alarmones diadenosine triphosphate and tetraphosphate by ubiquitin- and ubiquitin-like-activating enzymes” Cell Chem. Biol. 2019, accepted.

[188] X. Zhao, M. Mißun, T. Schneider, F. Müller, J. Lutz, M. Scheffner, A. Marx, M. Kovermann " Artificially Linked Ubiquitin Dimers Characterised Structurally and Dynamically by NMR Spectroscopy " ChemBioChem 2019, 20, 14, 1772-1777

[187] C. Ruiz Agudo, J. Lutz, P. Keckeis, M. King, A. Marx, D. Gebauer “Ubiquitin Designer Proteins as a New Additive Generation towards Controlling Crystallization” J. Am. Chem. Soc. 2019, 141, 31, 12240-12245

[186] A. Finke, A.-K. Schneider, A.-S. Spreng, M. Leist, C. M. Niemeyer, A.Marx  "Functionalized DNA Hydrogels Produced by Polymerase-Catalyzed Incorporation of Non-Natural Nucleotides as a Surface Coating for Cell Culture Applications" Adv. Healthc. Mater. 2019, e1900080.

[185] A. Marx “Science at the Chemistry Biology Interface, some Personal Thoughts” Isr. J. Chem. 2019, 59, 84-90.

[184] H. M. Kropp, K. Diederichs, A. Marx “Structure of an archaeal B-family DNA polymerase in complex with a chemically modified nucleotide” Angew. Chem. Int. Ed. 2019, 58, 5457-61

[183] G. Raghunathan, A. Marx “Identification of Thermus aquaticus DNA polymerase variants with increased mismatch discrimination and reverse transcriptase activity from a smart enzyme mutant library” Sci Rep. 2019, 9, 590.

[182] H.M. Kropp, S.L. Dürr, C. Peter, K. Diederichs, A. Marx "Snapshots of a modified nucleotide “moving” through the confines of a DNA polymerase”  Proc. Natl. Acad. Sci. USA 2018, 115, 9992-9997

[181] M. Zheng, M. Mex, K. H. Götz, A. Marx “Synthesis of disaccharide nucleoside analogues as potential poly(ADP-ribose)polymerase-1 inhibitors” Org. Biomol. Chem. 2018, 16, 8904-8907

[180] J. Balintova, M. Welter, A. Marx “Antibody–nucleotide conjugate as a substrate for DNA polymerases” Chem. Sci. 2018, 9, 7122-7125

[179] D. Hammler, A. Marx, A. Zumbusch “Fluorescence lifetime sensitive probes for monitoring ATP cleavage” Chem. Eur. J. 2018, 24, 15329-15335.

[178] M. Welter, A. Marx “Preparation and Application of Enzyme-Nucleotide Conjugates” Curr. Protoc. Chem. Biol. 2018, 10, 49-71.

[177] D.M. Yin, D. Hammler, M.F. Peter, A. Marx, A. Schmitz, G. Hageluken “Inhibitor-Directed Spin Labelling-A High Precision and Minimally Invasive Technique to Study the Conformation of Proteins in Solution” Chem. Eur. J. 2018, 24, 6665-6671.

[176] J. Aschenbrenner, S. Werner, V. Marchand, M. Adam, Y. Motorin, M. Helm, A. Marx “Engineering of a DNA polymerase for direct m6A Sequencing” Angew. Chem. Int. Ed. 2018, 57, 417-421.

[175] K. Betz, A. Nilforoushan, L.A. Wyss, K. Diederichs, S.J. Sturla, A. Marx “Structural basis for the selective incorporation of an artificial nucleotide opposite a DNA adduct by a DNA polymerase” Chem. Commun. 2017, 53, 12704-12707.

[174] H.M. Kropp, K. Betz, J. Wirth, K. Diederichs, A. Marx “Crystal structures of ternary complexes of archaeal B-family DNA polymerases” Plos ONE 2017, 12, e0188005.

[173] X. Zhao, J. Lutz, E. Höllmüller, M. Scheffner, A. Marx, F. Stengel “Identification of Ubiquitin Chains Interacting Proteins” Angew. Chem. Int. Ed. 2017, 56, 15764-15768.

[172] K. H. Götz, S. M. Hacker, D. Mayer, J.-N. Dürig, S. Stenger, A. Marx “Inhibitors of the diadenosine tetraphosphate phosphorylase Rv2613c of Mycobacterium tuberculosis” ACS Chem. Biol. 2017, 12, 2682-2689.

[171] S. Lange, S.M. Hacker, P. Schmid, M. Scheffner, A. Marx “Small molecule inhibitors of the tumor suppressor Fhit” ChemBioChem 2017, 18, 1707-1711.

[170] C. Huber, A. Marx “Variants of sequence family B Thermococcus kodakerensis DNA polymerase with increased mismatch extension selectivity” PLoS One 2017, 12, e0183623.

[169] K. Betz, M. Kimoto, K. Diederichs, I. Hirao, A. Marx “Structural basis for expansion of the genetic alphabet by an artificial base pair” Angew. Chem. Int. Ed. 2017, 56, 12000-12003.

[168] J. Aschenbrenner, A. Marx “DNA polymerases and biotechnological applications” Curr. Opin. Biotech. 2017, 48, 187-195.

[167] S. Wallrodt, E.L. Simpson, A. Marx “Investigation of the action of poly(ADP-ribose)-synthesising enzymes on NAD(+) analogues” Beilstein J. Org. Chem. 2017, 13, 495-501.

[166] S. Ermert, A. Marx, S.M. Hacker “Phosphate-Modified Nucleotides for Monitoring Enzyme Activity” Top. Curr. Chem. 2017, 375, 28.

[165] S. Ermert, S.M. Hacker, A. Buntru, M. Scheffner, C. R. Hauck, A. Marx “Different Enzymatic Processing of gamma-Phosphoramidate and gamma-Phosphoester-modified ATP Analogs” ChemBioChem 2017, 18, 378-381.

[164] A. Hottin, K. Betz, K. Diederichs, A. Marx “Structural basis for the KlenTaq DNA Polymerase catalyzed Incorporation of Alkene- versus Alkyne-modified Nucleotides” Chem. - Eur. J. 2017, 23, 2109-18.

[163] C. Huber, J. von Watzdorf, A. Marx “5-Methylcytosine-sensitive Variants of Thermococcus kodakaraensis DNA Polymerase” Nucleic Acids Res. 2016, 44, 9881-9890

[162] A. Buntz, S. Wallrodt, E. Gwosch, M. Schmalz, S. Beneke, E. Ferrando-May, A. Marx, A. Zumbusch “Real-time Cellular Imaging of Protein Poly(ADP-ribos)ylation” Angew. Chem. Int. Ed. 2016, 11256-60.

[161] A. Finke, H. Bußkamp, M. Manea, A. Marx “Designer Extracellular Matrix based on DNA-Peptide Networks generated by PCR” Angew. Chem. Int. Ed. 2016, 55, 10136-40.

[160] L. Wyss, A. Nilforoushan, D. M. Williams, A. Marx, S. Sturla “The Use of An Artificial Nucleotide for Polymerase-based Recognition of Carcinogenic O6-Alkylguanine DNA Adducts” Nucleic Acids Res. 2016, 44, 6564-73.

[159] M. Welter, D. Verga, A. Marx “Sequence-specific Incorporation of Enzyme-Nucleotide Chimera by DNA Polymerases” Angew. Chem. Int. Ed. 2016, 55, 10131-5.

[158] J. von Watzdorf, A. Marx “6-Substituted-2-Aminopurine-2'-Deoxyribonucleoside-5'-Triphosphates that Trace Cytosine Methylation” ChemBioChem 2016, 17, 1532-40.

[157] S. Wallrodt, A. Buntz, Y. Wang, A. Zumbusch, A. Marx “In Cell Visualisation of Poly(ADP-Ribose) Formation by Bioorthogonally Functionalised NAD+ Analogues” Angew. Chem. Int. Ed. 2016, 55, 7660-7664.

[156] J. Aschenbrenner, A. Marx “Direct and Site-specific Quantification of RNA 2’-O-Methylation by PCR with an Engineered DNA Polymerase” Nucleic Acids Res. 2016, 44, 3495-502.

[155] A. Hottin, A. Marx “Structural Insights into the Processing of Nucleobase-Modified Nucleotides by DNA Polymerases” Acc. Chem. Res. 2016, 49, 418-427.

[154] S. Ludmann, A. Marx “Getting it right: How DNA polymerases select the right nucleotide” Chimia 2016, 70, 203-206.

[153] J. von Watzdorf, K. Leitner, A. Marx “Modified Nucleotides for Discrimination between Cytosine and the epigenetic Marker 5-Methylcytosine” Angew. Chem. Int. Ed. 2016, 55, 3229-32.

[152] D. Schneider, T. Schneider, J. Aschenbrenner, F. Mortensen, M. Scheffner, A. Marx “Anionic Surfactants enhance click reaction-mediated protein conjugation with ubiquitin” Bioorg. Med. Chem. 2016, 24, 995-1001.

[151] D. Verga, M. Welter, A. Marx “Sequence selective naked-eye detection of DNA harnessing extension of oligonucleotide-modified nucleotides” Bioorg. Med. Chem. Lett. 2016, 26, 841-4.

[150] T. Schneider, D. Schneider, A. Marx, M. Scheffner “Analyse des "Ubiquitin-Codes" mithilfe Protease-resistenter Ubiquitinketten” Biospektrum 2015, 21, 382-4.

[149] S.M. Hacker, A. Buntz, A. Zumbusch, A. Marx “Direct Monitoring of Nucleotide Turnover in Human Cell Extracts and Cells by Fluorogenic ATP Analogs” ACS Chem. Biol. 2015, 10, 2544-52.

[148] S. Schildknecht, R. Pape, J. Meiser, C. Karreman, T. Strittmatter, M. Odermatt, E. Cirri, A. Friemel, M. Ringwald, N. Pasquarelli, B. Ferger, T. Brunner, A, Marx, H. Möller, K. Hiller, M. Leist “Preferential extracellular generation of the active parkinsonian toxin MPP+ by transporter-independent export of the intermediate MPDP” Antioxid. Redox Signal. 2015, 23, 1001-16.

[147] F. Mortensen, D. Schneider, T. Barbic, S. Kühnle, A. Marx,  M. Scheffner “Role of ubiquitin and the HPV E6 oncoprotein in E6AP-mediated ubiquitination” Proc. Natl. Acad. Sci. USA 2015, 112, 9872-7.

[146] D. Rösner, T. Schneider, D. Schneider, M. Scheffner, A. Marx “Click chemistry for targeted protein ubiquitylation and ubiquitin chain formation” Nat. Protoc. 2015, 10, 1594-611.

[145] A. Brockmann, A. Bluwstein, A. Kögel, S. May, A. Marx, M. Tschan, T. Brunner “Thiazolides promote apoptosis in colorectal tumor cells via MAP kinase-induced Bim and Puma activation” Cell Death Dis. 2015, 6, e1778.

[144] D. Verga, M. Welter, A.L. Steck, A. Marx “DNA polymerase-catalyzed incorporation of nucleotides modified with a G-quadruplex-derived DNAzyme” Chem. Commun. 2015, 51, 7379-81.

[143] S. M. Hacker, M. Welter, A. Marx “Synthesis of γ-Phosphate-Labeled and Doubly Labeled Adenosine Triphosphate Analogs” Curr. Protoc. Nucleic Acid Chem. 2015, 60, 13.14.1-13.14.25.

[142] L. Wyss, A. Nilforoushan, F. Eichenseher, U. Suter, N. Blatter, A. Marx, S. Sturla “Specific incorporation of an artificial nucleotide opposite a mutagenic DNA adduct by a DNA polymerase” J. Am. Chem. Soc. 2015, 137, 30-3.

[141] J. Braun, M. Möckel, T. Strittmatter, A. Marx, U. Groth, T. U. Mayer “Synthesis and biological evaluation of optimized inhibitors of the miotic kinesin Kif18A” ACS Chem. Biol. 2015, 10, 554-60.

[140] T. Schneider, D. Schneider, D. Rösner, S. Malhotra, F. Mortensen, T.U. Mayer, M. Scheffner, A. Marx “Dissecting ubiquitin signaling by linkage-defined and protease resistant ubiquitin chains” Angew. Chem. Int. Ed. 2014, 53, 12925-9.

[139] H. Bußkamp, E. Batroff, A. Niederwieser, O.S. Abdel-Rahman, R.F. Winter, V. Wittmann, A. Marx “Efficient labelling of enzymatically synthesized vinyl-modified DNA by an inverse-electron-demand Diels-Alder Reaction” Chem. Commun. 2014, 50, 10827-9.

[138] S.M. Hacker, F. Mortensen, M. Scheffner, A. Marx “Selective Monitoring of the Enzymatic Activity of the Tumor Suppressor Fhit” Angew. Chem. Int. Ed. 2014, 53, 10247-50.

[137] Y. Wang, D. Rösner, M. Grzywa, A. Marx “Chain terminating and clickable NAD+ analogues for labeling target proteins of ADP-ribosyltransferases” Angew. Chem. Int. Ed. 2014, 53, 8159-62.

[136] S.M. Hacker, C. Hintze, A. Marx, M. Drescher “Monitoring Enzymatic ATP Hydrolysis by EPR Spectroscopy” Chem. Commun. 2014, 50, 7262-4.

[135] A. Brockmann, T. Strittmatter, S. May, K. Stemmer, A. Marx, T. Brunner “Structure function relationship of thiazolide-induced apoptosis in colorectal tumor cells” ACS Chem. Biol. 2014, 9, 1520-7.

[134] O. B. Gutiérrez Acosta, N. Hardt, S. M. Hacker, T. Strittmatter, B. Schink, A. Marx “ATP and thiamine pyrophosphate dependence of acetone degradation by the sulfate-reducing bacterium Desulfococcus biacutus monitored by a fluorogenic ATP analogue” ACS Chem. Biol. 2014, 9, 1253-6.

[133] J. Aschenbrenner, M. Drum, H. Topal, M. Wieland, A. Marx “Direct sensing of 5-methylcytosine by PCR” Angew. Chem. Int. Ed. 2014, 53, 8154-58.

[132] N. Blatter, A. Prokup, A. Deiters, A. Marx “Modulating the pKa of a tyrosine in KlenTaq DNA polymerase that is crucial for abasic site bypass by in vivo incorporation of a non-canonical amino acid” ChemBioChem 2014, 15, 1735-7.

[131] H. Bußkamp, S. Keller, M.Robotta, M. Drescher, A. Marx “A new Building Block for DNA Network Formation by Self-assembly and Polymerase Chain Reaction” Beilstein J. Org. Chem, 2014, 10, 1037-46.

[130] M. Drum, R. Kranaster, C. Ewald, R. Blasczyk, A. Marx “Variants of Thermus aquaticus DNA polymerase with increased selectivity for applications in allele- and methylation-specific amplification” PLoS ONE, 2014, 9, e96640.

[129] A.K. Späte, H. Bußkamp, A. Niederwieser, V.F. Schart, A. Marx, V.Wittmann “Rapid Labeling of Metabolically Engineered Cell-Surface Glycoconjugates with a Carbamate-Linked Cyclopropene Reporter” Bioconjug. Chem., 2014, 25, 147-154.

[128] T. Strittmatter, A. Brockmann, M. Pott, A. Hantusch, T. Brunner, A. Marx “Expanding the Scope of Human DNA Polymerase λ and β Inhibitors” ACS Chem. Biol., 2014, 9, 282-290.

[127] K. Betz, D. Malyshev, T. Lavergne, W. Welte, K. Diederichs, F. E. Romesberg, A. Marx “Structural Insights into DNA Replication Without Hydrogen-Bonds” J. Am. Chem. Soc. 2013, 135, 18637-43.

[126] S.P. Liu, J. Artois, D. Schmid, M. Wieser, B. Bornemann, S. Weisbrod, A.Marx, E. Scheer, A. Erbe “Electronic Transport through Short dsDNA measured with Mechanically Controlled Break Junctions. New Thiol-Gold Binding Protocol improves Conductance” Phys. Status Solidi B 2013, 11, 2342-2348.

[125] N. Hardt, S.M. Hacker, A. Marx “Synthesis and Fluorescence Characteristics of ATP-based FRET Probes” Org. Biomol. Chem. 2013, 11, 8298-305.

[124] S. Obeid, H. Bußkamp, W. Welte, K. Diederichs, A. Marx “Snapshot of a DNA polymerase while incorporating two consecutive C5-modified nucleotides” J. Am. Chem. Soc. 2013, 135, 15667-9.

[123] N. Blatter, K. Bergen, O. Nolte, W. Welte, K. Diederichs, J. Mayer, M. Wieland, A. Marx “Structure and Function of a thermostable DNA polymerase reading RNA” Angew. Chem. Int. Ed. 2013, 52, 11935-9.

[122] S. M. Hacker, D. Pagliarini, T. Tischer, N. Hardt, D. Schneider, M. Mex, T. U. Mayer, M. Scheffner, A. Marx “Fluorogenic ATP Analogues for Online Monitoring of ATP Consumption: Observing Ubiquitin Activation in Real-Time” Angew. Chem. Int. Ed. 2013, 52, 11916-9.

[121] K. Bergen, K. Betz, W. Welte, K. Diederichs, A. Marx “Structures of KOD and 9°N Polymerases Complexed to Primer Template Duplex” ChemBioChem 2013, 14, 1058-62.

[120] D. Schneider, T. Schneider, D. Rösner, M. Scheffner, A. Marx “Improving bioorthogonal protein ubiquitylation by click reaction” Bioorg. Med. Chem. 2013, 3430-5.

[119] S. M. Hacker, N. Hardt, A. Buntru, D. Pagliarini, M. Möckel, T. U. Mayer, M. Scheffner, C. R. Hauck, A. Marx “Fingerprinting Differential Active Site Constraints of ATPases”  Chem. Sci. 2013, 4, 1588–1596.

[118] F. Du, F. Streckenbach, H. Chen, X. Huang, Z. Tang, A. Marx “RNA pathogen detection with one-step reverse transcription PCR and strand-displacement based signal amplification” Analyst 2013, 138, 1544-8.

[117] T. Strittmatter, J. Aschenbrenner, N. Hardt, A. Marx “Synthesis of 4′-C-alkylated-5-iodo-2′-deoxypyrimidine nucleosides” ARKIVOC 2013, ii, 46-59.

[116] S. M. Hacker, M. Mex, A. Marx “Synthesis and Stability of Phosphate Modified ATP Analogues” J. Org. Chem. 2012, 77, 10450-4. 

[115] V. Siegmund, T. Santner, R. Micura, A. Marx “Screening mutant libraries of T7 RNA polymerase for candidates with increased acceptance of 2’-modified nucleotides” Chem. Commun. 2012, 9870-2.

[114] B. Holzberger, S. Obeid, W. Welte, K. Diederichs, A. Marx “Structural insights into the potential of 4-fluoroproline to modulate biophysical properties of proteins” Chem. Sci. 2012, 3, 2924-31.

[113] S. Obeid, H. Busskamp, W. Welte, K. Diederichs, A. Marx “Interactions of Non-Polar and “Click-able” Nucleotides in the Confines of a DNA Polymerase” Chem. Commun. 2012, 8320-2.

[112] K. Bergen, A.-L. Steck, S. Strütt, A. Baccaro, W. Welte, K. Diederichs, A. Marx “Structures of KlenTaq DNA Polymerase Caught While Incorporating C5-Modified Pyrimidine and C7-Modified 7-Deazapurine Nucleoside Triphosphates” J. Am. Chem. Soc. 2012, 134, 11840-11843.

[111] B. Holzberger, J. Strohmeier, V. Siegmund, U. Diederichsen, A. Marx “Enzymatic synthesis of 8-vinyl- and 8-styryl-2’-deoxyguanosine modified DNA – novel fluorescent molecular probes" Bioorg. Med. Chem. Lett. 2012, 22, 3136-3139.

[110] K. Betz, D. A. Malyshev, T. Lavergne, W. Welte, K. Diederichs, T. J. Dwyer, P. Ordoukhanian, F. E. Romesberg, A. Marx “KlenTaq polymerase replicates unnatural base pairs by inducing a Watson-Crick geometry” Nature Chem. Biol. 2012, 8, 612-614.

[109] S. Obeid, W. Welte, K. Diederichs, A. Marx “Amino acid templating mechanisms in selection of nucleotides opposite abasic sites by a family A DNA polymerase” J. Biol. Chem. 2012, 287, 14099-108.

[108] T. Santner, V. Siegmund, A. Marx, R. Micura “The synthesis of 2’-methylseleno adenosine and guanosine 5’-triphosphates" Bioorg. Med. Chem.2012, 20, 2416-8.

[107] S. Eger, M. Scheffner, A. Marx, M. Rubini “Formation of Ubiquitin Dimers via Azide- Alkyne Click Reaction” Methods Mol. Biol. 2012, 832, 589-96.

[106] B. Holzberger, M. G. Pszolla, A. Marx, H. M. Möller "KlenTaq DNA polymerase adopts unique recognition states when encountering matched, mismatched, and abasic template sites - An NMR study" ChemBioChem 2012, 635-9.

[105] Z. Szombati, S. Baerns, A. Marx, C. Meier “Synthesis of Arylamine-modified 2´- Deoxyadenosine Phosphoramidites and their site specifically Incorporation into Oligonucleotides”, ChemBioChem 2012, 13, 700-712

[104] A. Baccaro, A.-L. Steck, A. Marx “Barcoded Nucleotides” Angew. Chem. Int. Ed. 2012, 51, 254-7.

[103] M. Maiti, V. Siegmund, M. Abramov, E. Lescrinier, H. Rosemeyer, M. Froeyen, A. Ramaswamy, A. Ceulemans, A. Marx, P. Herdewijn “Solution Structure and Conformational Dynamics of Deoxyxylonucleic Acid (dXNA): An Orthogonal Nucleic Acid Candidate” Chem. Eur. J. 2012, 18, 869-79.

[102] P. B. Kügler, B. A. Baumann, B. Zimmer, S. Keller, A. Marx, S. Kadereit, M. Leist “GFAP-independent inflammatory competence and trophic functions of astrocytes generated from murine embryonic stem cells.” GLIA 2012, 60, 218-28.

[101] S. Eger, B. Castrec, U. Hübscher, M. Scheffner, M. Rubini, A. Marx “Generation of a Mono-Ubiquitinated PCNA Mimic via Click Chemistry” ChemBioChem 2011, 12, 2807-12.

[100] V. Siegmund, T. Santner, R. Micura, A. Marx “Enzymatic synthesis of 2’-methylseleno-modified RNA” Chem. Sci. 2011, 2, 2224-2231.

[99]   Y. Wang, B. A. Tkachenko, P. R.Schreiner, A. Marx “Diamondoid-modified DNA” Org. Biomol. Chem. 2011, 9, 7482-90

[98]   S. Keller, A. Marx “The use of enzymes for construction of DNA-based objects and assemblies” Chem. Soc. Rev. 2011, 40, 5690-7.

[97]   S. Obeid, A. Schnur, C. Gloeckner, N. Blatter, W. Welte, K. Diederichs, A. Marx “Learning from directed evolution: Thermus aquaticus DNA polymerase mutants with translesion synthesis activity” ChemBioChem 2011, 12, 1574-80.

[96]   T. Strittmatter, B. Bareth, T. A. Immel, T. Huhn, T. U. Mayer, A. Marx “Small Molecule Inhibitors of Human DNA Polymerase λ” ACS Chem. Biol. 2011, 6, 314-319.

[95]   R. Pathak, A. Marx “An adamantane-based building block for DNA networks” Chemistry - Asian J. 2011, 6, 1450-5.

[94]   J. Hovers, M. Potschies, A. Polidori, B. Pucci, S. Raynal, F. Bonneté, M. J. Serrano-Vega, C. G. Tate, D. Picot, Y. Pierre, J.-L. Popot, R. Nehmé, M. Bidet, I. Mus-Veteau, H. Bußkamp, K.-H. Jung, A. Marx, P. A. Timmins, W. Welte “A class of mild surfactants that keep integral membrane proteins water-soluble for functional studies and crystallization” Mol. Membr. Biol. 2011, 28, 171-81.

[93]   S.H. Weisbrod, A. Baccaro, A. Marx “Site-specific DNA labelling by Staudinger ligation” Methods in Molecular Biology, 2011, 751, 195-207.

[92]   S. Gieseking, K. Bergen, F. di Pasquale, W. Welte, K. Diederichs, A. Marx  “Human DNA polymerase β mutations allowing efficient abasic site bypass” J. Biol. Chem. 2011, 286, 4011-4020.

[91]   S. Obeid, A. Baccaro, W. Welte, K. Diederichs, A. Marx “Structural basis for the synthesis of nucleobase modified DNA by Thermus aquaticus DNA polymerase” Proc. Natl. Acad. Sci. USA 2010, 107, 21327-31.

[90]   S. Eger, M. Scheffner, A. Marx, M. Rubini “Synthesis of Defined Ubiquitin Dimers“ J. Am. Chem. Soc. 2010, 132, 16337-9.

[89]   B. Holzberger, A. Marx “Replacing 32 Proline Residues by a Noncanonical Amino Acid results in a highly active DNA Polymerase” J. Am. Chem. Soc. 2010, 132, 15708-13.

[88]   R. Kranaster, A. Marx “Engineered DNA polymerases in biotechnology” ChemBioChem 2010, 11, 2077-84.

[87]   N. Staiger, A. Marx “A DNA Polymerase with Increased Reactivity for Ribonucleotides and C5-Modified Deoxyribonucleotides” ChemBioChem 2010, 11, 1963-6.

[86]   M. Weidmann, O. Faye, O. Faye, R. Kranaster, A. Marx, M. R.T. Nunes, P. F.C. Vasconcelos, F. T. Hufert, A. A. Sall “Improved LNA probe-based assay for the detection of African and South American yellow fever virus strains“ J. Clin. Virol. 2010, 48, 187-192.

[85]   T. U. Mayer, A. Marx “Five molecules we would take to a remote island” Chem. Biol. 2010, 17, 556-560.

[84]   K. Betz, F. Streckenbach, A. Schnur, T. Exner, W. Welte, K. Diederichs, A. Marx “Structures of DNA polymerases caught processing size-augmented nucleotide probes” Angew. Chem. Int Ed. 2010, 49, 5181-5184

[83]   S. Obeid, N. Blatter, R. Kranaster, A. Schnur, W. Welte, K. Diederichs, A. Marx “Replication through an Abasic DNA Lesion: Structural Basis for Adenine Selectivity” EMBO J., 2010, 29, 1738-47.

[82]   C. Gloeckner, R. Kranaster, A. Marx „Directed Evolution of DNA polymerases: Construction and screening of DNA polymerase mutant libraries” Curr. Prot. Chem. Biol., 2010, 89-109.

[81]   A. Marx “Chemical Biology of DNA Replication: Probing DNA Polymerases Selectivity Mechanisms with modified Nucleotides” (Book chapter for “The Chemical Biology of Nucleic Acids” G. Mayer (Ed.)), Wiley, Chinester, 2010, p 63-72

[80]   S.P. Liu, S.H. Weisbrod, Z. Tang, A. Marx, E. Scheer, A. Erbe „Direct Measurement of Electrical Transport Through G-Quadruplex DNA with Mechanically Controllable Break Junction Electrodes” Angew. Chem. Int. Ed. 2010, 49, 3313-3316.

[79]   S. H. Weisbrod, A. Marx “Synthesis of Water Soluble Phosphinophenol for Traceless Staudinger Ligation” Synlett 2010, 787-9.

[78]   B. Holzberger, M. Rubini, H.M. Möller, A. Marx "Highly Active DNA Polymerase with a Fluorous Core" Angew. Chem. Int. Ed. 2010, 49, 1324-1327.

[77]   R. Kranaster, M. Drum, N. Engel, M. Weidmann, F. T. Hufert, and A. Marx ^“One step RNA pathogen detection with reverse transcriptase activity of a mutated thermostable Thermus aquaticus DNA polymerase” Biotechnol. J. 2010, 5, 224-231.

[76]   A. Baccaro, A. Marx, “Enzymatic synthesis of organic polymer-grafted DNA” Chem. Eur. J., 2010, 16, 218-26.

[75]   M. Catarinella, T. Grüner, T. Strittmatter, A. Marx, and T. U. Mayer “BTB-1: A small molecule inhibitor of the mitotic motor protein Kif18A” Angew. Chem. Int. Ed. 2009, 48, 9072-6.

[74]   F. Streckenbach, G. Rangam, H. M. Möller, A. Marx “Steric Constraints Dependent on Nucleobase Pair Orientation vary in different DNA Polymerase Active Sites” ChemBioChem 2009, 10, 1630-3.

[73]   R. Kranaster, A. Marx “Taking fingerprints of DNA polymerases: Multiplex enzyme profiling on DNA arrays” Angew. Chem. Int. Ed. 2009, 48, 4625-8.

[72]   B. Holzberger, A. Marx "Enzymatic Synthesis of perfluoroalkylated DNA" Bioorg. Med. Chem. 2009, 17, 3653-8

[71]   S. H. Weisbrod, A. Marx “Novel Methods for site-specific covalent labelling of nucleic acids” Chem. Commun. 2008, 5675-85.

[70]   S. Keller, J. Wang, M. Chandra, R. Berger, A. Marx "DNA Polymerase catalyzed DNA network growth" J. Am. Chem. Soc. 2008, 130, 13188-9

[69]   N. Böge, M. I. Jacobsen, Z. Szombati, S. Baerns, F. Di Pasquale, A. Marx, C. Meier "Synthesis of DNA Strands site-specifically damaged by C8-Arylamine Purine Adducts and Effects on various DNA Polymerases" Chem. Eur. J. 2008, 14,11194-208.

[68]   S. H. Weisbrod, A. Baccaro, A. Marx “DNA Conjugation by Staudinger Ligation” Nucleic Acids Symp. Ser. 2008, 52, 383-4.

[67]   S. Obeid, M. Yulikow, G. Jeschke, A. Marx “Enzymatic Synthesis of multi Spin-labeled DNA” Nucleic Acids Symp. Ser. 2008, 52, 373-4

[66]   R. Kranaster, A. Marx “New Strategies for DNA Polymerase Library Screening” Nucleic Acids Symp. Ser. 2008, 52, 477-8

[65]   K.-H. Jung, A. Marx "2’-Deoxyribose modified nucleoside Triphosphates and their recognition by DNA polymerases" p75-94 in Modified Nucleosides (Ed.: P. Herdewijn) 2008, WILEY-VCH, Weinheim.

[64]   S. Obeid, M. Yulikow, G. Jeschke, A. Marx “ Enzymatic Synthesis of multi Spin-labeled DNA” Angew. Chem. Int. Ed. 2008, 47, 6782-6785.

[63]   F. Di Pasquale, D. Fischer, D. Grohmann, T. Restle, A. Geyer, A. Marx “Opposed steric constraints in human DNA polymerase beta and E. coli DNA polymerase I” J. Am. Chem. Soc., 2008, 130, 10748-57.

[62]   Molecular Beacons: Signalling Nucleic Acids Probes, Methods in Molecular Biology 429 (Eds.: A. Marx, O. Seitz) 2008, Humana Press.

[61]   B. Bornemann, S.-P. Liu, A. Erbe, E. Scheer, A. Marx, “Thiolated nucleotides for immobilisation of DNA oligomers on gold surfaces” ChemPhysChem, 2008, 9, 1241-1244.

[60]   J. Cramer, G. Rangam, A. Marx, T. Restle “Varied active site constraints in the Klenow Fragment of E. coli DNA polymerase I and the lesion-bypass Dbh DNA polymerase” ChemBioChem, 2008, 9, 1243-1250.

[59]   Z. Tang, D. Goncalves, M. Wieland, A. Marx, J. S. Hartig “A DNA Catalysts based on G-quadruplex recognition” ChemBioChem, 2008, 9, 1061-1064.

[58]   C. Wanninger-Weiß, F. Di Pasquale, A. Marx, H.-A. Wagenknecht “Nucleotide insertion and bypass synthesis of pyrene- and BODIPY-modified oligonucleotides by DNA polymerases” Chem. Commun. 2008, 1443-1445.

[57]   R. Kranaster, P. Ketzer, A. Marx “Mutated DNA Polymerase for Improved Single Nucleotide Detection in Microarrayed Primer Extension” ChemBioChem, 2008, 9, 694-697.

[56]   K.-H. Jung, A. Marx “Synthesis of 4'-C-modified 2’-deoxyribonucleoside analogues and oligonucleotides” Curr. Org. Chem. 2008, 12, 343-354.

[55]   J. Fahrer, R. Kranaster, M. Altmeyer, A. Marx, A. Bürkle “Quantitative analysis of the binding affinity of poly(ADP-ribose) to specific binding proteins as a function of chain length” Nucleic Acid Res. 2007, 35, e143.

[54]   A. Marx, D. Summerer, K.B. Sauter, C. Gloeckner, N. Z.Rudinger “Chemical biology of DNA polymerases: from selectivity to new functions” Nucleic Acids Symp. Ser. 2007, 51, 81-2.

[53]   M. Strerath, I. Detmer, J. Gaster, A. Marx “Modified oligonucleotides as tools for allele-specific amplification” Methods Mol. Biol. 2007, 402, 317-328.

[52]   Z. Tang, A. Marx “Prolin-modified DNA Catalysts for the Aldol Reaction” Angew. Chem. Int. Ed. 2007, 46, 7297-7300.

[51]   A. Baccaro, S. Weisbrod, A. Marx “DNA conjugation by the Staudinger ligation: new thymidine analogues” Synthesis, 2007, 1949-1954.

[50]   M. Chandra, Y. Luo, S. Keller, A. Marx “Modified uridines for the synthesis of branched DNA” Tetrahedron, 2007, 63, 8576-80.

[49]   S. Weisbrod, A. Marx “A nucleoside triphosphate for site-specific labelling of DNA by the Staudinger ligation” Chem. Commun. 2007, 1828-1830.

[48]   P. Čapek, H. Cahová, R. Pohl, M. Hocek, C. Gloeckner, A Marx “An efficient construction of functionalized DNA bearing amino acid groups by cross-coupling reactions of nucleoside triphosphates followed by primer extension or PCR” Chem. Eur. J. 2007, 13, 6115-6122.

[47]   R. Kranaster, A. Marx “Increased Single Nucleotide Discrimination in Allele-Specific PCR Through Primer Probes Bearing Nucleobase and 2’-Deoxyribose Modifications” Chem. Eur. J. 2007, 13, 6196-6203.

[46]   C. Gloeckner, K.B.M. Sauter, A. Marx “Evolving a Thermostable DNA Polymerase that Accurately Amplifies from Highly-Damaged Templates”, Angew. Chem. Int. Ed. 2007, 46, 3115-3117.

[45]   K. Heinz, A. Marx “Lesion bypass activity of DNA polymerase A from the extremely radioresistant organism Deinococcus radiodurans“ J. Biol. Chem. 2007, 282, 10908-10914.

[44]   M. Chandra, S. Keller, C. Gloeckner, B. Bornemann, A. Marx “Novel Branched DNA Constructs” Chem. Eur. J. 2007, 13, 3558-3564.

[43]   J. Gaster, G. Rangam, A. Marx “Increased single nucleotide discrimination in arrayed primer elongation by 4’C modified primer probes” Chem. Commun. 2007, 1692-1694.

[42]   M. Strerath, C. Gloeckner, D. Liu, A. Schnur, A. Marx “Directed DNA polymerase evolution: Effects of mutations in Motif C on Mismatch Extension Selectivity of Thermus aquaticus DNA Polymerase“ ChemBioChem 2007, 8, 395-401.

[41]   N. Z. Rudinger, R. Kranaster, A. Marx “Hydrophobic Amino Acid and Single Atom Substitution Increase DNA Polymerase Selectivity” Chem. Biol. 2007, 14, 185-194.

[40]   M. Liebmann, F. Di Pasquale, A. Marx “A new photoactive building block for investigation of DNA backbone interactions: photoaffinity labeling of human DNA polymerase beta” ChemBioChem 2006, 7, 1965-1969.

[39]   K.B.M. Sauter, A. Marx “Evolving thermostable reverse transcriptase activity in a DNA polymerase scaffold” Angew. Chem. Int. Ed. 2006, 45, 7633-7635 (Angew. Chem. 2006, 118, 7795-7797).

[38]   B. Bornemann, A. Marx “Synthesis of DNA oligonucleotides containing 5-(mercaptomethyl)-2'-deoxyuridine moieties” Bioorg. Med. Chem. 2006, 14, 6235-6238.

[37]   M. Strerath, A. Marx “Genotyping – From Genomic DNA to Genotype in one Tube” Angew. Chem. Int. Ed. 2005, 44, 7842-7849.

[36]   G. Rangam, N. Z. Rudinger, H. M. Müller, A. Marx “Synthesis and Application of 4'-C-alkylated Uridines as Probes for Uracil-DNA Glycosylase” Synthesis 2005, 9, 1467-1472.

[35]   C. Meier; S. Gräsl; I. Detmer; A. Marx “Synthesis of oligonucleotides bearing an arylamine modification in the C8-position of 2'-deoxyguanosine” Nucleosides, Nucleotides & Nucleic Acids 2005, 24, 691-694.

[34]   D. Summerer, N. Z. Rudinger, I. Detmer, A. Marx “Enhanced DNA Polymerase Mismatch Extension Fidelity by Directed Combinatorial Enzyme Design” Angew. Chem. Int. Ed. 2005, 44, 4712-4715.

[33]   K.- H. Jung, A. Marx “Nucleotide analogues as probes for DNA polymerases” Cell. Mol. Life Sci. 2005, 62, 2080-91.

[32]   J. Gaster, A. Marx “Tuning Single Nucleotide Discrimination in PCR: Syntheses of Primer Probes Bearing polar 4’C-Modifications and their Application in Allele-Specific PCR” Chem. Eur. J. 2005, 11, 1861 -1870.

[31]   D. Summerer, A. Marx, “4’C-Ethynyl-Thymidine acts as chain terminator during DNA-synthesis catalyzed by HIV-1 Reverse Transcriptase” Bioorg. Med. Chem. Lett. 2005, 15, 869-871.

[30]   A. Marx, I. Detmer, J. Gaster, D. Summerer "Synthesis of Probes for Investigation of DNA Polymerase Function" Synthesis, 2004, 1-14.

[29]   A. Marx, D. Summerer "Probing DNA Polymerase Selectivity Mechanisms with Sugar-Modified Nucleotides" Synlett 2004, 217-224.

[28]   M. Strerath, J. Gaster, A. Marx, "Recognition of Remote Mismatches by DNA Polymerases" ChemBioChem 2004, 5, 1585-1588.

[27]   M. Strerath, J. Gaster, D. Summerer, A. Marx, "Increased Single-Nucleotide Discrimination of PCR by Primer Probes Bearing Hydrophobic 4’C-Modifications" ChemBioChem 2004, 5, 333-339.

[26]   A. Marx, D. Summerer "Bigger DNA: New Genetic Helix with Expanded Size" Angew. Chem. Int. Ed. 2004, 43, 1625 –1626 (Angew. Chem. 2004, 116, 1653-1654).

[25]   A. Marx, D. Summerer, M. Strerath, "Selectivity of DNA Replication" in Bioorganic Chemistry Highlights II: From Chemistry to Biology" (Eds.: H. Wennemers, C. Schmuck), WILEY-VCH 2004, p. 299 - 309

[24]   A. Marx "From Mendel to the Post-genomic Era" (Web-Rezension), Angew. Chem. Int. Ed. 2003, 42, 487 (Angew. Chem. 2003, 115, 503).

[23]   B. Tews, J. Wilhelm, D. Summerer, M. Strerath, A. Marx, P. Friedhoff, A. Pingoud, M. Hahn, "Application of the C4´ Alkylated Deoxyribose Primer System (CAPS) in Allele Specific Real-Time PCR for Increased Selectivity in Discrimination of Single Nucleotide Sequence Variants" Biol. Chem. 2003, 384, 1533-1541.

[22]   I. Detmer, D. Summerer, A. Marx, "Substrates for Investigation of DNA Polymerase Function: Synthesis and Properties of 4’-C-Alkylated Oligonucleotides" Eur. J. Org. Chem. 2003, 1837-1846.

[21]   A. Marx, D. Summerer, "Molecular insights into error-prone DNA replication and error-free lesion bypass" ChemBioChem 2002, 3, 405-408.

[20]   D. Summerer, A. Marx, "DNA-Templated Synthesis: More Versatile than Expected" Angew. Chem. Int. Ed. 2002, 41, 89-90 (Angew. Chem. 2002, 114, 93-95).

[19]   M. Strerath, A. Marx, "Tuning PCR specificity by chemically modified primer probes" Angew. Chem. Int. Ed. 2002, 41, 4766-4769 (Angew. Chem. 2002, 114, 4961-4963).

[18]   J. Cramer, M. Strerath, A. Marx, T. Restle, "Exploring the effects of active site constraints on HIV-1 reverse transcriptase DNA polymerase fidelity" J. Biol. Chem. 2002, 277, 43593-43598.

[17]   I. Detmer, D. Summerer, A. Marx, "DNA minor groove hydration probed with 4’-alkylated thymidines" Chem. Commun. 2002, 2314-2315.

[16]   D. Summerer, A. Marx, "A Molecular Beacon for Quantitative Monitoring of the DNA Polymerase Reaction in Real-Time" Angew. Chem. Int. Ed. 2002, 41, 3620-3622 (Angew. Chem. 2002, 114, 3778-3780).

[15]   M. Strerath, J. Cramer, T. Restle, A. Marx, "Implications of Active Site Constraints on Varied DNA Polymerase Selectivity" J. Am. Chem. Soc. 2002, 124, 11230-11231.

[14]   M. Strerath, D. Summerer, A. Marx, "Varied DNA polymerase - sugar interactions in the nucleotide binding pocket" ChemBioChem 2002, 3, 578-580.

[13]   D. Summerer, A. Marx, "Differential Minor Groove Interactions between DNA Polymerase and Sugar Backbone of Primer and Template Strands" J. Am. Chem. Soc. 2002, 124, 910-911.

[12]   A. Dussy, C. Meyer, E. Quennet, T. A. Bickle, B. Giese, A. Marx, "New light sensitive nucleosides for caged DNA strand breaks" ChemBioChem. 2002, 3, 54-60.

[11]   D. Summerer, A. Marx, "DNA polymerase selectivity: sugar interactions monitored with high fidelity nucleotides" Angew. Chem. Int. Ed. 2001, 40, 3693-3695 (Angew. Chem. 2001, 113, 3806-3808).

[10]   A. Marx, H. Yamamoto, "Alumnium Bis(trifluoromethylsulfonyl)amides: New Highly Efficient and Remarkably Versatile Catalysts for C-C Bond Formation Reactions" Angew. Chem. Int. Ed. 2000, 39, 178-181.

[9]     A. Marx, H. Yamamoto, "Bulky Aluminum Lewis Acids as Novel Efficient and Chemoselective Catalysts for the Allylation of Aldehydes" Synlett 1999, 584-586.

[8]     A. Marx, M. Spichty, M. Amacker, U. Schwitter, U. Hübscher, T. A. Bickle, G. Maga, B. Giese, "Probing Interactions Between HIV-1 Reverse Transcriptase and its DNA Substrate with Backbone Modified Nucleotides" Chem. Biol. 1999, 6, 111-116.

[7]     A. Marx, M. Amacker, M. Stucki, U. Hübscher, T. A. Bickle, B. Giese, "4’-Acylated thymidine triphosphates: a tool to increase selectivity towards HIV-1 reverse transcriptase" Nucleic Acids Res. 1998, 26, 4063-4067.

[6]     S. Röhrig, L. Hennig, M. Findeisen, P. Welzel, K. Frischmuth, A. Marx, T. Petrowitsch, P. Koll, D. Müller, H. Mayer-Figge, W. S. Sheldrick, "Attempted Stereocontrol at C-2’ of Strigol-type Compounds by a Michael Reaction/Elimination Approach" Tetrahedron 1998, 54, 3413-3438.

[5]     A. Marx, M. P. MacWilliams, T. A. Bickle, U. Schwitter, B. Giese, "4’-Acylated Thymidines: a New Class of DNA Chain Terminators and Photocleavable DNA Building Blocks" J. Am. Chem. Soc. 1997, 119, 1131-1132.

[4]     A. Marx, B. Giese, "Selective Action of 4’-Benzoylated Thymidine on DNA Polymerases and Reverse Transcriptases" CHIMIA 1997, 51, 93-94.

[3]     B. Giese, A. Marx, U. Schwitter, in "Radicals in Biology and Enviroment" Kluwer Academic Publishers: Dordrecht 1997, 271-290.

[2]     A. Marx, P. Erdmann, M. Senn, S. Körner, T. Jungo, M. Petretta, P. Imwinkelried, A. Dussy, K. J. Kulicke, L. Macko, M. Zehnder, B. Giese, "Synthesis of 4’-C-Acylated Thymidines" Helv. Chim. Acta 1996, 79, 1980-1994

[1]     K. Frischmuth, A. Marx, T. Petrowitsch, U. Wagner, K. Koerner, S. Zimmermann, H. Meuer, W. S. Sheldrick, P. Welzel, "Strigol Synthetic Studies: The First Synthetic Approach that Allows Control of C-2’ Configuration" Tetrahedron Letters 1994, 35, 4973-4976