How Do Amino Acids Transport Electrons Through Peptides? Inaugural Dissertation zur Erlangung der Würde eines Doktors der Philosophie vorgelegt der Philosophisch-Naturwissenschaftlichen Fakultät der Universität Basel von Meike Cordes aus Mülheim an der Ruhr (Deutschland) Basel 2008 Genehmigt von der Philosophisch-Naturwissenschaftlichen Fakultät der Universität Basel auf Antrag von Prof. Dr. Bernd Giese Prof. Dr. Helma Wennemers Basel, den 25.03.2008 Prof. Dr. Hans-Peter Hauri Dekan Cover Picture: Cordes, M., Köttgen, A., Jasper, C. Jacques, O., Boudebous, H., Giese, B.: Influence of Amino Acid Side Chains on Long-Distance Electron Transfer in Peptides: Electron Hopping via "Stepping Stones", Angew. Chem. Int. Ed.. 2008, 47, 3461.; Der Einfluss von Aminosäureseitenketten auf weitreichenden Elektronentransfer in Peptiden: Elektronenhopping mit Zwischenstationen, Angew. Chem. 2008, 120, 3511., Copyright Wiley-VCH Verlag GmbH & Co. KGaA. Reproduced with permission. The work presented here was initiated and supervised by Prof. Bernd Giese at the Chemistry Departement of the University of Basel, during the time period October 2004 to Februar 2008. Excerpts from this work are published in: Cordes, M., Jacques, O., Köttgen, A., Jasper, C., Boudebous, H., Giese, B.: Development of a Model System for the Study of Long Distance Electron Transfer in Peptides, Adv. Synth. Cat., in press. Cordes, M., Köttgen, A., Jasper, C. Jacques, O., Boudebous, H., Giese, B.: Influence of Amino Acid Side Chains on Long-Distance Electron Transfer in Peptides: Electron Hopping via "Stepping Stones", Angew. Chem. Int. Ed.. 2008, 47, 3461.; Der Einfluss von Aminosäureseitenketten auf weitreichenden Elektronentransfer in Peptiden: Elektronenhopping mit Zwischenstationen, Angew. Chem. 2008, 120, 3511. The work was supported by: Stiftung Stipendien Fonds, Verband der chemischen Industrie e.V. Diese Arbeit ist meinem Freund Christian Wetter gewidmet. einander zudrehen einanderzudrehen und aufeinandereinstellen ineinandergreifen und einandermitteilen miteinanderdrehen und voneinanderlösen auseinanderkreisen und einanderzudrehen aufeinandereinstellen und ineinandergreifen einandermitteilen und miteinanderdrehen voneinanderlösen und auseinanderkreisen einanderzudrehen und (Eugen Gomringer) Ein Gleichnis Wie wenn da einer, und er hielte ein frühgereiftes Kind, das schielte, hoch in den Himmel und er bäte: „Du hörst jetzt auf den Namen Käthe!“ — Wär dieser nicht dem Elch vergleichbar, der tief im Sumpf und unerreichbar nach Wurzeln, Halmen, Stauden sucht und dabei stumm den Tag verflucht, an dem er dieser Erde Licht … Nein? Nicht vergleichbar? Na, dann nicht! (Robert Gernhardt) Acknowledgements I want to thank my supervisor Prof. Dr. Bernd Giese for providing me with a fascinating research topic and creating a work climate, which was governed by confidence, optimism and scientific curiosity. I would also like to thank Prof. Dr. Helma Wennemers for helpful discussions and for co-refereeing this thesis. I am grateful to all former and present members of the Giese group, who contributed to this work: Dr. Christian Jasper and Dr. Agnieszka Köttgen were a tremendous help in the development of the syntheses of the building blocks. So was Dr. Olivier Jacques, who also had a patient ear and a helping hand for all technical and synthetical questions. Dr. Hassen Boudebous introduced me to the field of laser flash photolysis. I would also like to thank Michael Kümin from the Wennemers group for his assistance with the peptide synthesizer and the CD spectrometer. I want to thank the technical staff at the Departement of Chemistry, especially Dr. Klaus Kulicke for NMR-analysis, Dr. Heinz Nadig, who recorded the EI and FAB mass spectra, Werner Kirsch, who measured the elemental analyses and Dr. Sigmund Gunzenhauser for the tedious maintainenance of the ESI mass spectrometer. I would like to thank the complete team of "Werkstatt" and "Materialausgabe" and also the secretaries, for furnishing the infrastrucure of the departement. My thanks go to the past members of the Giese group for leaving not only a tremendous amount of chemicals, but also of scientific knowledge behind and building up a friendly and cooperative tradition - and to the present members of the Giese group for keeping this tradition alive. It was a great pleasure to work with you. I am especially grateful to my lab colleagues Stephan Buergi and Michael Graber who made lab work enjoyable and solved any upcoming problem, no matter if it concerned synthesis, office work or just motivation. To Christian Wetter: not only the correct angles in my schemes would be missing in this work, if you had not been there to help and support me during the last 3.5 years. Thank you. Table of Contents Table of Contents 1 Introduction.....................................................................................................................................3 2 Electron Transfer.............................................................................................................................4 2.1 Marcus Theory.......................................................................................................................4 2.2 Distance Dependence of Electron Transfer............................................................................5 2.3 Electron Transfer through Peptides........................................................................................6 2.3.1 Superexchange...................................................................................................................6 2.3.2 Hopping...........................................................................................................................10 3 Research Project............................................................................................................................17 4 Spectroscopic Sensors for the Observation of Transients in ET through peptides........................19 4.1 Introduction..........................................................................................................................19 4.2 Laser Flash Photolysis.........................................................................................................21 4.3 Amino Acids as Spectroscopic Sensors...............................................................................22 4.3.1 Synthesis and Properties of Methoxysubstituted Phenylalanine-Derivatives..................26 5 Stability of Radical Cations...........................................................................................................31 6 Occurence of Oxidized Intermediates in ET through peptides......................................................37 6.1 Introduction..........................................................................................................................37 6.2 Synthesis of Enantiopure Non-natural Amino Acids...........................................................38 6.3 Synthesis of Peptides...........................................................................................................39 6.4 Data Collection and Analysis...............................................................................................42 6.4.1 Limitations.......................................................................................................................43 6.4.2 Analysis of the Data........................................................................................................46 6.5 Results and Discussion........................................................................................................48 7 Improving Charge Injection..........................................................................................................57 7.1 Synthesis of a New Charge Injector.....................................................................................58 7.2 Synthesis of Peptides...........................................................................................................60 7.3 Results and Discussion........................................................................................................63 8 Influence of Amino-Acid Side Chains on ET...............................................................................67 8.1 Introduction..........................................................................................................................67 8.2 Structure...............................................................................................................................70 8.3 Results and Discussion........................................................................................................72 8.3.1 Mechanism of Electron Transfer.....................................................................................72 8.3.2 Electron Transfer Rates...................................................................................................79 9 The Phenylalanine Effect..............................................................................................................83 10 Summary and Outlook.............................................................................................................87 11 Experimental Part.....................................................................................................................89 1 Table of Contents 11.1 Conditions of Measurements...............................................................................................89 11.2 Synthesis..............................................................................................................................91 11.2.1 Materials, Solvents and Reagents................................................................................91 11.2.2 Notation.......................................................................................................................92 11.2.3 General Procedures (GP)............................................................................................93 11.2.4 Characterisation of Peptides........................................................................................95 11.3 Compounds..........................................................................................................................96 11.4 List of LFP Experiments....................................................................................................135 12 Abbreviations.........................................................................................................................140 13 References..............................................................................................................................144 2
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