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Fakultät Biologie, ZMB, Bionanotechnologie
Anschrift
Universitätsstraße 2
45117 Essen
45117 Essen
Raum
T03 R01 D36
Telefon
Telefax
E-Mail
Funktionen
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Professorinnen/Professoren, Bionanotechnologie
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Professorinnen/Professoren, Bionanotechnologie
Aktuelle Veranstaltungen
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SoSe 2025
- Mathematische Modelle für Molekularbiologen
- Mathematische Modelle für Molekularbiologen
- Single molecules methods
- Single-Molecule Methods
- Nano-Biophotonik (optional)
- Gruppenseminar Dr. Saccà
- Übung zu Mathematische Modelle für Molekularbiologen
- Molecular and cellular biophysics
- Bionanotechnology
- Molecular and cellular biophysics
Vergangene Veranstaltungen (max. 10)
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WiSe 2024
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SoSe 2024
Die folgenden Publikationen sind in der Online-Universitätsbibliographie der Universität Duisburg-Essen verzeichnet. Weitere Informationen finden Sie gegebenenfalls auch auf den persönlichen Webseiten der Person.
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Coupling DNA Origami Filament Growth to an Autocatalytic Production of FuelIn: Advanced Materials Interfaces , Jg. 12 2025, Nr. 6, 2400674DOI (Open Access)
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A modular DNA origami nanocompartment for engineering a cell-free, protein unfolding and degradation pathwayIn: Nature Nanotechnology , Jg. 19 2024, Nr. 10, S. 1521 – 1531DOI (Open Access)
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Design, Mechanical Properties, and Dynamics of Synthetic DNA FilamentsIn: Bioconjugate Chemistry , Jg. 34 2023, Nr. 1, S. 37 – 50DOI (Open Access)
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Self-Assembled Artificial DNA Nanocompartments and Their BioapplicationsIn: Small , Jg. 19 2023, Nr. 13: Special Issue: Synthetic Biology and Biomimicry, 2202253DOI (Open Access)
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Sequence-dependent folding of monolayered DNA origami domainsIn: Nanoscale , Jg. 31 2023, Nr. 15, S. 13120 – 13132DOI (Open Access)
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A switchable DNA origami/plasmonic hybrid device with a precisely tuneable DNA-free interparticle gapIn: Chemical Communications: ChemComm , Jg. 58 2022, Nr. 97, S. 13479 – 13482DOI (Open Access)
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Growth Rate and Thermal Properties of DNA Origami FilamentsIn: Nano Letters , Jg. 22 2022, Nr. 22, S. 8818 – 8826DOI (Open Access)
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The role of DNA nanostructures in the catalytic properties of an allosterically regulated proteaseIn: Science Advances , Jg. 8 2022, Nr. 1, abk0425DOI (Open Access)
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DNA Origami Voltage Sensors for Transmembrane Potentials with Single-Molecule SensitivityIn: Nano Letters , Jg. 21 2021, Nr. 20, S. 8634 – 8641DOI (Open Access)
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DNA origamiIn: Nature Reviews Methods Primers , Jg. 1 2021, Nr. 1, 13DOI, Online Volltext (Open Access)
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Pumilio2 promotes growth of mature neuronsIn: International Journal of Molecular Sciences (IJMS) , Jg. 22 2021, Nr. 16, 8998DOI (Open Access)
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Site-specific facet protection of gold nanoparticles inside a 3D DNA origami box : A tool for molecular plasmonicsIn: Chemical Communications: ChemComm , Jg. 57 2021, Nr. 25, S. 3151 – 3153DOI (Open Access)
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Insights into the Structure and Energy of DNA NanoassembliesIn: Molecules: A Journal of Synthetic Chemistry and Natural Product Chemistry , Jg. 25 2020, Nr. 23, 5466DOI, Online Volltext (Open Access)
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The primordial life of DNA dynamic networksIn: Nature Catalysis , Jg. 3 2020, Nr. 11, S. 865 – 866
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Manipulating Enzymes Properties with DNA Nanostructures.In: Molecules: A Journal of Synthetic Chemistry and Natural Product Chemistry , Jg. 24 2019, Nr. 20, S. 3694DOI, Online Volltext (Open Access)
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Sites of high local frustration in DNA origamiIn: Nature Communications , Jg. 10 2019, Nr. 1, S. 1061DOI (Open Access)
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Hierarchical Assembly of DNA Filaments with Designer Elastic PropertiesIn: ACS Nano , Jg. 12 2018, Nr. 1, S. 44 – 55
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Synthetic DNA filaments : from design to applicationsIn: Biological Chemistry , Jg. 399 2018, Nr. 7, S. 773 – 785
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Three-Dimensional DNA Origami as Programmable Anchoring Points for Bioreceptors in Fiber Optic Surface Plasmon Resonance BiosensingIn: ACS Applied Materials & Interfaces , Jg. 10 2018, Nr. 28, S. 23539 – 23547DOI (Open Access)
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Enzyme-functionalized DNA nanostructures as tools for organizing and controlling enzymatic reactionsIn: MRS Bulletin , Jg. 42 2017, Nr. 12, S. 920 – 924
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Irregular model DNA particles self-assemble into a regular structureIn: Soft Matter , Jg. 13 2017, Nr. 47, S. 8894 – 8902DOI, Online Volltext (Open Access)
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Tailored protein encapsulation into a DNA host using geometrically organized supramolecular interactionsIn: Nature Communications , Jg. 8 2017, S. 14472DOI, Online Volltext (Open Access)
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The collective behavior of spring-like motifs tethered to a DNA origami nanostructureIn: Nanoscale , Jg. 9 2017, Nr. 13, S. 4486 – 4496
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Characterizing the Effect of Multivalent Conjugates Composed of Aβ-Specific Ligands and Metal Nanoparticles on Neurotoxic Fibrillar AggregationIn: ACS Nano 2016, S. 7582 – 7597
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From Nano to Macro through Hierarchical Self-Assembly : The DNA ParadigmIn: ChemBioChem , Jg. 17 2016, Nr. 12, S. 1063 – 1080
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Determinants of amyloid fibril degradation by the PDZ protease HTRA1In: Nature Chemical Biology , Jg. 11 2015, Nr. 11, S. 862 – 869DOI (Open Access)
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Reversible reconfiguration of DNA origami nanochambers monitored by single-molecule FRETIn: Angewandte Chemie International Edition , Jg. 54 2015, Nr. 12, S. 3592 – 3597
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Site-Directed, on-surface assembly of DNA nanostructuresIn: Angewandte Chemie International Edition , Jg. 54 2015, Nr. 41, S. 12039 – 12043
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A facile method for preparation of tailored scaffolds for DNA-origamiIn: Small , Jg. 10 2014, Nr. 1, S. 73 – 77
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Nucleic Acids NanotechnologyIn: Methods: A Companion to Methods in Enzymology , Jg. 67 2014, Nr. 2, S. 103 – 104
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DNA Origami : The Art of Folding DNAIn: Angewandte Chemie International Edition , Jg. 51 2012, Nr. 1, S. 58 – 66
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Human high temperature requirement serine protease A1 (HTRA1) degrades tau protein aggregatesIn: The Journal of Biological Chemistry (JBC) , Jg. 287 2012, Nr. 25, S. 20931 – 20941
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Covalent Tethering of Protruding Arms for Addressable DNA NanostructuresIn: Small , Jg. 7 2011, Nr. 20, S. 2887 – 2898
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Functionalization of DNA nanostructures with proteinsIn: Chemical Society Reviews , Jg. 40 2011, Nr. 12, S. 5910 – 5921
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Orthogonal Protein Decoration of DNA OrigamiIn: Angewandte Chemie International Edition , Jg. 49 2010, Nr. 49, S. 9378 – 9383
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Analysis of the Self-Assembly of 4×4 DNA Tiles by Temperature-Dependent FRET SpectroscopyIn: ChemPhysChem , Jg. 18 2009, Nr. 18, S. 3239 – 3248
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Dendritic DNA Building Blocks for Amplified Detection Assays and BiomaterialsIn: Angewandte Chemie International Edition , Jg. 48 2009, Nr. 33, S. 5996 – 6000
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Temperature-dependent FRET spectroscopy for the high-throughput analysis of self-assembled DNA nanostructures in real timeIn: Nature Protocols , Jg. 4 2009, Nr. 3, S. 271 – 285
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DNA and RNA quadruplex ligandsIn: Nucleic Acids Symposium Series , Jg. 52 2008, Nr. 1, S. 7 – 8
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High-Throughput, Real-Time Monitoring of the Self-Assembly of DNA Nanostructures by FRET SpectroscopyIn: Angewandte Chemie International Edition , Jg. 47 2008, Nr. 11, S. 2135 – 2137
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Endogenous γ-H2AX-ATM-Chk2 checkpoint activation in Bloom's syndrome helicase-deficient cells is related to DNA replication arrested forksIn: Molecular Cancer Research , Jg. 5 2007, Nr. 7, S. 713 – 724
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Fluorescence-based melting assays for studying quadruplex ligandsIn: Methods: A Companion to Methods in Enzymology , Jg. 42 2007, Nr. 2, S. 183 – 195
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Replication fork velocities at adjacent replication origins are coordinately modified during DNA replication in human cellsIn: Molecular Biology of the Cell , Jg. 18 2007, Nr. 8, S. 3059 – 3067
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DNA nanomachines and nanostructures involving quadruplexesIn: Organic and Biomolecular Chemistry , Jg. 4 2006, Nr. 18, S. 3383 – 3391
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Kinetics of tetramolecular quadruplexesIn: Nucleic Acids Research , Jg. 33 2005, Nr. 1, S. 81 – 94
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Length-dependent energetics of (CTG)n and (CAG)n trinucleotide repeatsIn: Nucleic Acids Research , Jg. 33 2005, Nr. 13, S. 4065 – 4077
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The effect of chemical modifications on the thermal stability of different G-quadruplex-forming oligonucleotidesIn: Nucleic Acids Research , Jg. 33 2005, Nr. 4, S. 1182 – 1192
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Incorporation of integrins into artificial planar lipid membranes: Characterization by plasmon-enhanced fluorescence spectroscopyIn: Analytical Biochemistry , Jg. 333 2004, Nr. 2, S. 216 – 224
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Synthetic Heterotrimeric Collagen Peptides as Mimics of Cell Adhesion Sites of the Basement MembraneIn: Biopolymers , Jg. 76 2004, Nr. 1, S. 34 – 47
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Studies of the local conformational properties of the cell-adhesion domain of collagen type IV in synthetic heterotrimeric peptidesIn: Biochemistry , Jg. 42 2003, Nr. 12, S. 3429 – 3436
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Binding and docking of synthetic heterotrimeric collagen type IV peptides with α1β1 integrinIn: ChemBioChem , Jg. 3 2002, Nr. 9, S. 904 – 907
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Conformation-dependent side reactions in interstrand-disulfide bridging of trimeric collagenous peptides by regioselective cysteine chemistryIn: Journal of Peptide Science , Jg. 8 2002, Nr. 5, S. 205 – 210
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Structural properties of a collagenous heterotrimer that mimics the collagenase cleavage site of collagen type IIn: Journal of Molecular Biology (JMB) , Jg. 319 2002, Nr. 5, S. 1235 – 1242
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Synthesis of heterotrimeric collagen peptides containing the α 1 β 1 integrin recognition site of collagen type IVIn: Journal of Peptide Science , Jg. 8 2002, Nr. 5, S. 192 – 204
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The chain register in heterotrimeric collagen peptides affects triple helix stability and folding kineticsIn: Journal of Molecular Biology (JMB) , Jg. 324 2002, Nr. 2, S. 309 – 318
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DNA-boundaries enhance the binding affinity and proteolytic activity of thrombinIn: ACS National Meeting / American Chemical Society , Jg. 256 2018, S. 211 – INOR
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DNA origami nanostructured surfaces for enhanced detection of molecular interactionsIn: 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018): Kaohsiung, Taiwan, 11-15 November 2018 ; Vol. 1 / International Conference on Miniaturized Systems for Chemistry and Life Sciences ; MicroTAS ; 11-15 November 2018, Kaohsiung, Taiwan 2019, S. 16 – 19
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Nanotechnology and the unique role of DNAIn: DNA Nanotechnology for Bioanalysis: Chapter 1: Nanotechnology and the Unique Role of DNA 2017, S. 1 – 26
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De novo design of nucleic acid structuresIn: De novo Molecular Design / Schneider, Gisbert (Hrsg.) 2014, S. 495 – 517
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G-quadruplex ligands as tools for elucidating c-MYC transcriptional regulationIn: Chemical Biology: learning through case studies / Waldmann, Herbert (Hrsg.) 2009, S. 247 – 259
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Rationally designed DNA-origami hosts for protein guest
Nantech2019, Nucleic Acid Nanotechnology: from algorithmic design to biochemical applications, Aalto University, Espoo, Finland May 27-29, 2019,2019 -
AGTs from hot sources : from stability to applicability
Extremophiles 2018, 12th International Congress of Extremophiles, September 16/20 2018, Ischia, Italy,2018 -
Exploring the chemical toolbox for protein encapsulation in DNA-origami cages
CRC student symposium 2018 in Billerbek, Germany,2018 -
Understanding protein mechanisms using chemically-designed DNA cages
CRC student symposium 2018 in Billerbek, Germany,2018