SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Hao Yang, Poonam Srivastava, Chen Zhang, Jared C. Lewis, A General Method for Artificial Metalloenzyme Formation through Strain-Promoted Azide–Alkyne Cycloaddition, ChemBioChem, 2014, 15, 2
  2. 2
    Chen Zhang, Poonam Srivastava, Ken Ellis-Guardiola, Jared C. Lewis, Manganese terpyridine artificial metalloenzymes for benzylic oxygenation and olefin epoxidation, Tetrahedron, 2014, 70, 27-28, 4245

    CrossRef

  3. 3
    Laura Maggini, Jennifer Ahrens-Jensen, Giada Lo Re, Jean-Marie Raquez, Philippe Dubois, Davide Bonifazi, Phenanthroline-functionalized MWCNTs as versatile platform for lanthanides complexation, Carbon, 2014, 70, 22

    CrossRef

  4. 4
    Matthieu Raynal, Pablo Ballester, Anton Vidal-Ferran, Piet W. N. M. van Leeuwen, Supramolecular catalysis. Part 2: artificial enzyme mimics, Chemical Society Reviews, 2014, 43, 5, 1734

    CrossRef

  5. 5
    Peter J. Deuss, Gina Popa, Alexandra M. Z. Slawin, Wouter Laan, Paul C. J. Kamer, Artificial Copper Enzymes for Asymmetric Diels–Alder Reactions, ChemCatChem, 2013, 5, 5
  6. 6
    Jared C. Lewis, Artificial Metalloenzymes and Metallopeptide Catalysts for Organic Synthesis, ACS Catalysis, 2013, 3, 12, 2954

    CrossRef

  7. 7
    Li-Yan Qiu, Lu Yan, Lu Zhang, Yang-Min Jin, Qing-He Zhao, Folate-modified poly(2-ethyl-2-oxazoline) as hydrophilic corona in polymeric micelles for enhanced intracellular doxorubicin delivery, International Journal of Pharmaceutics, 2013, 456, 2, 315

    CrossRef

  8. You have open access to this content8
    Thomas Reiner, Dominik Jantke, Alexander N. Marziale, Andreas Raba, Jörg Eppinger, Metal-Conjugated Affinity Labels: A New Concept to Create Enantioselective Artificial Metalloenzymes, ChemistryOpen, 2013, 2, 2
  9. 9
    Gonzalo de Gonzalo, Marco W. Fraaije, Recent Developments in Flavin-based Catalysis, ChemCatChem, 2013, 5, 2
  10. 10
    Dominik Jantke, Alexander N. Marziale, Thomas Reiner, Florian Kraus, Eberhardt Herdtweck, Andreas Raba, Jörg Eppinger, Synthetic strategies for efficient conjugation of organometallic complexes with pendant protein reactive markers, Journal of Organometallic Chemistry, 2013, 744, 82

    CrossRef

  11. 11
    Y. Lu, S. Chakraborty, K.D. Miner, T.D. Wilson, A. Mukherjee, Y. Yu, J. Liu, N.M. Marshall, Comprehensive Inorganic Chemistry II, 2013,

    CrossRef

  12. 12
    D.R. Hamels, T.R. Ward, Comprehensive Inorganic Chemistry II, 2013,

    CrossRef

  13. 13
    Qiuning Lin, Chunyan Bao, Guanshui Fan, Shuiyu Cheng, Hui Liu, Zhenzhen Liu, Linyong Zhu, 7-Amino coumarin based fluorescent phototriggers coupled with nano/bio-conjugated bonds: Synthesis, labeling and photorelease, Journal of Materials Chemistry, 2012, 22, 14, 6680

    CrossRef

  14. 14
    Manfred T. Reetz, Artificial Metalloenzymes as Catalysts in Stereoselective Diels–Alder Reactions, The Chemical Record, 2012, 12, 4
  15. 15
    Jose M. Palomo, Click reactions in protein chemistry: from the preparation of semisynthetic enzymes to new click enzymes, Organic & Biomolecular Chemistry, 2012, 10, 47, 9309

    CrossRef

  16. 16
    Takashi Matsuo, Chie Imai, Takefumi Yoshida, Takashi Saito, Takashi Hayashi, Shun Hirota, Creation of an artificial metalloprotein with a Hoveyda–Grubbs catalyst moiety through the intrinsic inhibition mechanism of α-chymotrypsin, Chemical Communications, 2012, 48, 11, 1662

    CrossRef

  17. 17
    Zhihui Zhang, Hao Yang, Chen Zhang, Jared C. Lewis, Synthesis and Catalytic Activity of Amino Acids and Metallopeptides with Catalytically Active Metallocyclic Side Chains, Organometallics, 2012, 31, 21, 7328

    CrossRef

  18. 18
    T.R. Ward, A. Pordea, Comprehensive Chirality, 2012,

    CrossRef

  19. 19
    Peter J. Deuss, René den Heeten, Wouter Laan, Paul C. J. Kamer, Bioinspired Catalyst Design and Artificial Metalloenzymes, Chemistry - A European Journal, 2011, 17, 17
  20. 20
    Alba Díaz-Rodríguez, Benjamin G Davis, Chemical modification in the creation of novel biocatalysts, Current Opinion in Chemical Biology, 2011, 15, 2, 211

    CrossRef

  21. 21
    Frank Hollmann, Isabel W. C. E. Arends, Dirk Holtmann, Enzymatic reductions for the chemist, Green Chemistry, 2011, 13, 9, 2285

    CrossRef

  22. 22
    Manfred T. Reetz, Gerichtete Evolution stereoselektiver Enzyme: Eine ergiebige Katalysator-Quelle für asymmetrische Reaktionen, Angewandte Chemie, 2011, 123, 1
  23. 23
    Fabien W. Monnard, Tillmann Heinisch, Elisa S. Nogueira, Tilman Schirmer, Thomas R. Ward, Human Carbonic Anhydrase II as a host for piano-stool complexes bearing a sulfonamide anchor, Chemical Communications, 2011, 47, 29, 8238

    CrossRef

  24. 24
    Manfred T. Reetz, Laboratory Evolution of Stereoselective Enzymes: A Prolific Source of Catalysts for Asymmetric Reactions, Angewandte Chemie International Edition, 2011, 50, 1
  25. 25
    Bradley Y.-W. Man, Mohan Bhadbhade, Barbara A. Messerle, Rhodium(i) complexes bearing N-donor ligands: catalytic activity towards intramolecular cyclization of alkynoic acids and ligand lability, New Journal of Chemistry, 2011, 35, 8, 1730

    CrossRef

  26. 26
    John Podtetenieff, Andreas Taglieber, Eckhard Bill, Edward J. Reijerse, Manfred T. Reetz, An Artificial Metalloenzyme: Creation of a Designed Copper Binding Site in a Thermostable Protein, Angewandte Chemie International Edition, 2010, 49, 30
  27. 27
    John Podtetenieff, Andreas Taglieber, Eckhard Bill, Edward J. Reijerse, Manfred T. Reetz, An Artificial Metalloenzyme: Creation of a Designed Copper Binding Site in a Thermostable Protein, Angewandte Chemie, 2010, 122, 30
  28. 28
    Fiora Rosati, Gerard Roelfes, Artificial Metalloenzymes, ChemCatChem, 2010, 2, 8
  29. 29
    Peter J. Deuss, Gina Popa, Catherine H. Botting, Wouter Laan, Paul C. J. Kamer, Highly Efficient and Site-Selective Phosphane Modification of Proteins through Hydrazone Linkage: Development of Artificial Metalloenzymes, Angewandte Chemie, 2010, 122, 31
  30. 30
    Peter J. Deuss, Gina Popa, Catherine H. Botting, Wouter Laan, Paul C. J. Kamer, Highly Efficient and Site-Selective Phosphane Modification of Proteins through Hydrazone Linkage: Development of Artificial Metalloenzymes, Angewandte Chemie International Edition, 2010, 49, 31
  31. 31
    Valentin Köhler, Yvonne M Wilson, Cheikh Lo, Alessia Sardo, Thomas R Ward, Protein-based hybrid catalysts—design and evolution, Current Opinion in Biotechnology, 2010, 21, 6, 744

    CrossRef

  32. 32
    René den Heeten, Bianca K. Muñoz, Gina Popa, Wouter Laan, Paul C. J. Kamer, Synthesis of hybrid transition-metalloproteins via thiol-selective covalent anchoring of Rh-phosphine and Ru-phenanthroline complexes, Dalton Transactions, 2010, 39, 36, 8477

    CrossRef

  33. 33
    Manfred T. Reetz, A Method for Rapid Directed Evolution,
  34. 34
    Manfred T. Reetz, Enzymes, Directed Evolution, Encyclopedia of Industrial Biotechnology,
  35. 35
    Saumen Chakraborty, Parisa Hosseinzadeh, Yi Lu, Metalloprotein Design and Engineering, Encyclopedia of Inorganic and Bioinorganic Chemistry,
  36. 36
    Jürgen Pleiss, Rational Design of Enzymes,