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7463
Titelbild: “Sulflower”: A New Form of Carbon Sulfide (Angew. Chem. 44/2006)
Chernichenko, Konstantin Yu.
/ Sumerin, Viktor V.
/ Shpanchenko, Roman V.et al.
| 2006
Selbstorganisation von Fasern und FibrillenFNR HREF="nss"> FN ID="nss"> Wir danken dem Fonds zur Förderung der wissenschaftlichen Forschung für die finanzielle Unterstützung (18740 B03).
High H2 Adsorption by Coordination-Framework MaterialsFNR HREF="nss"> FN ID="nss"> We thank the EPSRC (UKSHEC) for support, and the CVCP and the University of Nottingham for funding (to J.J.). M.S. gratefully acknowledges the receipt of a Royal Society Wolfson Merit Award and a Royal Society Leverhulme Trust Senior Research Fellowship.
Fluorescence Visualization of Newly Synthesized Proteins in Mammalian CellsFNR HREF="nss"> FN ID="nss"> We thank Scott Fraser, Chris Waters, and the Beckman Imaging Center for advice on microscopy, and Rochelle Diamond, Stephanie Adams, and the Caltech Flow Cytometry Facility for assistance with flow cytometry. We thank Anand Asthagiri, Chase Beisel, David Chan, Scott Detmer, Nicholas Graham, Melissa Pope, and Christina Smolke for cell lines and reagents. James Van Deventer made helpful comments on the manuscript. This work was supported by a Fannie and John Hertz Foundation Fellowship (to K.E.B.), a Whitaker Foundation Graduate Fellowship (to J.C.L.), a postdoctoral fellowship from the German Academy for Natural Scientists Leopoldina (BMBF-LPD9901-8-95 to D.C.D.), an NSF-NER grant (to Q.W.), NIH grant GM62523 (to D.A.T.), and the Beckman Institute at Caltech. E.M.S. is an Investigator of the Howard Hughes Medical Institute.
"Sulflower": A New Form of Carbon SulfideFNR HREF="nss"> FN ID="nss"> We thank D. Denisenko and Dr. D. Gribkov for the development of alternative routes to sulflower, Dr. A. Krasovskiy for HRMS spectra, Dr. D. Tyurin for quantum chemical calculations, Bruker Spectrospin for solid-state 13C NMR spectra, Dr. A. Abakumov for help with XRPD, Prof. I. Alabugin for valuable remarks, and the Russian Foundation for Basic Research for financial support.
Highly Luminescent ZnO Nanocrystals Stabilized by Ionic-Liquid ComponentsFNR HREF="nss"> FN ID="nss"> This work was supported by the National Natural Science Foundation of China.
Tailor-Made Onionlike Stereocomplex Crystals in Incompatible, Enantiomeric, Polylactide-Containing Block Copolymer BlendsFNR HREF="nss"> FN ID="nss"> This work was supported by ACS PRF (41918-G7) and NSF CAREER Award DMR-0348724. The synchrotron X-ray experiments were carried out at the National Synchrotron Light Source in Brookhaven National Laboratory, supported by DoE.
Electrochemical Switching of the Cubic Nonlinear Optical Properties of an Aryldiethynyl-Linked Heterobimetallic Complex between Three Distinct StatesFNR HREF="nss"> FN ID="nss"> We thank the Australian Research Council (ARC) and the CNRS for financial support. This project is supported by the International Science Linkages Programme established under the Australian Government's innovation statement, Backing Australia's Ability. F.P. and N.G. thank Region Bretagne for financial support. M.G.H. thanks Johnson Matthey Technology Centre for the generous loan of ruthenium salts. M.G.H. is an ARC Australian Professorial Fellow and M.P.C. is an ARC Australian Research Fellow.
Reversible Size Modification of Iron and Gallium Molecular Wheels: A Ga10 "Gallic Wheel" and Large Ga18 and Fe18 WheelsFNR HREF="nss"> FN ID="nss"> This work was supported by the National Science Foundation.
A Virus Spotlighted by an Autonomous DNA MachineFNR HREF="nss"> FN ID="nss"> This research is supported by the Israel Ministry of Science and by the Minerva Foundation (Moritz K. Beissenhirtz).
The Tubulin‐Bound Conformation of Discodermolide Derived by NMR Studies in Solution Supports a Common Pharmacophore Model for Epothilone and Discodermolide
Sánchez‐Pedregal, Víctor M.
/ Kubicek, Karel
/ Meiler, Jenset al.
| 2006
The Tubulin-Bound Conformation of Discodermolide Derived by NMR Studies in Solution Supports a Common Pharmacophore Model for Epothilone and DiscodermolideFNR HREF="nss"> FN ID="nss"> This work was supported by the Max-Planck-Gesellschaft, the Volkswagen-Stiftung (Grant no. I-80 798 to T.C.), by the European Union (Marie Curie fellowship to V.M.S.-P.), and by the DAAD (Postdoctoral fellowship PKZ A-06-04203 to K.K). We thank Christian Griesinger for critical reading of this manuscript and useful discussions, Marcel Reese for support, and Holger Stark for the electron microscopy studies. I.P. thanks Novartis Pharma AG for financial support.
A Tosylimido Analogue of a Nonheme Oxoiron(IV) ComplexFNR HREF="nss"> FN ID="nss"> Supported by NIH grants GM-33162 (L.Q.) and GM-22701 (E.M.), an NIH postdoctoral fellowship to T.A.J., and an NSF graduate research fellowship to A.S. XAS data were collected at the Stanford Synchrotron Radiation Laboratory (SSRL), which is supported by the US Department of Energy and the National Institutes of Health.
Catalytic, Asymmetric Synthesis of 1,4-Benzoxazinones: A Remarkably Enantioselective Route to α-Amino Acid Derivatives from o-Benzoquinone ImidesFNR HREF="nss"> FN ID="nss"> T.L. thanks the NIH (GM064559); the Sloan, Guggenheim, and Dreyfus Foundations; and Merck & Co. for support.
Dynamically Self-Assembling Metalloenzyme Models Based on CalixarenesFNR HREF="nss"> FN ID="nss"> This work was supported within the graduate program "Nanomolecular Science" of the International University Bremen.
Chemisorption-Induced Double Hydrogen Bonding, Self-Assembly, and StereoselectionFNR HREF="nss"> FN ID="nss"> We acknowledge research support from the Natural Sciences and Engineering Research Council (NSERC) of Canada, the Canadian Foundation for Innovation, and the Fonds québécois de la recherche sur la nature et les technologies. S.L. acknowledges the receipt of an NSERC doctoral scholarship. The figures were prepared with the help of Marc-André Laliberté.
Substrate Mimicry in an Activity-Based Probe That Targets the Nitrilase Family of EnzymesFNR HREF="nss"> FN ID="nss"> This research was supported by the NIH (CA087660), the Howard Hughes Medical Institute (predoctoral fellowship to K.T.B.), and the Skaggs Institute for Chemical Biology. We thank M. Patricelli (Activx Biosciences) for assistance with the identification of probe sites of labeling for nitrilase enzymes and the members of the Cravatt lab for helpful discussions and critical reading of the manuscript.
Self-Assembly of Nanometer-Scale [Cu24I10L12]14+ Cages and Ball-Shaped Keggin Clusters into a (4,12)-Connected 3D Framework with Photoluminescent and Electrochemical PropertiesFNR HREF="nss"> FN ID="nss"> This work was financially supported by the National Natural Science Foundation of China (No. 20371011).
Self‐Assembly of Nanometer‐Scale [Cu24I10L12]14+ Cages and Ball‐Shaped Keggin Clusters into a (4,12)‐Connected 3D Framework with Photoluminescent and Electrochemical Properties
Single-Molecule Protein Encapsulation in a Rigid DNA CageFNR HREF="nss"> FN ID="nss"> We thank Jonathan Bath for helpful discussions. This work was supported by the UK research councils BBSRC, EPSRC, MRC, and the MoD through the UK Bionanotechnology Interdisciplinary Research Collaboration, by the Rhodes Trust and the Oxford Life Sciences Interface Doctoral Training Centre.
Three-Step Synthesis of Sialic Acids and DerivativesFNR HREF="nss"> FN ID="nss"> This work was supported by the National Institutes of Health. We thank Dr. Lisa Whalen for proofreading the manuscript.
Carbon-Carbon Bond Formation at a Neutral Terminal Carbido Ligand: Generation of Cyclopropenylidene and Vinylidene ComplexesFNR HREF="nss"> FN ID="nss"> This report is based upon work supported by the National Science Foundation under grant number CHE-0449459. We thank the Research Corporation, the University of Michigan, and the Camille and Henry Dreyfus Foundation for support. S.R.C. thanks the University of Michigan Chemistry Department for Margaret and Herman Sokol and Robert W. Parry Fellowships.
Surface Modification of a Six-Capped Body-Centered Cube Ni9W6 Cluster: Structure and Single-Molecule MagnetismFNR HREF="nss"> FN ID="nss"> This work was supported by Korea Research Foundation Grant funded by Korea Government (MOEHRD, Basic Research Promotion Fund) (KRF-2005-015-C00223) and CRM-KOSEF. C.S.H thanks an Operation Program on Shared Research Equipment of KBSI and MOST.
Room-Temperature AuI-Catalyzed C&bond;C Bond Formation through a Tandem Friedel-Crafts-Type Addition-Carbocyclization ReactionFNR HREF="nss"> FN ID="nss"> This work was supported by the Centre National de la Recherche Scientifique (CNRS). E.G. is grateful to the Ministère de l'Education et de la Recherche for financial support (2003-2006). The authors thank L.-M. Chamoreau (UMR 7071, Laboratoire de Chimie Inorganique et Matériaux Moléculaires, Paris) for X-ray structure analysis.
Selective Electrochemical Retro-Cycloaddition Reaction of PyrrolidinofullerenesFNR HREF="nss"> FN ID="nss"> This work was financially supported by the US NSF (CHE-0509989), the MEC of Spain, and Comunidad de Madrid (Projects CTQ 2005-02609-BQU, MAT-02 12196-E, and P-PPQ-000225-0505). M.A. thanks the MEC for a research grant. This material is based upon work supported by Luna Innovations Incorporated and the Air Force Office of Scientific Research under Contract No. FA9550-05-C-0146. Any opinion, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the Air Force Office of Scientific Research.
Methane Oxidation by Aqueous Osmium Tetroxide and Sodium Periodate: Inhibition of Methanol Oxidation by MethaneFNR HREF="nss"> FN ID="nss"> This work was supported by the U.S. National Science Foundation (CHE-0204697 and CHE-0513023), the U.S. National Institutes of Health, and the Japan Society for the Promotion of Science (JSPS Postdoctoral Fellowship for Research Abroad to T.O.). We thank R. Morley for glassblowing.
A Highly Reactive and Stereoselective β-Mannopyranosylation System: Mannosyl 4-Pentenoate-PhSeOTfFNR HREF="nss"> FN ID="nss"> This work was supported by a grant from the Korea Science and Engineering Foundation through the Center for Bioactive Molecular Hybrids (CBMH).
Mechanically Induced Generation of Counterions Inside Surface-Grafted Charged Macromolecular Films: Towards Enhanced Mechanotransduction in Artificial SystemsFNR HREF="nss"> FN ID="nss"> Funding from a Studienstiftung des deutschen Volkes Scholarship (B.T.), a Marie Curie Research Fellowship (O.A.), and a DuPont Young Professor Award (W.T.S.H.) is acknowledged.
Mechanically Induced Generation of Counterions Inside Surface‐Grafted Charged Macromolecular Films: Towards Enhanced Mechanotransduction in Artificial Systems
Control of Vesicular Morphologies through Hydrophobic Block LengthFNR HREF="nss"> FN ID="nss"> We thank the Natural Science and Engineering Research Council of Canada (NSERC) for the support of this work.
Cyclic Carbodiphosphorane-Diphosphinocarbene Thermal InterconversionFNR HREF="nss"> FN ID="nss"> We are grateful to the CNRS for financial support of this work and to the FSE for a grant to S.M.
Detektion der Ausschüttung von NO an einzelnen Zellen mit elektrochemischer Rastermikroskopie in konstantem AbstandFNR HREF="nss"> FN ID="nss"> Die Untersuchungen wurden durch das BMBF im Rahmen des thematischen Programms "Nanobiotechnologie" (NBT066) gefördert. Wir danken Priv.-Doz. Dr. A. Blöchl, Lehrstuhl für Molekulare Neurobiochemie, Ruhr-Universität Bochum, für die Bereitstellung der Zellen und wertvolle Diskussionen.
Arylindanylketone: effiziente Inhibitoren der humanen Peptidyl-Prolyl-cis-trans-Isomerase Pin1FNR HREF="nss"> FN ID="nss"> Diese Arbeit wurde durch die Deutsche Forschungsgemeinschaft (Br 604-14-1,2) unterstützt.
Polymerbürsten als ionotrope Matrices für die gezielte Herstellung mikrostrukturierter dünner Calcit-FilmeFNR HREF="nss"> FN ID="nss"> Diese Arbeiten wurden durch die VolkswagenStiftung (H.-A.K.) und die Deutsche Forschungsgemeinschaft (DFG-Schwerpunktprogramm 1117 "Prinzipien der Biomineralisation", Vo 829-2-3, D.V.) unterstützt. Die Autoren danken Priv.-Doz. Dr. A. Ziegler (Zentrale Einrichtung Elektronenmikroskopie, Universität Ulm) für die elektronenmikroskopischen Aufnahmen und Dr. S. Hild (Universität Ulm), Dr. G. Lamarque (Laboratoire des Polymères, EPFL) und WITec GmbH (Ulm) für die AFM-Studien.
Reversible rot fluoreszierende molekulare SchalterFNR HREF="nss"> FN ID="nss"> Wir danken R. Machinek und Mitarbeitern sowie Dr. H. Frauendorf, G. Udvarnoki, G. Krökel und F. Hambloch für die am Institut für Organische und Biomolekulare Chemie der Universität Göttingen durchgeführten Analysen. L. Kastrup, C. Eggeling und J. Jethwa danken wir für das kritische Lesen des Manuskripts. M.B. und S.W.H. bedanken sich bei der Europäischen Union für ein Marie-Curie-Stipendium bzw. für Förderung im Rahmen des SPOTLITE-Projekts (NEST-Adventure).
Übergangsmetallanionen in Festkörpern und ihre chemische BindungFNR HREF="nss"> FN ID="nss"> Die Arbeiten an der NCSU wurden durch das Office of Basic Energy Sciences, Division of Materials Sciences, U.S. Department of Energy, unterstützt (Grant DE-FG02-86ER45259).