Hetero-Dinuclear Metal Complexes for RNA Hydrolysis
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概要
- 論文の詳細を見る
- 1998-10-05
著者
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Komiyama Makoto
Department Of Chemistry And Biotechnology Graduate School Of Engineering The University Of Tokyo
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YASHIRO Morio
Department of Applied Chemistry, Faculty of Engineering, Tokyo Institute of Polytechnics
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Yashiro Morio
Department Of Chemistry And Biotechnology Graduate School Of Engineering The University Of Tokyo
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Kamitani Jun
Department Of Chemistry And Biotechnology Graduate School Of Engineering The University Of Tokyo
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KAWAHARA Ryuto
Department of Chemistry and Biotechnology, Graduate School of Engineering, The University of Tokyo
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Komiyama Makoto
Department Of Chemistry And Biotechnology Faculty Of Engineering The University Of Tokyo
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Kawahara Ryuto
Department Of Chemistry And Biotechnology Graduate School Of Engineering The University Of Tokyo
関連論文
- Homogeneous DNA Hydrolysis by Cerium(IV)/Lanthanide(III)/Dextran Ternary Complexes
- Effect of the Dipole-Dipole Interaction on the Self-Assembly of Cyclodextrin Inclusion Complexes
- Scanning Tunneling Microscopy on Ordered Self-Assemblies of Cyclodextrin lnclusion Complexes Formed by Substrate-Induced Two-Dimensional Crystal Growth
- Enormously Fast RNA Hydrolysis by Lanthanide(III) Ions under Physiological Conditions: Eminent Candidates for Novel Tools of Biotechnology
- Hydrolysis of Diribonucleoside Monophosphate Diesters Assisted by a Manganese(II) Complex
- Effect of Alkaline Earth Metal Ions on the Phosphodiester Hydrolysis of RNA
- Hydrolysis of Oligonucleotides by Homogeneous Ce (IV)/EDTA Complex
- Azobenzene-Appended Oligonucleotides Form Unexpectedly Stable Triple-Helixes
- Molecular Imprinting of Cyclodextrin in Water for the Recognition of Peptides
- Direct Evidences for the Hydrogen Bonding in Water by Polymeric Receptors Carrying Diaminotriazine
- Sepquence-Specific and hydrolytic Scission of DNA and RNA by Lanthanide Complex-OligoDNA Hybrids
- Lanthanide Complexes with High Stability and Efficiency for the Hydrolysis of a Ribonucleptide Dimer
- Unprecedentedly Fast DNA Hydrolysis by the Synergism of the Cerium(IV)-Praseodymium(III)and the Cerium(IV)-Neodymium(III)Combinations^1
- DNA Hydrolysis by Cerium(IV) Does Not Involve either Molecular Oxygen or Hydrogen Peroxide
- Poly(vinyldiaminotriazine) as Highly Selective Hydrogen Bonding Host in Methanol
- Adsorption of Uric Acid Derivatives in Water by Poly(vinyldiaminotriazine)through Hydrogen Bonding
- RNA Hydrolysis by the Combination of the Lanthanum(III) Ion and Hydrogen Peroxide
- Lattice Matching of α-Cyclodextrin Commensurate with Molybdenum Disulfide Studied by Scanning Tunneling Microscopy
- Hetero-Dinuclear Metal Complexes for RNA Hydrolysis
- Photo - Regulation of RNA Hydrolysis by the Zinc(II) Complex Carrying Azobenzene
- Hydrolysis of DNA and RNA through Cooperation of Two Metal Ions: A Novel Mimic of Phosphoesterases
- Homogeneous Ce(IV) Complexed for Efficient Hydrolysis of Plasmid DNA
- Non-Covalent Combinations of Lanthanide(III)Ion and Two DNA Oligomers for Sequence-Selective RNA Scission
- Facile and Selective Conversion of Ethylenediaminetetraacetate to Ethylenediamine-N, N, N' -triacetate on a Cobalt Complex
- Catalytic and Selective Conversion of Glycine into Serine by the Reaction with Formaldehyde in a Neutral Aqueous Solution
- Dinulear Lanthanum (III) Complex for Efficient Hydrolysis of RNA
- An important metal complex in the asymmetric synthesis of .ALPHA.-amino acids. The crystal and molecular structure of (-)546-((R)-alaninato)((6R,8R)-6,8-dimethyl-2,5,9,12-tetraazatridecane)cobalt(III) bromide trihydrate, (-)546-(Co(R-ala)(1,5R,7R,11-Me4-2
- Preparation and characterization of some Co(III) complexes containing (1R,2R)-dimethyl-1,2-cyclohexanediamine. Crystal structure of (+)435-trans-(CoCl2(R,R-dmchxn)2)ClHCl2H2O.
- Covalent immobilization of ultrafine platinum particles onto crosslinked polymer support and their application to catalysis.
- Preparation of polymer-protected colloidal dispersions of copper.
- Catalytic hydration of unsaturated nitriles to unsaturated amides using colloidal copper dispersions.
- Colloidal rhodium dispersions protected by cyclodextrins.
- Active carbon-supported copper(I) chloride as solid adsorbent for carbon monoxide.
- The cyclodextrin-accelerated cleavage of thiocarboxylic S-esters.