| Gemcitabine-monophosphate encapsulation in “stealth” MOFs effectively inhibits tumor growth in vivo |
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| Nanoscale metal-organic frameworks for the delivery of nucleic acids to cancer cells |
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| Porous Metal-Organic Framework Nanoparticles |
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| Facile synthesis of per(6-<i>O</i>-<i>tert</i>-butyldimethylsilyl)-α-, β-, and γ-cyclodextrin as protected intermediates for the functionalization of the secondary face of the macrocycles |
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| Porous nanoparticles with engineered shells release their drug cargo in cancer cells |
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| Self-assembled multifunctional core-shell highly porous metal-organic framework nanoparticles |
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| Multivalent Lactose-Ferrocene Conjugates Based on Poly (Amido Amine) Dendrimers and Gold Nanoparticles as Electrochemical Probes for Sensing Galectin-3 |
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| Carbohydrates in metal organic frameworks: Supramolecular assembly and surface modification for biomedical applications |
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| Design of Engineered Cyclodextrin Derivatives for Spontaneous Coating of Highly Porous Metal-Organic Framework Nanoparticles in Aqueous Media |
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| One-Step Photochemical Green Synthesis of Water-Dispersible Ag, Au, and Au@Ag Core-Shell Nanoparticles |
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| Comb-like dextran copolymers: A versatile strategy to coat highly porous MOF nanoparticles with a PEG shell |
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| Mannoside and 1,2-mannobioside β-cyclodextrin-scaffolded NO-photodonors for targeting antibiotic resistant bacteria |
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| A non-covalent "click chemistry" strategy to efficiently coat highly porous MOF nanoparticles with a stable polymeric shell |
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| Cyclodextrin-Modified inorganic materials for the construction of nanocarriers |
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| Synthesis of Heptakis(6-<i>O</i>-tert-butyldimethylsilyl)cyclomaltoheptaose |
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| GLYCOCLUSTERS AND THEIR APPLICATIONS AS ANTI-INFECTIVE AGENTS, VACCINES, AND TARGETED DRUG DELIVERY SYSTEMS |
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| A "green" strategy to construct non-covalent, stable and bioactive coatings on porous MOF nanoparticles |
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| Electrochemical Detection of Glutathione S-Transferase: An Important Enzyme in the Cell Protective Mechanism Against Oxidative Stress |
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| β-Cyclodextrin-Bearing Gold Glyconanoparticles for the Development of Site Specific Drug Delivery Systems |
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| Human Galectin-3 Selective and High Affinity Inhibitors. Present State and Future Perspectives |
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| Gold-Ferrocene Glyco-Nanoparticles for High-Sensitivity Electrochemical Detection of Carbohydrate-Lectin Interactions |
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| Poly(amido amine)-Based Mannose-Glycodendrimers As Multielectron Redox Probes for Improving Lectin Sensing |
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| Citric acid-γ-cyclodextrin crosslinked oligomers as carriers for doxorubicin delivery |
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| Femto- to micro-second photobehavior of photosensitizer drug trapped within a cyclodextrin dimer |
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| Identifying and Characterizing Binding Sites on the Irreversible Inhibition of Human Glutathione S-Transferase P1-1 by S-Thiocarbamoylation |
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| Secondary Face-to-Face 2-2′ β-Cyclodextrin Dimers Linked with Fluorescent Rigid Spacer Arms: A Cyclodextrin-Based Ratiometric Sensor for Bile Salts |
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| Quantum dot/cyclodextrin supramolecular systems based on efficient molecular recognition and their use for sensing |
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| Binding properties of ferrocene-glutathione conjugates as inhibitors and sensors for glutathione S-transferases |
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| Ferrocene labelings as inhibitors and dual electrochemical sensors of human glutathione S-transferase P1-1 |
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| Binding ability properties of β-cyclodextrin dimers linked through their secondary faces towards cancer chemotherapeutic agent methotrexate |
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| Photocontrolled binding of artemisinin to a bis(β-cyclodextrin) bearing azobenzene on the primary face |
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| Binding ability properties of β-cyclodextrin dimers linked through their secondary faces towards cancer chemotherapeutic agent methotrexate |
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| β-Cyclodextrin Dimers Linked through Their Secondary Faces with Rigid Spacer Arms as Hosts for Bile Salts |
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| Diuretic drug binding to human glutathione transferase P1-1: potential role of Cys-101 revealed in the double mutant C47S/Y108V |
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| Kinetic properties and specificity of trimeric <i>Plasmodium falciparum</i> and human dUTPases |
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| Ferrocene-β-Cyclodextrin Conjugates: Synthesis, Supramolecular Behavior, and Use as Electrochemical Sensors |
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| Influence of the H-site residue 108 on human glutathione transferase P1-1 ligand binding: Structure-thermodynamic relationships and thermal stability |
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| Ferrocene-Carbohydrate Conjugates as Electrochemical Probes for Molecular Recognition Studies |
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| Kinetic and thermodynamic characterization of dUTP hydrolysis by <i>Plasmodium falciparum</i> dUTPase |
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| Synthesis of β-cydodextrin derivatives functionalized with azobenzene |
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| Synthesis of a β-cyclodextrin derivative bearing an azobenzene group on the secondary face |
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| Ferrocene-mannose conjugates as electrochemical molecular sensors for concanavalin A lectin |
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| Supramolecular chemistry of carbohydrate clusters with cores having guest binding abilities |
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| Application of gas chromatography-hybrid chemical ionization mass spectrometry to the analysis of diclofenac in wastewater samples |
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| Structure of concanavalin A at pH 8:: bound solvent and crystal contacts |
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| Synthesis of nitrogen-functionalized β-cycloaltrins |
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| Convenient methods for the synthesis of ferrocene-carbohydrate conjugates |
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| Synthesis and crystal-chemistry of Na(NaMg Mg 5 Si 8 O 22 (OH) 2 , a P2 1 /m amphibole |
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| Synthesis of peptide dendrimers based on a β-cyclodextrin core with guest binding ability |
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| Diverse motifs of mannoside clustering on a β-cyclodextrin core |
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| Dendritic galactosides based on a <i>β</i>-cyclodextrin core for the construction of site-specific molecular delivery systems:: Synthesis and molecular recognition studies |
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| Synthesis of β-cyclodextrin, per-<i>O</i>-glycosylated through an ethylene glycol spacer arm |
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| Binding affinity properties of dendritic glycosides based on a β-cyclodextrin core toward guest molecules and concanavalin A |
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| Synthesis of cluster <i>N</i>-glycosides based on a β-cyclodextrin core |
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| Synthesis of per-glycosylated β-cyclodextrins having enhanced lectin binding affinity |
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| Synthesis of 6-deoxyheptose derivatives via cyclic sulfates and oxetanes |
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| Expeditious synthesis of monosulfated thio-linked disaccharides |
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| Efficient one-pot syntheses of chloroacetyl and S-acetylmercaptoacetyl N-glycosides from glycosyl azides |
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| COMPARISON OF N-DTS AND N-ALOC IN THE SOLID-PHASE SYNTHESES OF O-GLCNAC GLYCOPEPTIDE FRAGMENTS OF RNA-POLYMERASE-II AND MAMMALIAN NEUROFILAMENTS |
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| USE OF DIPHENYLACETYL CHLORIDE AS PROTECTIVE REAGENT FOR SUGARS (JAN, 97, 1994) |
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| CONVENIENT SYNTHESIS OF O-(2-ACETAMIDO-2-DEOXY-BETA-D-GLUCOPYRANOSYL)-SERINE AND THREONINE BUILDING-BLOCKS FOR SOLID-PHASE GLYCOPEPTIDE ASSEMBLY |
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| SELECTIVE PIVALOYLATION AND DIPHENYLACETYLATION OF CYCLOMALTOOLIGOSACCHARIDES |
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| SYNTHESIS OF GLYCOSYLTYROSINE BUILDING-BLOCKS FOR SOLID-PHASE GLYCOPEPTIDE ASSEMBLY - USE OF ARYL TERT-BUTYL ETHERS AS GLYCOSYL ACCEPTERS IN AROMATIC GLYCOSYLATIONS |
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| USE OF DIPHENYLACETYL CHLORIDE AS PROTECTIVE REAGENT FOR SUGARS |
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| CONFORMATIONAL-ANALYSIS ON CYCLOHEXANE, OXANE, AND THIANE DERIVATIVES BEARING 2 GEMINAL ELECTRON-WITHDRAWING GROUPS AND ACETOXY SUBSTITUENTS AT THE BETA AND BETA' CARBONS |
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| A SHORT SYNTHESIS OF DIHYDROXYSPIROHYDANTOINS FROM 1,5-DIALDEHYDES |
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| IMPROVED PREPARATION OF HEXAKIS(6-DEOXY)CYCLOMALTOHEXAOSE AND HEPTAKIS(6-DEOXY)CYCLOMALTOHEPTAOSE |
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| SYNTHESIS OF SOME FURTHER C-3 BRANCHED 3-AMINO-2,3,6-TRIDEOXY SUGARS, RELATED TO DAUNOSAMINE, AS POTENTIAL COMPONENTS FOR STRUCTURALLY MODIFIED ANTHRACYCLINES |
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| SYNTHESIS OF A CYCLOHEPTAOSE CONSISTING OF (1 -] 4)-LINKED 7-AMINO-6,7-DIDEOXY-ALPHA-D-GLUCO-HEPTOPYRANOSYL UNITS - A NEW ANALOG OF CYCLOMALTOHEPTAOSE |
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| REDUCTIVE DECYANATION OF 3-AMINO-3-CYANO-3-DEOXY SUGARS WITH SODIUM-BOROHYDRIDE - A NEW APPROACH TO 3-AMINO-3-DEOXY SUGARS |
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| SYNTHESIS OF METHYL 3-AMINO-3,6-DIDEOXY-ALPHA-L-HEXOPYRANOSIDES BRANCHED AT C-3 |
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| SYNTHESIS OF METHYL 3-DEOXY-3-NITROHEPTOSEPTANOSIDES |
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| APPLICATION OF THE HOFMANN REARRANGEMENT IN THE SYNTHESIS OF 3-AMINO SUGAR-DERIVATIVES - PREPARATION OF SOME 3-TERT-BUTOXYCARBONYLAMINO-3-CYANO-3-DEOXY AND 3-ACETAMIDOMETHYL-3-TERT-BUTOXYCARBONYLAMINO-3-DEOXY SUGARS |
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| SYNTHESIS OF 3-CYANO-3-DEOXY-HEPTOSEPTANOSIDES BRANCHED AT C-3 |
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| USE OF POTASSIUM FLUORIDE IN THE CYCLIZATION OF 3-HETERO-1,5-DIALDEHYDES WITH NITROMETHANE AND ETHYL NITROACETATE |
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