A. V. Simonyan scite author profile

We describe the construction of enzymatic nanoreactors through noncovalent envelopment of a glycoprotein by amphiphilic linear-dendritic AB or ABA copolymers. The synthetic procedure is based on the regioselective adsorption of dendritic poly(benzyl ether)-block-linear poly(ethylene glycol)-block-dendritic poly(benzyl ether) or linear poly(ethylene oxide)-block-dendritic poly(benzyl ether) copolymers onto the oxidative enzyme laccase from Trametes versicolor in aqueous medium. The complexes formed have improved catalytic activity compared with the native enzyme (77-85 nkat/mL vs 60 nkat/mL, respectively) and are more stable at elevated temperatures up to 70 degrees C. Experiments with deglycosylated laccase confirm that the glycoside fragments in the native enzyme serve as the anchor sites for the linear-dendritic copolymers. The enzymatic nanoreactors are able to effectively oxidize series of substrates: phenolic compounds (syringaldazine) and hydrophobic polyaromatic hydrocarbons (anthracene and benzo[a]pyrene) under "green" chemistry conditions.

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Synthesis of novel asymmetric dendritic‐linear‐dendritic block copolymers via “living” anionic polymerization of ethylene oxide initiated by dendritic macroinitiators

Gitsov

Simonyan

Vladimirov

2007

J. Polym. Sci. A Polym. Chem.

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The first synthesis of asymmetric dendritic-linear-dendritic ABC block copolymers, that contain a linear B block and dissimilar A and C dendritic fragments is reported. Third generation poly(benzyl ether) monodendrons having benzyl alcohol moiety at their ''focal'' point were activated by quantitative titration with organometallic anions and the resulting alkoxides were used as initiators in the ''living'' ringopening polymerization of ethylene oxide. The reaction proceeded in controlled fashion at 40-50 8C affording linear-dendritic AB block copolymers with predictable molecular weights (M w ¼ 6000-13,000) and narrow molecular weight distributions (M w /M n ¼ 1.02-1.04). The propagation process was monitored by size-exclusion chromatography with multiple detection. The resulting ''living'' copolymers were terminated by reaction either with HCl/tetrahydrofuran or with a reactive monodendron that differed from the initiating dendron not only in size, but also in chemical composition. The asymmetric triblock copolymers follow a peculiar structure-induced selfassembly pattern in block-selective solvents as evidenced by size-exclusion chromatography in combination with multi-angle light scattering.Dedicated to the 50th anniversary of the discovery of the ''living'' anionic polymerization by Michael M. Szwarc.

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Linear-Dendritic Supramolecular Complexes as Nanoscale Reaction Vessels for “Green” Chemistry. Diels−Alder Reactions between Fullerene C₆₀ and Polycyclic Aromatic Hydrocarbons in Aqueous Medium

Simonyan

Gitsov

2008

Langmuir

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This study describes the first Diels-Alder (DA) reaction performed in aqueous medium with highly hydrophobic compounds-fullerene (C 60) as the dienophile and anthracene (An) or tetracene (Tet) as the dienes, respectively. The reactions are performed in nanocontainers, constructed by self-assembly of linear-dendritic amphiphilic copolymers with poly(ethylene glycol), PEG or poly(ethylene oxide), PEO as the hydrophilic blocks and poly(benzyl ether) monodendrons as the hydrophobic fragments: G3PEO13k, dG3 and dG2. Comparative studies under identical conditions are carried out with an amphiphilic linear-linear copolymer, poly(styrene)1800- block-PEO2100, PSt-PEO, and the nonionic surfactant Igepal CO-720, IP720. The binding affinity of supermolecules built of these amphiphiles toward the DA reagents decreases in the following order: G3PEO13k > dG3 > PSt-PEO > dG2 > IP720. The kinetic constant of binding is evaluated for tetracene and decreases in a similar fashion: 5 x 10 (-7) M/min (G3PEO13k), through 4 x 10 (-7) M/min (PSt-PEO) down to 1.5 x 10 (-7) M/min for IP720. The mobility of substrates encapsulated in the micellar core, estimated by pyrene fluorescence decay, is 95-121 ns for the micelles of the linear-dendritic copolymers and notably higher for PSt-PEO (152 ns), revealing the much denser interior of the linear analogue. The apparent kinetic constant for the DA reaction of C 60 and Tet within the G3PEO13k supermolecule in aqueous medium is markedly higher than in organic solvent (toluene), 208 vs 1.82 M /min. With G3PEO13k the conversions reach 49% for the DA reaction between C 60 and An, and 55% for C 60 and Tet. Besides the monoadduct (26.5% yield) the reaction with An produces exclusively increasing amounts of D 2 h -symmetric antipodal bis-adduct, whose yield reaches up to 22.5% after 48 h. In addition to the environmentally friendly conditions notable advantages of the synthetic strategy described are the extended stability of the linear-dendritic nanovessels, the easy collection of the products formed, and the recovery and reuse of unreacted reagents and linear-dendritic copolymers.

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A. V. Simonyan

Enzymatic Nanoreactors for Environmentally Benign Biotransformations. 1. Formation and Catalytic Activity of Supramolecular Complexes of Laccase and Linear−Dendritic Block Copolymers

Synthesis of novel asymmetric dendritic‐linear‐dendritic block copolymers via “living” anionic polymerization of ethylene oxide initiated by dendritic macroinitiators

Linear-Dendritic Supramolecular Complexes as Nanoscale Reaction Vessels for “Green” Chemistry. Diels−Alder Reactions between Fullerene C₆₀ and Polycyclic Aromatic Hydrocarbons in Aqueous Medium

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A. V. Simonyan

Enzymatic Nanoreactors for Environmentally Benign Biotransformations. 1. Formation and Catalytic Activity of Supramolecular Complexes of Laccase and Linear−Dendritic Block Copolymers

Synthesis of novel asymmetric dendritic‐linear‐dendritic block copolymers via “living” anionic polymerization of ethylene oxide initiated by dendritic macroinitiators

Linear-Dendritic Supramolecular Complexes as Nanoscale Reaction Vessels for “Green” Chemistry. Diels−Alder Reactions between Fullerene C60 and Polycyclic Aromatic Hydrocarbons in Aqueous Medium

Contact Info

Product

Resources

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Linear-Dendritic Supramolecular Complexes as Nanoscale Reaction Vessels for “Green” Chemistry. Diels−Alder Reactions between Fullerene C₆₀ and Polycyclic Aromatic Hydrocarbons in Aqueous Medium