Mikheil Doroshenko scite author profile

A facile, noncovalent solid-phase immobilization platform is described to assemble Janus-like supramolecular fusion proteins that are responsive to external stimuli. A chemically postmodified transporter protein, DHSA, is fused with (imino)biotinylated cargo proteins via an avidin adaptor with a high degree of spatial control. Notably, the derived heterofusion proteins are able to cross cellular membranes, dissociate at acidic pH due to the iminobiotin linker and preserve the enzymatic activity of the cargo proteins β-galactosidase and the enzymatic subunit of Clostridium botulinum C2 toxin. The mix-and-match strategy described herein opens unique opportunities to access macromolecular architectures of high structural definition and biological activity, thus complementing protein ligation and recombinant protein expression techniques.

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Dendronized Albumin Core–Shell Transporters with High Drug Loading Capacity

Kuan

Stöckle

Reichenwallner

et al. 2013

Biomacromolecules

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We describe the synthesis of a core-shell biohybrid consisting of a human serum albumin (HSA) core that serves as a reservoir for lipophilic molecules and a cationized shell region consisting of ethynyl-G2.0-PAMAM or ethynyl-G3.0-PAMAM dendrons. The binding capacity of lipophilic guests was quantified applying electron paramagnetic resonance (EPR) spectroscopy, and five to six out of seven pockets were still available compared with HSA. The attachment of ethynyl-G2.0-PAMAM dendrons to HSA yielded a nontoxic core-shell macromolecule that was clearly uptaken by A549 human epithelial cells due to the presence of the dendritic PAMAM shell. Significantly higher loading of doxorubicin was observed for dendronized G2-DHSA compared with the native protein due to the availability of binding pockets of the HSA core, and interaction with the dendritic shell. Dendronized G2-DHSA-doxorubicin displayed significant cytotoxicity resulting from high drug loading and high stability under different conditions, thus demonstrating its great potential as a transporter for drug molecules.

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A Quantum Dot Photoswitch for DNA Detection, Gene Transfection, and Live‐Cell Imaging

Eisele

Doroshenko

et al. 2012

Small

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Quantum dots (QDs) coated with an albumin-derived copolymer shell exhibit significant photoresponsiveness to DNA loading and have great potential for investigating gene delivery processes. The QDs reported herein are positively charged, have attractive optical properties, and are noncytotoxic and notably stable in live cells. Their complex formation with plasmid DNA leads to proportionally decreased photoluminescence and efficient gene transfection is observed. Therefore, they are suitable for live-cell bioimaging and mechanistic studies of nonviral gene delivery. Fluorescence correlation spectroscopy is applied for the first time to investigate individual QDs diffusing in large endosomes inside living cells, and serves as a valuable tool to study the physical properties of QDs inside live cells. The data obtained in this study strongly support the notable stability of these QDs, even in cell endosomes.

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Tailoring of viscoelastic properties and light-induced actuation performance of triblock copolymer composites through surface modification of carbon nanotubes

Ilčíková

Mrlík

Sedláček

et al. 2015

Polymer

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