Fluorescent Block Copolymer Micelles That Can Self-Report on Their Assembly and Small Molecule Encapsulation

Robin, Mathew P.; Osborne, Shani A. M.; Pikramenou, Zoe; Raymond, Jeffery E.; O’Reilly, Rachel K.

doi:10.1021/acs.macromol.5b02152

Cited by 41 publications

(47 citation statements)

References 57 publications

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“…Self‐assembly has emerged as a powerful method to create supramolecular assemblies with various sizes, architectures, and functionalities . Driving forces can be different noncovalent interactions like hydrogen bonding, metal coordination, amphiphilicity, ionic interactions, or more specific binding motifs .…”

Section: Introductionmentioning

confidence: 99%

Porphyrin-Polyelectrolyte Nanoassemblies: The Role of Charge and Building Block Architecture in Self-Assembly

Frühbeißer

Gröhn

2017

Macromol. Chem. Phys.

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In this study, the self‐assembly of ionic porphyrins and polyelectrolytes in dependence on the polyelectrolyte architecture and molecular mass is investigated systematically. The systems consist of tetravalent anionic meso‐tetrakis(4‐sulfonatophenyl)‐porphyrin (TPPS), which is combined with different positively charged macroions: poly(amidoamine) dendrimer of generation 4, linear polylysine of different molecular masses, poly(diallyldimethylammonium chloride), and a cylindrical poly‐l‐lysine brush. Light scattering reveals defined supramolecular assemblies with hydrodynamic radii between RH = 30 nm and RH = 180 nm. Further, size and shape of TPPS–polyelectrolyte assemblies are substantially affected by the polyelectrolyte architecture but less by the molecular mass of the polyelectrolyte. ζ‐potential measurements detect an assembly charge corresponding to the excess component that is responsible for the aggregate being stable in solution.

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Section: Introductionmentioning

confidence: 99%

Porphyrin-Polyelectrolyte Nanoassemblies: The Role of Charge and Building Block Architecture in Self-Assembly

Frühbeißer

Gröhn

2017

Macromol. Chem. Phys.

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“…32 In addition, since the TPE units are structurally located inside the micelle, the water contact of luminescence units can be reduced, thereby inhibiting the nonradiative decay caused by contact with a high polar solvent. 33 As a result, this study clearly shows that the newly designed P-TPE-TG based on enzymatically activatable micellization can be a useful tool for monitoring ALP's activity.…”

Section: Optical Response Of P-tpe-tg To Alpmentioning

confidence: 58%

A ratiometric fluorescence sensor based on enzymatically activatable micellization of TPE derivatives for quantitative detection of alkaline phosphatase activity in serum

Lee

Kim

et al. 2020

RSC Adv.

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“…To study disulfide re‐bridging on enzymes, the five disulfide bonds of α‐CT were targeted as handles for conjugation. N‐ methyldibromomaleimide (M‐DBM) was chosen as the initial conjugating molecule, due to its small size and reported resistance to hydrolysis, and TCEP was used to reduce the disulfides prior to conjugation (Fig. (A)).…”

Section: Resultsmentioning

confidence: 99%

“…In vivo studies of DTM polymers enabled differentiation of the micellar and unimeric species, based on fluorescence lifetime imaging microscopy, as a consequence of the shorter fluorescence lifetimes of the unimeric species . The presence of a DTM dye also allows detection of guest molecules by Förster resonance energy transfer …”

Section: Introductionmentioning

confidence: 99%

Utilizing functionalized bromomaleimides for fluorogenic conjugation and PEGylation of enzymes

Husband

Hill

O’Reilly

2019

Polymer International

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Two efficient enzyme conjugation techniques have been explored by exploiting the reactions of bromomaleimides. The conjugations utilize monobromo-and dibromomaleimides, which have been reacted with reduced disulfide bonds or terminal amines in -chymotrypsin and human lysozyme. These reactions allow the formation of dithio-, monoamino-and aminobromomaleimides, which are solvent-dependent fluorophores and have a handle for further functionalization, which allowed fluorogenic PEGylation via this technique. In this work, the efficiency of these maleimide conjugations was monitored and the fluorescence of the resulting conjugates was examined. The quantum yields of the small-molecule maleimide conjugates were calculated, but are low due to solvent quenching effects. Catalytic activities of the conjugate enzymes were compared to those of their respective native enzymes, which show no discernible effect of the modifications on enzymatic activity or stability at room temperature.

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Fluorescent Block Copolymer Micelles That Can Self-Report on Their Assembly and Small Molecule Encapsulation

Cited by 41 publications

References 57 publications

Porphyrin-Polyelectrolyte Nanoassemblies: The Role of Charge and Building Block Architecture in Self-Assembly

Porphyrin-Polyelectrolyte Nanoassemblies: The Role of Charge and Building Block Architecture in Self-Assembly

A ratiometric fluorescence sensor based on enzymatically activatable micellization of TPE derivatives for quantitative detection of alkaline phosphatase activity in serum

Utilizing functionalized bromomaleimides for fluorogenic conjugation and PEGylation of enzymes

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