Fuyang Qu scite author profile

Fuyang Qu

3Publications

79Citation Statements Received

179Citation Statements Given

How they've been cited

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150

172

Affiliations

Chinese University of Hong Kong, National Center for Nanoscience and Technology, University of Chinese Academy of Sciences

Publications

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Synergistic Inhibitory Effect of Peptide–Organic Coassemblies on Amyloid Aggregation

Lin

Liu

et al. 2016

ACS Nano

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Inhibition of amyloid aggregation is important for developing potential therapeutic strategies of amyloid-related diseases. Herein, we report that the inhibition effect of a pristine peptide motif (KLVFF) can be significantly improved by introducing a terminal regulatory moiety (terpyridine). The molecular-level observations by using scanning tunneling microscopy reveal stoichiometry-dependent polymorphism of the coassembly structures, which originates from the terminal interactions of peptide with organic modulator moieties and can be attributed to the secondary structures of peptides and conformations of the organic molecules. Furthermore, the polymorphism of the peptide-organic coassemblies is shown to be correlated to distinctively different inhibition effects on amyloid-β 42 (Aβ42) aggregations and cytotoxicity.

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Principles of Inter-Amino-Acid Recognition Revealed by Binding Energies between Homogeneous Oligopeptides

Duan

et al. 2019

ACS Cent. Sci.

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We have determined the interaction strengths of the common naturally occurring amino acids using a complete binding affinity matrix of 20 × 20 pairs of homo-octapeptides consisting of the 20 common amino acids between stationary and mobile states. We used a bead-based fluorescence assay for these measurements. The results provide a basis for analyzing specificity, polymorphisms, and selectivity of inter-amino-acid interactions. Comparative analyses of the binding energies, i.e., the free energies of association (ΔGA), reveal contributions assignable to both main-chain-related and side-chain-related interactions originating from the chemical structures of these 20 common amino acids. Side-chain–side-chain and side-chain–main-chain interactions are found to be pronounced in an identified set of amino acid pairs that determine the basis of inter-amino-acid recognition.

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Double emulsion-pretreated microwell culture for the in vitro production of multicellular spheroids and their in situ analysis

Zhao

Cheng

et al. 2021

Microsyst Nanoeng

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Multicellular spheroids have served as a promising preclinical model for drug efficacy testing and disease modeling. Many microfluidic technologies, including those based on water–oil–water double emulsions, have been introduced for the production of spheroids. However, sustained culture and the in situ characterization of the generated spheroids are currently unavailable for the double emulsion-based spheroid model. This study presents a streamlined workflow, termed the double emulsion-pretreated microwell culture (DEPMiC), incorporating the features of (1) effective initiation of uniform-sized multicellular spheroids by the pretreatment of double emulsions produced by microfluidics without the requirement of biomaterial scaffolds; (2) sustained maintenance and culture of the produced spheroids with facile removal of the oil confinement; and (3) in situ characterization of individual spheroids localized in microwells by a built-in analytical station. Characterized by microscopic observations and Raman spectroscopy, the DEPMiC cultivated spheroids accumulated elevated lipid ordering on the apical membrane, similar to that observed in their Matrigel counterparts. Made possible by the proposed technological advancement, this study subsequently examined the drug responses of these in vitro-generated multicellular spheroids. The developed DEPMiC platform is expected to generate health benefits in personalized cancer treatment by offering a pre-animal tool to dissect heterogeneity from individual tumor spheroids.

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Fuyang Qu

Synergistic Inhibitory Effect of Peptide–Organic Coassemblies on Amyloid Aggregation

Principles of Inter-Amino-Acid Recognition Revealed by Binding Energies between Homogeneous Oligopeptides

Double emulsion-pretreated microwell culture for the in vitro production of multicellular spheroids and their in situ analysis

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