Hua-Zhen Duan scite author profile

A novel and facile synthetic strategy for α,α-difluorinated phosphonate mimetics of phosphoserine/phosphothreonine utilizing rhodium-catalyzed asymmetric hydrogenation was developed. The dehydrogenated substrate β-difluorophosphonomethyl α-(acylamino)acrylates were first prepared from protected serine/threonine followed by asymmetric hydrogenation using the rhodium-DuPhos catalytic system to generate the chiral center(s). These important phosphonate building blocks were successfully incorporated into phosphatase-resistant peptides, which displayed similar inhibition to the 14-3-3 ζ protein as the parent pSer/pThr peptides.

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Intrinsically Disordered Protein Condensate-Modified Surface for Mitigation of Biofouling and Foreign Body Response

Chang

Chen

Zhang

et al. 2022

J. Am. Chem. Soc.

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Mitigation of biofouling and the host’s foreign body response (FBR) is a critical challenge with biomedical implants. The surface coating with various anti-fouling materials provides a solution to overcome it, but limited options in clinic and their potential immunogenicity drive the development of more alternative coating materials. Herein, inspired by liquid–liquid phase separation of intrinsically disordered proteins (IDPs) to form separated condensates in physiological conditions, we develop a new type of low-fouling biomaterial based on flexible IDP of FUS protein containing rich hydrophilic residues. A chemical structure-defined FUS IDP sequence tagged with a tetra-cysteine motif (IDPFUS) was engineered and applied for covalent immobilization on various surfaces to form a uniform layer of protein tangles, which boosted strong hydration on surfaces, as revealed by molecular dynamics simulation. The IDPFUS-coated surfaces displayed excellent performance in resisting adsorption of various proteins and adhesion of different cells, platelets, and bacteria. Moreover, the IDPFUS-coated implants largely mitigated the host’s FBR compared with bare implants and particularly outperformed PEG-coated implants in reducing collagen encapsulation. Thus, this novel low-fouling and anti-FBR strategy provides a potential surface coating material for biomedical implants, which will also shed light on exploring similar applications of other IDP proteins.

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Metal ion and light sequentially induced sol–gel–sol transition of a responsive peptide-hydrogel

et al. 2020

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Stereoselective synthesis of a phosphonate pThr mimetic via palladium-catalyzed γ-C(sp³)–H activation for peptide preparation

Duan

Chen

et al. 2019

Org. Biomol. Chem.

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Unremitting progresses for phosphoprotein synthesis

Duan

Nie

et al. 2020

Current Opinion in Chemical Biology

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Hua-Zhen Duan

Synthesis of α,α-Difluorinated Phosphonate pSer/pThr Mimetics via Rhodium-Catalyzed Asymmetric Hydrogenation of β-Difluorophosphonomethyl α-(Acylamino)acrylates

Intrinsically Disordered Protein Condensate-Modified Surface for Mitigation of Biofouling and Foreign Body Response

Metal ion and light sequentially induced sol–gel–sol transition of a responsive peptide-hydrogel

Stereoselective synthesis of a phosphonate pThr mimetic via palladium-catalyzed γ-C(sp³)–H activation for peptide preparation

Unremitting progresses for phosphoprotein synthesis

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Hua-Zhen Duan

Synthesis of α,α-Difluorinated Phosphonate pSer/pThr Mimetics via Rhodium-Catalyzed Asymmetric Hydrogenation of β-Difluorophosphonomethyl α-(Acylamino)acrylates

Intrinsically Disordered Protein Condensate-Modified Surface for Mitigation of Biofouling and Foreign Body Response

Metal ion and light sequentially induced sol–gel–sol transition of a responsive peptide-hydrogel

Stereoselective synthesis of a phosphonate pThr mimetic via palladium-catalyzed γ-C(sp3)–H activation for peptide preparation

Unremitting progresses for phosphoprotein synthesis

Contact Info

Product

Resources

About

Stereoselective synthesis of a phosphonate pThr mimetic via palladium-catalyzed γ-C(sp³)–H activation for peptide preparation