Synthesis of a hydrophilic maltose functionalized Au NP/PDA/FeO-RGO magnetic nanocomposite for the highly specific enrichment of glycopeptides

The development of methods to isolate and enrich low-abundance glycopeptides is an important prerequisite for glycoproteomics research. In this study, a hydrophilic maltose functionalized Au nanoparticle (NP)/polydopamine (PDA)/Fe 3 O 4 -reduced graphene oxide (RGO) nanocomposite has been successful...

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Published in	RSC advances Vol. 5; no. 73; pp. 5948 - 59416
Main Authors	Bi, Changfen, Jiang, Ruidong, He, Xiwen, Chen, Langxing, Zhang, Yukui
Format	Journal Article
Language	English
Published	08.07.2015
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Abstract	The development of methods to isolate and enrich low-abundance glycopeptides is an important prerequisite for glycoproteomics research. In this study, a hydrophilic maltose functionalized Au nanoparticle (NP)/polydopamine (PDA)/Fe 3 O 4 -reduced graphene oxide (RGO) nanocomposite has been successfully synthesized in mild conditions. The bioadhesive polydopamine film was prepared by self-polymerization on the surface of Fe 3 O 4 -graphene oxide, which not only prevents the agglomeration of the graphene sheets and enhances the specific surface area, but also facilitates the Au NP immobilization. A great number of loading Au NPs possess the highly available surface area for the immobilization of the high density of the thiol-terminated maltose via Au-S bonds. The resulting Au NP-maltose/PDA/Fe 3 O 4 -RGO nanocomposite exhibits excellent environmental stability, good biocompatibility and water dispersibility. Furthermore, the highly loaded Fe 3 O 4 NPs make the enrichment very convenient. With all of these advances, the novel Au NP-maltose/PDA/Fe 3 O 4 -RGO nanocomposite presents selective enrichment of the glycopeptides from a low concentration of horseradish peroxidase tryptic digest (0.1 ng μL −1 ). A novel approach was developed to synthesize a hydrophilic thiol-terminated maltose-functionalized Au NP/PDA/Fe 3 O 4 -RGO nanocomposite which exhibited high selectivity and detection sensitivity in the enrichment of glycopeptides from complex samples.
AbstractList	The development of methods to isolate and enrich low-abundance glycopeptides is an important prerequisite for glycoproteomics research. In this study, a hydrophilic maltose functionalized Au nanoparticle (NP)/polydopamine (PDA)/Fe 3 O 4 -reduced graphene oxide (RGO) nanocomposite has been successfully synthesized in mild conditions. The bioadhesive polydopamine film was prepared by self-polymerization on the surface of Fe 3 O 4 -graphene oxide, which not only prevents the agglomeration of the graphene sheets and enhances the specific surface area, but also facilitates the Au NP immobilization. A great number of loading Au NPs possess the highly available surface area for the immobilization of the high density of the thiol-terminated maltose via Au-S bonds. The resulting Au NP-maltose/PDA/Fe 3 O 4 -RGO nanocomposite exhibits excellent environmental stability, good biocompatibility and water dispersibility. Furthermore, the highly loaded Fe 3 O 4 NPs make the enrichment very convenient. With all of these advances, the novel Au NP-maltose/PDA/Fe 3 O 4 -RGO nanocomposite presents selective enrichment of the glycopeptides from a low concentration of horseradish peroxidase tryptic digest (0.1 ng μL −1 ). A novel approach was developed to synthesize a hydrophilic thiol-terminated maltose-functionalized Au NP/PDA/Fe 3 O 4 -RGO nanocomposite which exhibited high selectivity and detection sensitivity in the enrichment of glycopeptides from complex samples.
Author	He, Xiwen Bi, Changfen Chen, Langxing Zhang, Yukui Jiang, Ruidong
AuthorAffiliation	Chinese Academy of Sciences Research Center for Analytical Sciences Nankai University College of Chemistry Tianjin Key Laboratory of Biosensing and Molecular Recognition State Key Laboratory of Medicinal Chemical Biology Collaborative Innovation Center of Chemical Science and Engineering (Tianjin) Dalian Institute of Chemical Physics
AuthorAffiliation_xml	– name: Collaborative Innovation Center of Chemical Science and Engineering (Tianjin) – name: Dalian Institute of Chemical Physics – name: Chinese Academy of Sciences – name: Tianjin Key Laboratory of Biosensing and Molecular Recognition – name: Research Center for Analytical Sciences – name: College of Chemistry – name: State Key Laboratory of Medicinal Chemical Biology – name: Nankai University
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