Title : Polydopamine-based superparamagnetic molecularly imprinted polymer nanospheres for efficient protein recognition.

Pub. Date : 2014 Nov 1

PMID : 25288533






5 Functional Relationships(s)
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Sentence
Compound Name
Protein Name
Organism
1 The lyz-imprinted Fe3O4/PMMA/PDA MIPNSs exhibited specific recognition and efficient adsorption capacity toward lyz template. ferryl iron lysozyme Homo sapiens
2 The lyz-imprinted Fe3O4/PMMA/PDA MIPNSs exhibited specific recognition and efficient adsorption capacity toward lyz template. ferryl iron lysozyme Homo sapiens
3 The amount of lyz adsorbed onto the lyz-imprinted Fe3O4/PMMA/PDA MIPNSs was about 4 times greater than that of the Fe3O4/PMMA/PDA non-imprinted polymer nanospheres (NIPNSs) and about 14, 5, and 5 times greater than that of BSA, BHb, and cyt C, respectively. ferryl iron lysozyme Homo sapiens
4 The amount of lyz adsorbed onto the lyz-imprinted Fe3O4/PMMA/PDA MIPNSs was about 4 times greater than that of the Fe3O4/PMMA/PDA non-imprinted polymer nanospheres (NIPNSs) and about 14, 5, and 5 times greater than that of BSA, BHb, and cyt C, respectively. ferryl iron lysozyme Homo sapiens
5 The amount of lyz adsorbed onto the lyz-imprinted Fe3O4/PMMA/PDA MIPNSs was about 4 times greater than that of the Fe3O4/PMMA/PDA non-imprinted polymer nanospheres (NIPNSs) and about 14, 5, and 5 times greater than that of BSA, BHb, and cyt C, respectively. ferryl iron lysozyme Homo sapiens