Magnetic Fe3O4@mTiO2-AIPA Microspheres for Separation of Phosphoproteins and Non-phosphoproteins
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2019年第3期
论文作者:汤秋菡 ZHAO Rui 陆琦 卿光焱
文章页码:752 - 759
摘 要:A novel phosphoprotein separation material was developed, which is constructed by a magnetic mesoporous Fe3 O4@TiO2(Fe3 O4@mTiO2) microsphere and a 5-aminoisophthalic acid(AIPA) monolayer that provides additional binding sites toward phosphate groups. The results of characteristic experiments demonstrated that Fe3 O4@mTiO2-AIPA had good dispersability, high magnetic susceptibility, and satisfactory grafting ratio of AIPA, ascribed to the large specific surface area of the inorganic substrate. Taking advantages of these features, Fe3 O4@mTiO2-AIPA was successfully utilized to separate α-casein(a typical phosphoprotein) and bovine serum albumin(BSA, a typical non-phosphoprotein) from their mixtures(molar ratio = 1:2). Through adjusting pH and polarity of solutions, the BSA and α-casein were respectively enriched in washing fraction and elution fraction. This result displays the good potential of Fe3 O4@mTiO2-AIPA for application in phosphoprotein enrichment.
汤秋菡1,ZHAO Rui2,陆琦2,3,卿光焱2
1. School of Chemistry,Chemical Engineering and Life Science,Wuhan University of Technology2. State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,Wuhan University of Technology3. Research& Development Center,Jushi Group Co.,Ltd
摘 要:A novel phosphoprotein separation material was developed, which is constructed by a magnetic mesoporous Fe3 O4@TiO2(Fe3 O4@mTiO2) microsphere and a 5-aminoisophthalic acid(AIPA) monolayer that provides additional binding sites toward phosphate groups. The results of characteristic experiments demonstrated that Fe3 O4@mTiO2-AIPA had good dispersability, high magnetic susceptibility, and satisfactory grafting ratio of AIPA, ascribed to the large specific surface area of the inorganic substrate. Taking advantages of these features, Fe3 O4@mTiO2-AIPA was successfully utilized to separate α-casein(a typical phosphoprotein) and bovine serum albumin(BSA, a typical non-phosphoprotein) from their mixtures(molar ratio = 1:2). Through adjusting pH and polarity of solutions, the BSA and α-casein were respectively enriched in washing fraction and elution fraction. This result displays the good potential of Fe3 O4@mTiO2-AIPA for application in phosphoprotein enrichment.
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