化学
分辨率(逻辑)
色谱法
纤维素
高分辨率
机制(生物学)
色谱分离
疏水效应
蛋白质纯化
微球
组合化学
分析物
表面改性
分离法
分离(统计)
化学改性
靶蛋白
纳米技术
静电
亲水作用色谱法
复矩阵
亲和层析
作者
Aiwen Lei,Huili Guo,Zhihao Yu,Mao Chen,Jiawei Liu,Quan Bai
标识
DOI:10.1021/acs.analchem.5c07628
摘要
High separation resolution is essential for ion-exchange chromatography to achieve purification of proteins with similar net surface charge within a limited separation window. Herein, the hydrophobic-regulated design concept was proposed to enhance the separation resolution of ion-exchange cellulose microspheres (CMs, 10-25 μm). Site-targeted hydrophobic modification significantly improved the resolution of quaternary ammonium-functionalized CMs, enabling baseline separation of seven proteins (resolution ≥1.5). The established "ion anchoring-hydrophobic locking" synergistic mechanism elucidates this enhancement: ion anchoring provides charge-selective binding while hydrophobic locking recognizes subtle structural differences of proteins. The hydrophobic-regulated sulfonic acid-functionalized CMs also achieved enhanced resolution, demonstrating the universal applicability of the design concept. Moreover, homogenization-stirring coupled technique (HSCT)-synthesized CMs, featuring small size, efficient mass transfer, facile surface modifiability, and structural stability, underpin the high-resolution separation performance. Practical application capability was evaluated through acid/base tolerance, reusability, protein binding capacity, and real-sample analyses. This study presents a scalable design concept for advanced chromatographic packings, providing a paradigm for separating complex biological systems.
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