Youli Tian scite author profile

As an effective separation tool, free‐flow electrophoresis has not been used for purification of low‐abundance protein in complex sample matrix. Herein, lysozyme in complex egg white matrix was chosen as the model protein for demonstrating the purification of low‐content peptide via an FFE coupled with gel fitration chromatography (GFC). The crude lysozyme in egg while was first separated via free‐flow zone electrophoresis (FFZE). After that, the fractions with lysozyme activity were condensed via lyophilization. Thereafter, the condensed fractions were further purified via a GFC of Sephadex G50. In all of the experiments, a special poly(acrylamide‐ co‐acrylic acid) (P(AM‐co‐AA)) gel electrophoresis and a mass spectrometry were used for identification of lysozyme. The conditions of FFZE were optimized as follows: 130 μL/min sample flow rate, 4.9 mL/min background buffer of 20 mM pH 5.5 Tris‐Acetic acid, 350 V, and 14 °C as well as 2 mg/mL protein content of crude sample. It was found that the purified lysozyme had the purity of 80% and high activity as compared with its crude sample with only 1.4% content and undetectable activity. The recoveries in the first and second separative steps were 65% and 82%, respectively, and the total recovery was about 53.3%. The reasons of low recovery might be induced by diffusion of lysozyme out off P(AM‐co‐AA) gel and co‐removing of high‐abundance egg ovalbumin. All these results indicated FFE could be used as alternative tool for purification of target solute with low abundance.

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Gel Electrophoresis Chip Using Joule Heat Self-Dissipation, Short Run Time, and Online Dynamic Imaging

Xue

Zhang

Cao

et al. 2021

Anal. Chem.

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Gel electrophoresis (GE) is one of the most general tools in biomedicine. However, it suffers from low resolution, and its mechanism has not been fully revealed yet. Herein, we presented the dispersion model of w 2 (t) ∝ Tt, showing the band dispersion (w) via temperature (T) and running time (t) control. Second, we designed an efficient GE chip via the time control and rapid Joule heat self-dissipation by thermal conductive plastic (TCP) and electrode buffer. Third, we conducted the simulations on TCP and polymethylmethacrylate (PMMA) chips, unveiling that (i) the temperature of TCP was lower than the PMMA one, (ii) the temperature uniformity of TCP was better than the PMMA one, and (iii) the resolution of TCP was superior to the PMMA one. Fourth, we designed both TCP and PMMA chips for experimentally validating the dispersion model, TCP chip, and simulations. Finally, we applied the TCP chip to thalassemia and model urine protein assays. The TCP chip has merits of high resolution, rapid run of 6–10 min, and low cost. This work paves the way for greatly improving electrophoretic techniques in gel, chip, and capillary via temperature and time control for biologic study, biopharma quality control, clinical diagnosis, and so on.

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An efficient isoelectric focusing of microcolumn array chip for screening of adult Beta-Thalassemia

Zha

Xiao

Tian

et al. 2023

Clinica Chimica Acta

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Reciprocating free-flow isoelectric focusing with online array ultraviolet detector for process monitoring of protein separation

Huang

Zhang

Tian

et al. 2022

Journal of Chromatography A

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Youli Tian

Isoelectric point barcode and similarity analysis with the earth mover’s distance for identification of species origin of raw meat

Purification of low‐abundance lysozyme in egg white via free‐flow electrophoresis with gel‐filtration chromatography

Gel Electrophoresis Chip Using Joule Heat Self-Dissipation, Short Run Time, and Online Dynamic Imaging

An efficient isoelectric focusing of microcolumn array chip for screening of adult Beta-Thalassemia

Reciprocating free-flow isoelectric focusing with online array ultraviolet detector for process monitoring of protein separation

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