Ting Zhang scite author profile

A novel microfluidic picoliter-scale sample introduction approach was developed by combining the spontaneous injection approach with a capillary electrophoresis (CE) system based on a short capillary and slotted-vial array. A droplet splitting phenomenon at the capillary inlet end during the spontaneous sample introduction process was observed for the first time. On the basis of this phenomenon, a translational spontaneous injection approach was established to reduce sample injection volumes to the sub-100 pL range. A versatile high-speed capillary electrophoresis (HSCE) system was built on the basis of this sample injection approach with separation performance comparable to or even better than those reported in microfluidic chip-based CE systems. The HSCE system was composed of a short fused-silica capillary and an automated sample introduction system with slotted sample and buffer reservoirs and a computer-programmed translational stage. The translational spontaneous sample injection was performed by linearly moving the stage, allowing the capillary inlet first to enter the sample solution and then removing it. A droplet was left at the tip end and spontaneously drawn into the capillary by surface tension effect to achieve sample injection. The stage was continuously moved to allow the capillary inlet to be immersed into the buffer solution, and CE separation was performed by applying a high voltage between the buffer and waste reservoirs. With the use of the novel system, high-speed and efficient capillary zone electrophoresis (CZE) separation of a mixture of five fluorescein isothiocyanate (FITC) labeled amino acids was achieved within 5.4 s in a short capillary with a separation length of 15 mm, reaching separation efficiencies up to 0.40 microm plate height. Outstanding peak height precisions ranging from 1.2% to 3.7% RSD were achieved in 51 consecutive separations. By extension of the separation length to 50 mm, both high-speed and high-resolution CZE separation of eight FITC-labeled amino acids could be obtained in less than 21 s with theoretical plates ranging from 163,000 to 251,000 (corresponding to 0.31-0.20 microm plate heights). The present HSCE system also allowed fast chiral separations of FITC-labeled amino acids under micellar electrokinetic chromatography (MEKC) mode within 6.5 s.

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Immune Complex/Ig Negatively Regulate TLR4-Triggered Inflammatory Response in Macrophages through FcγRIIb-Dependent PGE2 Production

Zhang

Liu

et al. 2009

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Excessive activation of TLR may induce endotoxin shock and inflammatory diseases, so the negative regulation of TLR-triggered inflammatory response attracts much attention. Nonpathogenic immune complex (IC) and Ig (IC/Ig) have been shown to play important roles in the regulation of immune responses and to be therapeutic in some kinds of autoimmune diseases. However, the role of IC/Ig in the regulation of TLR-triggered inflammatory responses and the underlying mechanisms remain to be fully understood. In this study we demonstrate that IC/Ig can significantly inhibit LPS-induced secretion of TNF-␣ and IL-6 from macrophages by preferentially inducing PGE 2 . Pretreatment of mice with IC can protect wild-type mice, but not Fc␥RIIb ؊/؊

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Investigation of the genotoxicity of quinocetone, carbadox and olaquindox in vitro using Vero cells

Chen

Tang

Jin

et al. 2009

Food and Chemical Toxicology

123

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Ting Zhang

Topological Creation of Acoustic Pseudospin Multipoles in a Flow-Free Symmetry-Broken Metamaterial Lattice

Microfluidic Picoliter-Scale Translational Spontaneous Sample Introduction for High-Speed Capillary Electrophoresis

Immune Complex/Ig Negatively Regulate TLR4-Triggered Inflammatory Response in Macrophages through FcγRIIb-Dependent PGE2 Production

Investigation of the genotoxicity of quinocetone, carbadox and olaquindox in vitro using Vero cells

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