Sodium dodecyl sulfate-capillary gel electrophoresis with native fluorescence detection for analysis of therapeutic proteins.

A 280 nm light-emitting diode (LED) was used as the excitation source for native fluorescence detection (NFD) of proteins in capillary electrophoresis. The NFD scheme was evaluated in sodium dodecyl sulfate-capillary gel electrophoresis (SDS-CGE) for monoclonal antibody (mAb) characterization. Utilizing a technique by which we filtered the LED emission through a 280 nm bandpass filter, we were able to increase overall concentration sensitivity of SDS-CGE-NFD ~2.

Native fluorescence detection with a laser driven light source for protein analysis in capillary electrophoresis.

While ultraviolet light (UV) absorbance detection is the most widely used detection mode in capillary electrophoresis (CE), it can yield poor concentration sensitivity and has tendencies to exhibit baseline fluctuations. In order to overcome these challenges, alternative detection strategies, including the use of dedicated wavelength lasers, have been applied, resulting in enhancements of concentration sensitivity as well as decreased baseline disturbance. In this work, using a laser driven light source for excitation, we reported a native fluorescence detection (NFD) scheme for use in a commercial CE platform, PA 800 Plus Pharmaceutical Analysis System, for protein analysis.

On-column and gradient focusing-induced high-resolution separation in narrow open tubular liquid chromatography and a simple and economic approach for pico-gradient separation.

We have recently obtained extraordinarily high efficiencies and sharp peaks using narrow open tubular (OT) columns for liquid chromatographic separations. On-column focusing is commonly observed in liquid chromatography, but this effect alone could not satisfactorily explain the sharpness of these peaks. In this work we investigated the reasons that could have led to the peak sharpness.

Cam-based vibration-counter-balanced laser-induced fluorescence scanner for multiplexed capillary detection.

Laser-induced fluorescence (LIF) rotary scanners have been successfully used for multiplexed capillary detection. However, these scanners have a limitation that the capillaries have to be assembled in a circular format, which can be inconvenient for certain applications. A linear LIF scanner works well for flat parallel capillary arrays, but motor accelerations/decelerations (for direction changes) and scanning head vibrations introduce high instrumental noises.

Two-dimensional liquid chromatography consisting of twelve second-dimension columns for comprehensive analysis of intact proteins.

A comprehensive two-dimensional liquid chromatography (LCxLC) system consisting of twelve columns in the second dimension was developed for comprehensive analysis of intact proteins in complex biological samples. The system consisted of an ion-exchange column in the first dimension and the twelve reverse-phase columns in the second dimension; all thirteen columns were monolithic and prepared inside 250 µm i.d.

Two-dimensional chromatographic analysis using three second-dimension columns for continuous comprehensive analysis of intact proteins.

We develop a new two-dimensional (2D) high performance liquid chromatography (HPLC) approach for intact protein analysis. Development of 2D HPLC has a bottleneck problem - limited second-dimension (second-D) separation speed. We solve this problem by incorporating multiple second-D columns to allow several second-D separations to be proceeded in parallel.

Confocal laser-induced fluorescence detector for narrow capillary system with yoctomole limit of detection.

Laser-induced fluorescence (LIF) detectors for low-micrometer and sub-micrometer capillary on-column detection are not commercially available. In this paper, we describe in details how to construct a confocal LIF detector to address this issue. We characterize the detector by determining its limit of detection (LOD), linear dynamic range (LDR) and background signal drift; a very low LOD (~70 fluorescein molecules or 12 yoctomole fluorescein), a wide LDR (greater than 3 orders of magnitude) and a small background signal drift (~1.

Simple Means for Fractionating Protein Based on Isoelectric Point without Ampholyte.

In this paper, we develop a simple electrokinetic means for fractionating protein samples according to their pI values without using ampholytes. The method uses inexpensive equipment, and its consumables are primarily ammonium acetate buffers. A key component of its apparatus is a dialysis membrane interface that eliminates electrolysis-caused protein oxidation/reduction and constrains proteins in the desired places.

Charging YOYO-1 on capillary wall for online DNA intercalation and integrating this approach with multiplex PCR and bare narrow capillary-hydrodynamic chromatography for online DNA analysis.

Multiplex polymerase chain reaction (PCR) has been widely utilized for high-throughput pathogen identification. Often, a dye is used to intercalate the amplified DNA fragments, and identifications of the pathogens are carried out by DNA melting curve analysis or gel electrophoresis. Integrating DNA amplification and identification is a logic path toward maximizing the benefit of multiplex PCR.

Simultaneously sizing and quantitating zeptomole-level DNA at high throughput in free solution.

Determining the sizes and measuring the quantities of DNA molecules are fundamental tasks in molecular biology. DNA sizes are usually evaluated by gel electrophoresis, but this method cannot simultaneously size and quantitate a DNA at low zeptomole (zmol) levels of concentration. We have recently developed a new technique, called bare-narrow-capillary/hydrodynamic-chromatography or BaNC-HDC, for resolving DNA based on their sizes without using any sieving matrices.

Resolving DNA at efficiencies of more than a million plates per meter using bare narrow open capillaries without sieving matrices.

We report a novel approach for effectively separating DNA molecules in free solution. The method uses a bare narrow open capillary without any sieving matrices to resolve a wide size-range of DNA fragments at efficiencies of more than a million plates per meter routinely.

Miniaturized electroosmotic pump capable of generating pressures of more than 1200 bar.

The pressure output of a pump cannot be increased simply by connecting several of them in series. This barrier is eliminated with the micropump developed in this work. The pump is actually an assembly of a number of fundamental pump units connected in series.

Pressure-induced transport of DNA confined in narrow capillary channels.

Pressure-induced transport of double-stranded DNA (dsDNA) from 10 base pairs (bp) to 1.9 mega base pairs (Mbp) confined in a 750-nm-radius capillary was studied using a hydrodynamic chromatographic technique and four distinct length regions (rod-like, free-coiled, constant mobility, and transition regions) were observed. The transport behavior varied closely with region changes.

Stacking open-capillary electroosmotic pumps in series to boost the pumping pressure to drive high-performance liquid chromatographic separations.

Numerous micropumps have been developed, but few of them can produce adequate flow rate and pressure for high-performance liquid chromatography (HPLC) applications. We have recently developed an innovative hybrid electroosmotic pump (EOP) to solve this problem. The basic unit of a hybrid pump consists of a +EOP (the pumping element is positively charged) and a -EOP (the pumping element is negatively charged).

Protein separation by capillary gel electrophoresis: a review.

Capillary gel electrophoresis (CGE) has been used for protein separation for more than two decades. Due to the technology advancement, current CGE methods are becoming more and more robust and reliable for protein analysis, and some of the methods have been routinely used for the analysis of protein-based pharmaceuticals and quality controls. In light of this progress, we survey 147 papers related to CGE separations of proteins and present an overview of this technology.

Coupling sodium dodecyl sulfate-capillary polyacrylamide gel electrophoresis with matrix-assisted laser desorption ionization time-of-flight mass spectrometry via a poly(tetrafluoroethylene) membrane.

Sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) is a fundamental analytical technique for proteomic research, and SDS-capillary gel electrophoresis (CGE) is its miniaturized version. Compared to conventional slab-gel electrophoresis, SDS-CGE has many advantages such as increased separation efficiency, reduced separation time, and automated operation. SDS-CGE is not widely accepted in proteomic research primarily due to the difficulties in identifying the well-resolved proteins.

On-line combination of single-drop liquid-liquid-liquid microextraction with capillary electrophoresis for sample cleanup and preconcentration: a simple and efficient approach to determining trace analyte in real matrices.

In order to improve the sensitivity of capillary electrophoresis (CE) and overcome the deficiency of commercial CE instruments in handling complex matrices directly, we proposed a novel technique which combined single-drop liquid-liquid-liquid microextraction (SD-LLLME) with CE on-line. In this technique, SD-LLLME was realized using a commercial CE instrument and, to further concentrate the target analyte, large-volume sample stacking combined sweeping without polarity switching was utilized. Even though without agitating the donor phase in the extraction process, the model compound, adenine was enriched 550-fold in only 10 min.

In-line preconcentration of oxidized and reduced glutathione in capillary zone electrophoresis using transient isotachophoresis under strong counter-electroosmotic flow.

Transient isotachophoresis (tITP) can improve the sensitivity of capillary electrophoresis (CE). In general, it was carried out under the condition of suppressed electroosmotic flow (EOF). However, some special conditions, such as extreme low pH background electrolyte and coating were needed to achieve the requirements of suppressed EOF.

Simultaneous enrichment and separation of neutral and anionic analytes through combining large volume sample stacking with sweeping in CE.

In this work, we overcame the deficiencies of large volume sample stacking (LVSS) in separating low-mobility and neutral analytes through combining LVSS with sweeping in CE, and employed this new approach to enrich and separate neutral and anionic analytes simultaneously. This technique was carried out with pressure injection of large-volume sample followed by EOF as a pump pushing the bulk of low-conductivity sample matrix out of the outlet of the capillary while analytes were swept by micelles and separated via MEKC without the electrode polarity switching. Careful optimization of the enrichment and separation conditions allowed the enrichment factors (EFs) of peak height and peak area of the analytes to be in the range of 9-33 and 21-35 comparing with the conventional injection mode, respectively.

Constant pressure-assisted head-column field-amplified sample injection in combination with in-capillary derivatization for enhancing the sensitivity of capillary electrophoresis.

In this work, a novel method combining constant pressure-assisted head-column field-amplified sample injection (PA-HC-FASI) with in-capillary derivatization was developed for enhancing the sensitivity of capillary electrophoresis. PA-HC-FASI uses an appropriate positive pressure to counterbalance the electroosmotic flow in the capillary column during electrokinetic injection, while taking advantage of the field amplification in the sample matrix and the water of the "head column". Accordingly, the analytes were stacked at the stationary boundary between water and background electrolyte.

Determination of melamine in dairy products, fish feed, and fish by capillary zone electrophoresis with diode array detection.

This paper describes an approach to determine melamine (MEL) in liquid milk, yogurt, whole milk powder, fish feed, and fish at residue levels using capillary zone electrophoresis with diode array detection (CZE-DAD) for the first time. Suspicious samples were extracted with 1% trichloroacetic acid while 1 mL of chloroform was used to precipitate fat in the real samples. After centrifuging and filtering, the extract was analyzed by CZE-DAD directly.