Your search keyword '"Electrophoresis"' showing total 45 results

1. Consecutive Gated Injection-Based Microchip Electrophoresis for Simultaneous Quantitation of Superoxide Anion and Nitric Oxide in Single PC-12 Cells.

Author

Lu Li, Qingling Li, Peilin Chen, Zhongyi Li, Zhenzhen Chen, and Bo Tang

Subjects

*PROTON mobility, *ELECTROPHORESIS, *ION mobility spectroscopy, *PHASE partition, *CYTOPROTECTION, *SUPEROXIDES

Abstract

As important reactive oxygen species (ROS) and reactive nitrogen species (RNS), cellular superoxide anion ( O2*-) and nitric oxide (NO) play significant roles in numerous physiological and pathological processes. Cellular O2*- and NO also have a dose relationship and always interact with each other. Thus, the simultaneous detection of intracellular O2*- and NO, espedally at the single-cell level, is important. In this paper, we present a novel method to simultaneously detect and quantify O2*- and NO in single cells using microchip electrophoresis based on a new consecutive gated injection method. This novel injection method achieved consecutive manipulation of single cells, guaranteeing an almost constant volumetric flow rate and thus good quantitative reprodudbility. After cellular content separation by microchip electrophoresis and detection by laser-induced fluorescence (MCE-LIE), O2- and NO in single PC-12 cells were simultaneously quantified in an automated fashion. This is the first report of consecutive absolute quantitation at the single-cell level. The quantitative results obtained from single cells is beneficial for deep understanding of the biological roles of cellular O2*- and NO. This new method constitutes a consecutive, accurate way to study the synergistic function of O2*- and NO and other biomolecules in various biological events at the single-cell level. [ABSTRACT FROM AUTHOR]

Published

2016

2. Nearly 1000 Protein Identifications from 50 ng of Xenopus laevis Zygote Homogenate Using Online Sample Preparation on a Strong Cation Exchange Monolith Based Microreactor Coupled with Capillary Zone Electrophoresis.

Author

Zhenbin Zhang, Liangliang Sun, Guijie Zhu, Cox, Olivia F., Huber, Paul W., and Dovichi, Norman J.

Subjects

*PIPIDAE, *PROTON mobility, *ELECTROPHORESIS, *PHASE partition, *ZONE electrophoresis

Abstract

A sulfonate--silica hybrid strong cation exchange monolith microreactor was synthesized and coupled to a linear polyacrylamide coated capillary for online sample preparation and capillary zone electrophoresis-tandem mass spectrometry (CZE-MS/MS) bottom-up proteomic analysis. The protein sample was loaded onto the microreactor in an acidic buffer. After online reduction, alkylation, and digestion with trypsin, the digests were eluted with 200 mM ammonium bicarbonate at pH 8.2 for CZE-MS/MS analysis using 1 M acetic add as the background electrolyte. This combination of basic elution and addic background electrolytes results in both sample stacking and formation of a dynamic pH junction. 369 protein groups and 1274 peptides were identified from 50 ng of Xenopus laevis zygote homogenate, which is comparable with an offline sample preparation method, but the time required for sample preparation was decreased from over 24 h to less than 40 min. Dramatically improved performance was produced by coupling the reactor to a longer separation capillary (~100 cm) and a Q Exactive HF mass spectrometer. 975 protein groups and 3749 peptides were identified from 50 ng of Xenopus protein using the online sample preparation method. [ABSTRACT FROM AUTHOR]

Published

2016

3. Continuous Signal Enhancement for Sensitive Aptamer Affinity Probe Electrophoresis Assay Using Electrokinetic Concentration.

Author

Lih Feng Cheow and Jongyoon Han

Subjects

*ELECTROPHORESIS, *PHASE partition, *MICROFLUIDIC devices, *IMMUNOGLOBULIN E, *REVERSE transcriptase

Abstract

We describe an electrokinetic concentration-enhanced aptamer affinity probe electrophoresis assay to achieve highly sensitive and quantitative detection of protein targets in a microfluidic device. The key weaknesses of aptamer as a binding agent (weak binding strength/fast target dissociation) were counteracted by continuous injection of fresh sample while band-broadening phenomena were minimized due to self-focusing effects. With 30 min of continuous signal enhancement, we can detect 4.4 pM human immunoglobulin E (IgE) and 9 pM human immunodeficiency virus 1 reverse transcriptase (HIV-1 RT), which are among the lowest limits of detection (LOD) reported. IgE was detected in serum sample with a LOD of 39 pM due to nonspecific interactions between aptamers and serum proteins. The method presented in this paper also has broad applicability to improve sensitivities of various other mobility shift assays. [ABSTRACT FROM AUTHOR]

Published

2011

4. Conic Electrophoretic Concentrator for Charged Macromolecules.

Author

Morozov, Victor N., Shlyapnikov, Yuri M., Kidd, Jessica, Morozova, Tamara Y., and Shlyapnikova, Elena A.

Subjects

*ELECTROPHORESIS, *MACROMOLECULES, *IMMUNOGLOBULINS, *CRYSTALLIZATION, *PHASE partition

Abstract

A simple, rapid, and highly effective technique for concentrating charged macromolecules is described which employs electrophoresis in a conic cell made of a dialysis membrane. The cell is partly submerged in electrolyte solution, and the level of solution slowly moves down during the process. The electric field within the cell is at its maximum in the area that is level with the surface of the external solution. This maximum value increases and its location moves downward following the decreasing level of external solution carrying downward and concentrating charged macromolecules. It has been demonstrated that proteins can be concentrated within 12-15 min by a factor of ~100 000 with the total yield of 60-80%. Concentrated proteins can be harvested from the nanoliter-sized cul-de-sac of the conic concentrator using chemically activated magnetic beads. The presence of certain protein molecules linked to the bead's surface can be further revealed by specific reaction with a microarray of antibody molecules. Such "reversed magnetic array" format was applied to a cone-concentrated exhaled breath condensate (EBC) to reveal the presence of human immunoglobulin in the EBC and to estimate its concentration. The technique may be used for concentrating and detecting trace amounts of pathogens and toxins, in protein crystallization, and in many other applications. [ABSTRACT FROM AUTHOR]

Published

2011

5. Mass Transport in a Micro Flow-Through Vial of a Junction-at-the-Tip Capillary Electrophoresis-Mass Spectrometry Interface.

Author

Xuefei Zhong, Maxwell, E. Jane, and Chen, David D. Y.

Subjects

*ELECTROPHORESIS, *MASS spectrometry, *LAMINAR flow, *HYDRODYNAMICS, *PHASE partition

Abstract

When coupling capillary electrophoresis with postcolumn detection methods, such as mass spectrometry, the presence of postcolumn band broadening must be considered. The band broadening effects introduced by junction-at-the-tip CE-MS interfaces using a postcolumn micro flow-through vial are investigated by studying the hydrodynamic flow patterns and mass transport process inside the micro vial at the end of the CE separation capillary. Simulation results obtained by solving the Navier-Stokes and mass balance equations provide insights into the velocity field and concentration distribution of the analytes in the micro vial and demonstrate that, with a low flow rate of chemical modifier solution, the laminar flow streams confine the analyte molecules to the central part of the micro vial and thus maintain major features of the peak shapes. Peaks detected by UV and MS under similar experimental conditions were compared to verify the numerical prediction that the main features of the UV peak can be retained in the MS peak. Experiments also show that band broadening can be minimized when an appropriate chemical modifier flow rate is selected. [ABSTRACT FROM AUTHOR]

Published

2011

6. Western Blotting Using Capillary Electrophoresis.

Author

Anderson, Gwendolyn J., Cipolla, Cynthia M., and Kennedy, Robert T.

Subjects

*GEL electrophoresis, *ELECTROPHORESIS, *PHASE partition, *ELECTROCHEMISTRY, *SEPARATION (Technology), *CHEMICAL detectors, *ANALYTICAL chemistry

Abstract

A microscale Western blotting system based on separating sodium-dodecyl sulfate protein complexes by capillary gel electrophoresis followed by deposition onto a blotting membrane for immunoassay is described. In the system, the separation capillary is grounded through a sheath capillary to a mobile X-Y translation stage which moves a blotting membrane past the capillary outlet for protein deposition. The blotting membrane is moistened with a methanol and buffer mixture to facilitate protein adsorption. Although discrete protein zones could be detected, bands were broadened by ~1.7-fold by transfer to membrane. A complete Western blot for lysozyme was completed in about one hour with 50 pg mass detection limit from low microgram per milliliter samples. These results demonstrate substantial reduction in time requirements and improvement in mass sensitivity compared to conventional Western blots. Western blotting using capillary electrophoresis shows promise to analyze low volume samples with reduced reagents and time, while retaining the information content of a typical Western blot. [ABSTRACT FROM AUTHOR]

Published

2011

7. Heat-Associated Field Distortion in Electro-Migration Techniques.

Author

Evenhuis, Christopher J., Musheev, Michael U., and Krylov, Sergey N.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *ELECTROLYTES, *ENERGY dissipation, *PHASE partition

Abstract

Electro-migration techniques, such as electrophoresis, are widely utilized in analytical sciences. If a single electrolyte is used, the field strength is typically assumed to be well-defined. Heat-associated field distortion (HAFD) has been suggested as a result of the nonuniform heat dissipation throughout the electrolyte; however, it has never been experimentally studied. Here, we experimentally demonstrated HAFD for the first time. We used capillary electrophoresis (CE) with a capillary having parts with different heat dissipation efficiencies. Our experiments showed a difference in field strength of approximately 1.5 times between the different parts of the capillary for a typical CE electrolyte. This result suggests that HAFD is a well pronounced phenomenon that can be a potential source of errors and instabilities in electro-migration experiments. [ABSTRACT FROM AUTHOR]

Published

2010

8. Microchip Electrophoresis of Oligosaccharides Using Large-Volume Sample Stacking with an Electroosmotic Flow Pump in a Single Channel.

Author

Kawai, Takayuki, Sueyoshi, Kenji, Kitagawa, Fumihiko, and Otsuka, Koji

Subjects

*OLIGOSACCHARIDES, *ELECTROPHORESIS, *PHASE partition, *SURFACE chemistry, *ANALYSIS of variance

Abstract

The applicability of an online preconcentration technique, large-volume sample stacking with an electroosmotic flow pump (LVSEP), to microchip zone electrophoresis (MCZE) for the analysis of oligosaccharides was investigated. Since the sample stacking and separation proceeded continuously without polarity switching in LVSEP, a single "straight" channel microchip could be employed. In the MCZE analysis of oligosaccharides, sample adsorption onto the channel surface should be suppressed, so the straight microchannel was modified with poly(vinyl alcohol) (PVA). So far, the mechanism of LVSEP in the polymer-coated capillary or microchannel has not been reported, and thus, the LVSEP process in the PVA-coated channel was investigated by fluorescence imaging. Although it is well-known that the PVA coating can suppress the electroosmotic flow (EOF), an enhanced EOF with a mobility of 4.4 x 10-4 cm²/(V·s) was observed in a low ionic strength sample solution. It was revealed that such temporarily enhanced EOF in the sample zone worked as the driving force to remove the sample matrix in LVSEP. To evaluate the analytical performance of LVSEP-MCZE, oligosaccharides were analyzed in the PVA-coated straight channel. As a result, both the glucose ladder and oligosaccharides obtained from bovine ribonuclease B were well enriched and separated with up to 2200-2900-fold sensitivity enhancement compared to those in a conventional MCZE analysis. The run-to-run repeatabilities of the migration time and peak height were good with relative standard deviations of 1.1% and 7.2%, respectively, which were better than those of normal MCZE. By applying the LVSEP technique to MCZE, a complicated voltage program for fluidic control could be simplified from four channels for two steps to two channels for one step. [ABSTRACT FROM AUTHOR]

Published

2010

9. Development of a Multilane Channel System for Nongel-Based Two-Dimensional Protein Separations Using Isoelectric Focusing and Asymmetrical Flow Field-Flow Fractionation.

Author

Ki Hun Kim and Myeong Hee Moon

Subjects

*PROTEIN fractionation, *ELECTROPHORESIS, *ISOTACHOPHORESIS, *ELECTROCHEMISTRY, *ORGANIC chemistry, *GEL electrophoresis, *LIQUID chromatography, *FIELD-flow fractionation, *PHASE partition

Abstract

A dual purpose multilane channel system to carry out isoelectric focusing (IEF) and asymmetrical flow field-flow fractionation (IEF-AFIFFF or IEF-AF4) was developed for the high-speed fractionation of a proteome in two dimensions (2D): isoelectric point (pI) and hydrodynainic diameter (d8). Separation of proteins is initially achieved by differences in pI using IFF in an open thin segment, which is formed by interconnecting the beginning part of six parallel flow FFF channels in the lateral direction. After IEF, each protein pool of a different pI interval is simultaneously separated in an orthogonal direction by d8 in six individual AF4 channels. The developed IEF-AF4 multilane channel system provides ultimate nongel, elution based, and 2D protein separation at an improved separation speed; the entire separation can be processed within 30 min, compared to ∼3 h with the previously developed capillary isoelectric focusing-hollow fiber FIFFF (CIEF-HFFIFFF or CIEF-HF5) (Kang, D.; Moon, M. H. Anal. Chem. 2006, 78, 5789-5798) or ∼36 h with 2D-polyacryamide gel electrophoresis (2D-PAGE). An initial evaluation of IEF-AF4 was performed to investigate the influence of ampholyte concentration and IEF voltage on the separation of standard protein mixtures. [ABSTRACT FROM AUTHOR]

Published

2009

10. Controlling Data Quality and Reproducibility of a High-Sensitivity Immunoassay Using Isotachophoresis in a Microchip.

Author

Park, C. Charles, Kazakova, Irma, Kawabata, Tomohisa, Spaid, Michael, Ring-Ling Chien, Wada, H. Garrett, and Satomura, Shinji

Subjects

*IMMUNOASSAY, *ISOTACHOPHORESIS, *BIOMARKERS, *GEL electrophoresis, *CHEMICAL reactions, *PHASE partition, *ELECTROPHORESIS, *OXIDE minerals, *CHEMICAL research

Abstract

This report describes a method of controlling the sensitivity and reproducibility of a microchip-based immunoassay by using isotachophoresis to preconcentrate the antigen and antibody prior to binding. Gel electrophoresis separation is coupled to the preconcentration step to separate the immunocomplex products formed. The system em- ploys a quartz-based LabChip that automates the metering, preconcentration, reaction, separation, and detection. The system also uses a handoff mechanism that switches. the immunocomplex from the stacking mode to the separation mode. We show that the handoff timing affects the data quality and repeatability of the electropherograms, and we demonstrate an automatic handoff mechanism to precisely control the signal intensity and separation of peaks of interest. In so doing, the automatic handoff mechanism also improves the reproducibility of the assay. When applied to the homogeneous liquid-phase detection of α-fetoprotein, a common tumor marker, the system shows a greater than 200-fold stacking of specific analytes of interest. [ABSTRACT FROM AUTHOR]

Published

2008

11. Influence of Electrophoresis Waveforms in Determining Stochastic Nanoparticle Capture Rates and Detection Sensitivity.

Author

White, Ryan J. and White, Henry S.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *POLYSTYRENE, *STOCHASTIC analysis, *CATHODE ray oscillographs, *PARTICLES (Nuclear physics), *STOCHASTIC processes, *SPECTRAL sensitivity

Abstract

Electrophoretic capture and release of charged polystyrene particles at the opening of a membrane pore has been investigated to determine the optimal applied current waveform, iapp(t), for ensuring true stochastic counting rates and to improve detection sensitivity (i.e., Δ(counts per second)/Δ(particle concentration)). In capture and release detection, charged particles are electrophoretically driven to the opening of a small pore (∼60 nm diameter) in a membrane; capture of a single particle at the pore opening at time τ is signaled by a decrease in the flux of a redox species (Fe(CN)64-) through the pore. The captured particle is then released by applying an electrophoretic current in the opposite direction, and the process is repeated to acquire sufficient statistical data to determine the solution particle concentration (Cp) based on the relationship between Cp and the average particle counting rate (τavg-1). Both τavg-1 and the method sensitivity are shown, for the detection of 90 nm diameter polystyrene particles, to depend strongly on the applied current waveform. The observed dependence is a consequence of the nonequilibrium distribution of particles in the analyte solution that results from electrostatic forces acting on the particle whenever iapp has a nonzero value. Stochastic capture rates corresponding to an initial uniform distribution of particles are more closely achieved using an applied current waveform that includes an equilibration period (iapp = 0) prior to electrophoretic capture. An increase in particle detection sensitivity, relative to the previously reported value, results from this equilibration step. [ABSTRACT FROM AUTHOR]

Published

2007

12. I-Shaped Microchannel Array Chip for Parallel Electrophoretic Analyses.

Author

Inoue, Akira, Ito, Toshiyuki, Makino, Kimiko, Hosokawa, Kazuo, and Maeda, Mizuo

Subjects

*INTEGRATED circuits, *ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *ELECTRODES, *ELECTRONIC circuits, *INFORMATION technology, *MICROELECTRONICS, *ELECTRONICS

Abstract

We demonstrate electrophoresis in I-shaped microchannels with a new design and operation principle. Unlike the conventional T- or cross-shaped microchannels, the simple I-shaped design makes it straightforward to integrate parallel microchannels with electrodes onto a microchip. The operation of the I-shaped microchannels has been enabled by the autonomous solution filling technique, which exploits the high gas solubility in poly- (dimethylsiloxane) (PDMS). We fabricated an I-shaped microchannel array (IMA) chip by integrating 12 independent microchannels and 2 electrodes onto a 3 cm × 2 cm area in a PDMS-glass hybrid microchip. For autonomous regulation of stable sample plugs in all the microchannels, we discovered that O2 plasma treatment of the PDMS-made reservoirs is effective. On the IMA chip, size-dependent separation of double-stranded (ds) DNA and sequence-specific separation of single-stranded DNA were achieved. Specifically, 10 fragments in a 100-1000-bp dsDNA ladder were separated using hydroxy-ethylcellulose as a sieving matrix within a separation length of 2 mm, and polymerase chain reaction products of the wild-type K-ras gene and its point mutant were separated using a probe DNA-poly(dimethylacrylamide) conjugate on the basis of affinity capillary electrophoresis. The IMA chip presented here opens up a new possibility of large-scale integration of microchannels for high-throughput electrophoretic analyses. [ABSTRACT FROM AUTHOR]

Published

2007

13. Gradient Elution Moving Boundary Electrophoresis for High-Throughput Multiplexed Microfluidic Devices.

Author

Shackman, Jonathan G., Munson, Matthew S., and Ross, David

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *MICROFLUIDICS, *FLUID dynamics, *CHEMICAL speciation, *ANALYTICAL chemistry, *PHYSICAL & theoretical chemistry, *CHEMISTRY

Abstract

A novel method for performing electrophoretic separations is described-gradient elution moving boundary electrophoresis (GEMBE). The technique utilizes the electrophoretic migration of chemical species in combination with variable hydrodynamic bulk counterflow of the solution through a separation capillary or microfluidic channel. Continuous sample introduction is used, eliminating the need for a sample injection mechanism. Only analytes with an electrophoretic velocity greater than the counterflow velocity enter the separation channel. The counterfiow velocity is varied over time so that each analyte is brought into the separation column at different times, allowing for high-resolution separations in very short channels. The new variable of bulk flow acceleration affords a new selectivity parameter to electrophoresis analogous to gradient elution compositions in chromatography. Because it does not require extra channels or access ports to form an injection zone and because separations can be performed in very short channels, GEMBE separations can be implemented in much smaller areas on a microfluidic chip as compared to conventional capillary electrophoresis. Demonstrations of GEMBE separations of small dye molecules, amino acids, DNA, and immunoassay products are presented. A low-cost, polymeric, eight-channel multiplexed microfluidic device was fabricated to demonstrate the reduced area requirements of GEMBE; the device was less than 1 in. in area and required only n + 1 fluidic access ports per n analyses (in this instance, nine ports for eight analyses). Parallel separations of fluorescein and carboxyfluorescein yielded less than 3% relative standard deviation (RSD) in interchannel migration times and less than 5% RSD in both peak and height measurements. The device was also used to generate a calibration curve for a homogeneous insulin immunoassay using each of the eight channels as a calibration point with less than 5% RSD at each point with replicate analyses. [ABSTRACT FROM AUTHOR]

Published

2007

14. Monitoring the Electroosmotic Flow in Capillary Electrophoresis Using Contactiess Conductivity Detection and Thermal Marks.

Author

Saito, Renata Mayumi, Neves, Carlos Antonio, Silva Lopes, Fernando, Blanes, Lucas, Alves Brito-Neto, José Geraldo, and Do Lago, Claudimir Lucio

Subjects

*ELECTROOSMOTIC dewatering, *ELECTRO-osmosis, *ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *ELECTRIC conductivity, *CONDUCTIVITY of electrolytes, *PHYSICAL & theoretical chemistry, *ELECTRIC resistance

Abstract

The fundamental aspects and the capillary electrophoresis usage of thermal marks are presented. The so-called thermal mark is a perturbation of the electrolyte concentration generated by a punctual healing of the capillary while the separation electric field is maintained. The heating pulse is obtained by powering tungsten filaments or surface mount device resistors with 5 V during a few tens to hundreds of milliseconds. In the proposed model, the variation of the transport numbers with the rising temperature leads to the formation of low- and high-concentration regions during the heating. After cooling down, the initial mobilities of the species are restored and these regions (the thermal mark) migrate chiefly due to the electroosmotic flow (EOF). The mark may be recorded with a conductivity detector as part of a usual electropherogram and be used to index the analyte peaks and thus compensate for variations of the EOF. In a favorable case, 10 mmol/L KCl solution, the theory suggests that the error in the measurement of EOF mobility by this mean is only -6.5 × 10-7 cm² V-1 s-1. The method was applied to the analysis of alkaline ions in egg white, and the relative standard deviations of the corrected mobilities of these ions were smaller than 1%. This is a challenging matrix, because albumin reduces the EOF to 20% of its initial value after 11 runs. The combination of thermal mark, electrolysis separated, and contactless conductivity detection allowed the measurement of the EOF of a silica capillary with unbuffered KCI solution with constant ionic strength. The overall approach is advantageous, because one can easily control the chemical composition of the solution in contact with the inner surface of the capillary. [ABSTRACT FROM AUTHOR]

Published

2007

15. Probing Mercury Species—DNA Interactions by Capillary Electrophoresis with On-Line Electrothermal Atomic Absorption Spectrometric.

Author

Van Li, Van Jiang, and Xiu-ping Yan

Subjects

*MERCURY, *ATOMIC absorption spectroscopy, *CAPILLARY electrophoresis, *MOLECULAR probes, *ATOMIC spectroscopy, *ELECTROCHEMISTRY, *ELECTROPHORESIS, *GEL electrophoresis, *PHASE partition

Abstract

The interactions of inorganic mercury Hg(II), methylmercury (MeHg(I)), ethylmercury (EtHg(I)), and phenylmercury (PhHg(I)) with DNA have been probed by capillary electrophoresis with on-line electrothermal atomic absorption spectrometric detection (CE-ETAAS) in combination with circular dichroism and Fourier transform infrared spectroscopy. The CE-ETAAS assay allows sensitive probing of the level of DNA damage by mercury species, extraction of thermodynamic and kinetic information on the interactions of mercury species with DNA, and provides direct evidence for the formation of mercury species-DNA adducts. The binding affinity of mercury species to DNA increases in order of Hg(II) < EtHg(I) ∼ PhHg(I) ∼ MeHg(I). The interactions of mercury species with DNA follow a first-order kinetics for mercury species and zero-order kinetics for DNA. Mercury highly covalently coordinates to endocyclic and exocyclic N sites of DNA bases. However, the interactions of DNA with mercuric species cause no transition of the DNA original conformation. The results reveal that organomercuric species exhibit stronger affinity and faster binding to DNA and show more potential damage to DNA than Hg(II) in view of the kinetic and thermodynamic evaluations. Moreover, MeHg(I) exhibits the fastest binding to DNA, suggesting that MeHg(I) enjoys superiority over the other mercuric species for rapid formation of a stable complex with DNA, whereas Hg(II) shows the slowest binding to DNA. The present study provides new evidence and understanding of the binding modality of mercuric species to DNA. [ABSTRACT FROM AUTHOR]

Published

2006

16. Centrifuge Microextraction Coupled with On-Line Back-Extraction Field-Amplified Sample Injection Method for the Determination of Trace Ephedrine Derivatives in the Urine and Serum.

Author

Huaifang Fang, Zhaorui Zeng, and Lan Liu

Subjects

*ELECTROPHORETIC deposition, *VASOCONSTRICTORS, *SEPARATION (Technology), *CAPILLARY electrophoresis, *ELECTROPHORESIS, *PHASE partition, *MOLECULAR biology, *MICROCHEMISTRY, *ANALYTICAL chemistry, *BIOCHEMISTRY

Abstract

Although sample stacking has enjoyed some degree of success in electrophoretic separation techniques, there is still a major problem with complex matrix sample as it suffers tremendously from sample matrix effects. A novel method that combines two concentration techniques, centrifuge microextraction (CME) and on-line back-extraction field-amplified sample injection (OLBE-FASI), is used to determine trace ephedrine derivatives in urine and serum by capillary zone electrophoresis. The CME, integrating the sample cleanup and preconcentration into a single step, is a promising sample preparation method for biological samples. The CME technique provided 9–14-fold enrichment within 10 min. The OLBE-FASI eliminated the need to perform solvent exchange and provided a further concentration of the analytes. Using CME coupled with OLBE-FASI, over a 3800-fold increase in sensitivity could be obtained as compared with the normal hydrodynamic injection without sample stacking. For a 1-mL urine sample, the linear range was 5/10–200 ng/mL with the square of the correlation coefficients (r²) ranging from 0.9988 to 0.9994. Detection limits were from 0.15 to 0.25 ng/mL using a photodiode array UV detection at wavelength 192 nm. The possibility of this method to determine ephedrine derivatives in 20-μL serum samples was also demonstrated. [ABSTRACT FROM AUTHOR]

Published

2006

17. Multichannel PCR-CE Microdevice for Genetic Analysis.

Author

Liu, Chung N., Toriello, Nicholas M., and Mathies, Richard A.

Subjects

*POLYMERASE chain reaction, *ELECTROPHORESIS, *TEMPERATURE control, *DETECTORS, *GENETICS, *NOISE, *ESCHERICHIA coli, *PHASE partition, *HEAT

Abstract

We have developed a fully integrated multichannel polymerase chain reaction-capillary electrophoresis (PCR-CE) microdevice with nanoliter reactor volumes for highly parallel genetic analyses. Resistance temperature detectors and heaters made out of Ti/Pt are integrated on the microchip using a scalable radial design to provide precise temperature control of the four parallel PCR-CE reactor systems. Heating rates of > 15 °C s-1 and cooling rates of > 10 °C s-1 allow cycle times of 50 s and 30 complete PCR cycles in <27 min. PDMS membrane valves control and localize PCR reagents in the 380-nL reactors. By directly integrating PCR reactors with the CE separation system, efficient coupling of amplification with separation is achieved. The microdevice demonstrates good amplification uniformity and sensitivity down to 10 initial template copies in the 380-nL reactor (∼43 aM) with signal-to-noise ratio greater than 10. Parallel PCR-CE multiplex amplification and genetic analyses of four different samples with (1) both M13mp18 control template and E. coli K12 cells, (2) only M13mp18 template, (3) only E. coli K12 cells, and (4) negative control are completed in less than 30 min in a single run. [ABSTRACT FROM AUTHOR]

Published

2006

18. On-Line Sample Preconcentration Using Field-amplified Stacking Injection in Microchip Capillary Electrophoresis.

Author

Maojun Gong, Wehmeyer, Kenneth R., Limbach, Patrick A., Arias, Francisco, and Heineman, William R.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *FLUORESCEIN, *PHYSICAL & theoretical chemistry, *INDUSTRIAL chemistry, *PHASE partition, *PHTHALEINS, *INTEGRATED circuits, *SEPARATION (Technology)

Abstract

Previous reports describing sample stacking on microchip capillary electrophoresis (µCE) have regarded the microchip channels as a closed system and treated the bulk flow as in traditional capillary electrophoresis. This work demonstrates that the flows arising from the intersection should be investigated as an open system. It is shown that the pressure-driven flows into or from the branch channels due to bulk velocity mismatch in the main channel should not be neglected but can be used for liquid transportation in the channels. On the basis of these concepts, a sample preconcentration scheme was developed in a commercially available single-cross glass chip for µCE. Similar to field-amplified stacking injection in traditional CE, a low conductivity sample buffer plug was introduced into the separation channel immediately before the negatively charged analyte molecules were injected. The detection sensitivity was improved by 94-, 108-, and 160-fold for fluorescein-5-isothiocyanate, fluorescein disodium, and 5-carboxyfluorescein, respectively, relative to a traditional pinched injection. The calibration curves for fluorescein and 5-carboxyfluorescein demonstrated good linearity in the concentration range (1-60 nM) investigated with acceptable reproducibility of migration time and peak height and area ratios (4-5% RSD). This preconcentration scheme will be of particular significance to the practical use of µCE in the emerging miniaturized analytical instrumentation. [ABSTRACT FROM AUTHOR]

Published

2006

19. Solid-Support Sample Loading for DNA Sequencing.

Author

Ueberfeld, Jöm, El-difrawy, Sameh A., Ramdhanie, Korisha, and Ehrlich, Daniel J.

Subjects

*DNA, *ELECTROPHORESIS, *MICROSPHERES, *MICROINJECTIONS, *NUCLEIC acids, *ELECTROCHEMISTRY, *PHASE partition, *FORAMINIFERA, *BIOMOLECULES

Abstract

We present a new method for simplified low-quantity DNA loading onto microelectrophoresis devices. The method is based on combined solid-phase extraction, purification, and transport of DNA reversibly bound on paramagnetic microspheres. DNA is adsorbed onto the microspheres, captured with a magnetized permalloy wire, and then directly injected as a highly focused sample plug into the separation channel. This method circumvents both the minimum volume requirement of pipettors (since only solid beads are transported) and the timing complications of double-I microfluidic injection. Injections from Sanger samples of <100 pg total suspended weight match the signal strength of our previous conventional injections at >10-times the starting DNA sample. Sequencing traces show a resolution that matches or exceeds double-T injections. A kinetic model reproduces the time-dependence of the injection signals and proves that total nonidealities in the method produce injection-broadened plugs of ~1-s duration. The method should be broadly extendable to DNA and protein separations in both microdevice and capillary electrophoresis. [ABSTRACT FROM AUTHOR]

Published

2006

20. Enantiomeric Separation Using an L-RNA Aptamer as Chiral Additive in Partial-Filling Capillary Electrophoresis.

Author

Ruta, Josephine, Ravelet, Corinne, Grosset, Catherine, Fize, Jennifer, Ravel, Anne, Villet, Annick, and Peyrin, Eric

Subjects

*CAPILLARY electrophoresis, *ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *GEL electrophoresis, *ZONE electrophoresis, *SEPARATION (Technology), *ANALYTICAL chemistry, *INDUSTRIAL chemistry, *TECHNOLOGY

Abstract

In this paper, we report the chiral resolution of arginine using an anti-arginine L-RNA aptamer chiral selector in partial-filling CE. The effects of the capillary temperature, sample load, and aptamer plug length on the enantiomeric separation were assessed. Very high chiral resolving capability was observed at low or moderate capillary temperatures (the target peak being not detected in the separation window), whereas the practical chiral resolution was achieved only at high enough temperatures (50-60 °C). Over this high-temperature range, the electrophoretic behavior of the target enantiomer appeared to result from a combination of binding site heterogeneity, slow desorption kinetics, and concentration overload of aptamer binding sites. From additional thermal UV melting experiments, three RNA conformations were identified for the 50-60 °C temperatures. It was suggested that the presence of these different RNA conformations was a plausible source of the binding site heterogeneity. [ABSTRACT FROM AUTHOR]

Published

2006

21. On-Chip Millionfold Sample Stacking Using Transient Isotachophoresis.

Author

Byoungsok Jung, Bharadwaj, Rajiv, and Santiago, Juan G.

Subjects

*ISOTACHOPHORESIS, *INTEGRATED circuits, *ELECTROPHORESIS, *ELECTRONIC circuits, *BUFFER solutions, *VOLTAGE regulators, *PHASE partition, *ELECTROCHEMISTRY, *ANALYTICAL chemistry

Abstract

We present a simple and robust isotachophoresis (ITP) method that can be integrated with microchip-based capillary electrophoresis (CE) devices to achieve million- fold sample stacking. We performed an experimental parametric study to show the effects of initial sample ion concentration, leading ion concentration, and trailing ion concentration on ITP stacking. We also discuss the usefulness and limitations of a simple one-dimensional nondispersive model and a scaling analysis for dispersion rate. We found that a single-column ITP configuration together with electroosmotic flow suppression and high leading ion concentration provide high-performance ITP and can be integrated readily with CE separation. We demonstrated detection of trace of 100 fM Alexa Fluor 488 (signal-to-noise ratio of 11) with a concentration increase of a factor of 2 × 106. Application of our ITP/ CE protocol to the stacking and separation of negatively charged fluorescent tracers (Alexa Fluor 488 and bodipy) resulted in a concentration increase of 6.4 × 10´ and a signal increase of 4.5 × 105. The ITP/CE protocol can be performed with a standard microchannel cross design or simple flow control. The method can be implemented with available off-the-shelf chip systems using off-the-shelf voltage control systems and buffer chemistries. [ABSTRACT FROM AUTHOR]

Published

2006

22. Design and Characterization of Poly(dimethylsiloxane).Based Valves for Interfacing Continuous-Flow Sampling to Microchip Electrophoresis.

Author

Li, Michelle W., Huynh, Bryan H., Hulvey, Matthew K., Lunte, Susan M., and Martin, R. Scott

Subjects

*SOLID freeform fabrication, *ELECTROPHORESIS, *PHASE partition, *INTEGRATED circuits, *PNEUMATICS, *FLUORESCEIN, *DYES & dyeing, *SILOXANES, *ELECTROCHEMISTRY

Abstract

This work describes the fabrication and evaluation of a poly(dimethyl)siloxane (PDMS)-based device that enables the discrete injection of a sample plug from a continuous-flow stream into a microchannel for subsequent analysis by electrophoresis. Devices were fabricated by aligning valving and flow channel layers followed by plasma sealing the combined layers onto a glass plate that contained fittings for the introduction of liquid sample and nitrogen gas. The design incorporates a reduced-volume pneumatic valve that actuates (on the order of hundreds of milliseconds) to allow analyte from a continuously flowing sampling channel to be injected into a separation channel for electrophoresis. The injector design was optimized to include a pushback channel to flush away stagnant sample associated with the injector dead volume. The effect of the valve actuation time, the pushback voltage, and the sampling stream flow rate on the performance of the device was characterized. Using the optimized design and an injection frequency of 0.64 Hz showed that the injection process is reproducible (RSD of 1.77%, n = 15). Concentration change experiments using fluorescein as the analyte showed that the device could achieve a lag time as small as 14 s. Finally, to demonstrate the potential uses of this device, the microchip was coupled to a microdialysis probe to monitor a concentration change and sample a fluorescein dye mixture. [ABSTRACT FROM AUTHOR]

Published

2006

23. High-Throughput Screening for the Asymmetric Transformation Reaction of L-Histidine to D-Histidine by Capillary Array Electrophoresis.

Author

Jun Wang, Kaiying Liu, Guangming Sun, Jiling Bai, and Li Wang

Subjects

*ELECTROPHORESIS, *ACETIC acid, *PHASE partition, *CAPILLARY electrophoresis, *ORGANIC compounds, *ELECTROPHORETIC deposition, *CATALYSTS, *CARBON compounds, *QUALITATIVE chemical analysis

Abstract

Asymmetric transformation reaction of L-histidine to D-histidine was studied by homemade capillary array electrophoresis for the first time. The enantiomeric excess value of asymmetric histidine products can be directly determined from the electrophoretogram of capillary array electrophoresis. The experiment results showed that the optimized asymmetric transformation reaction condition was in the presence of salicylaldehyde as catalyst and acetic acid as solvent. [ABSTRACT FROM AUTHOR]

Published

2006

24. On-Line Coupling of Gel Electrophoresis and Inductively Coupled Plasma-Sector Field-Mass Spectrometry for the Determination of dsDNA Fragments.

Author

Brüchert, Wolfram and Bettmer, Jüg

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *MASS spectrometry, *NUCLEAR spectroscopy, *SPECTRUM analysis

Abstract

The on-line coupling of gel electrophoresis (GE) and inductively coupled plasma-mass spectrometry (ICPMS) is described for the first time. The new method combines the separation power of GE for large biomolecules and the high sensitivity and elemental selectivity of ICPMS. This coupling has been achieved by means of gels housed in glass tubes (length 2.5-20 cm; i.d. 0.5-5 mm). The gel is fixed by glass flits permeable for the analytes. After the electrophoretic separation at voltages up to 500 V, the analytes are transferred to the nebulizer of the ICPMS by an eluent stream, which is separated from the electrode chamber by a membrane. This filter blocks molecules with molecular masses larger than 500 Da. Using double-stranded DNA fragments, commercially available standard solutions were analyzed with on-line GE-ICPMS for the first time by monitoring 31P+ with a double-focusing mass spectrometer at a mass resolution of 4000. [ABSTRACT FROM AUTHOR]

Published

2005

25. Accelerated Particle Electrophoretic Motion and Separation in Converging--Diverging Microchannels.

Author

Xiangchun Xuan, Bo Xu, and Dongqing Li

Subjects

*ELECTROPHORESIS, *ELECTROMAGNETIC fields, *PHASE partition, *ELECTROCHEMISTRY, *ELECTRIC fields, *FIELD theory (Physics)

Abstract

Accelerated particle electrophoretic motions were visualized in converging-diverging microchannels on poly- (dimethylsiloxane) chips. The accelerated particle electrophoretic separation is highly desirable in on-chip flow cytometry and high-speed electrophoresis. The effects of electric field, particle size, particle trajectory, and channel structure on the particle electrophoretic motion are examined. We find that the ratio of the particle velocity in the throat to that in the straight channel is significantly lower than their cross-sectional area ratio. This discrepancy may be attributed to the locally higher electric field around the two poles of a particle, as compared to other regions inside the microchannel. We also find that the particle velocity ratio is increased for smaller particles moving through symmetric converging- diverging channels under lower electric fields. These variations may be attributed to the negative dielectrophoretic force that is generated by the nonuniform electric field in the converging- diverging section. In addition, we find that particle trajectory has insignificant influences on the maximum velocity ratio obtained in the throat. [ABSTRACT FROM AUTHOR]

Published

2005

26. Addressable Electric Fields for Size-Fractioned Sample Extraction in Microfluidic Devices.

Author

Rongsheng Lin, Burke, David T., and Burns, Mark A.

Subjects

*ELECTROPHORESIS, *PHASE partition, *ELECTROMAGNETIC fields, *ELECTRIC fields, *MICROFLUIDICS, *FLUID dynamics

Abstract

Fraction collection following electrophoresis is of major importance for a variety of biological analyses. These assays typically need to identify specific fractions in the separated sample for further processing and require extraction of one or a group of fragments. In this paper, we have developed and characterized a technique to generate addressable electric fields for improved extraction during electrophoresis in microfluidic devices. The addressable electric field is achieved by applying a low bias voltage (1-2 V) to microelectrode pairs within the electrophoresis microchannel. Theoretical analysis shows the purity of the extracted sample can be improved as much as 30% over extraction without the shaped electric fields, and nearly 100% predicted yield can be achieved. We also describe the theoretical design of shaped electric fields by characterizing the optimal electrode geometry, field strength, channel configuration, and electrophoretic migration behavior needed for efficient band extraction. [ABSTRACT FROM AUTHOR]

Published

2005

27. Evaluating Preparative Isoelectric Focusing of Complex Peptide Mixtures for Tandem Mass Spectrometry-Based Proteomics: A Case Study in Profiling Chromatin-Enriched Subcellular Fractions in Saccharomyces cerevisiae.

Author

Hongwei Xie, Bandhakavi, Sricharan, and Griffin, Timothy J.

Subjects

*PEPTIDES, *ELECTROPHORESIS, *PHASE partition, *MASS spectrometry, *PROTEOMICS, *EDIBLE fungi

Abstract

We have evaluated the use of free-flow electrophoresis, an emerging separation method for preparative isoelectric focusing of complex peptide mixtures, as a tool for high- throughput tandem mass spectrometry-based proteomic analysis. In this study, we investigated the ability of free- flow electrophoresis to resolve and fractionate complex peptide mixtures and also the effectiveness of using peptide isoelectric point in conjunction with peptide match probability scoring in sequence database searching. As a model system for this study, we analyzed a chromatin- enriched fraction from the yeast Saccharonzyces cerevisiae. This mixture was fractionated using preparative isoelectric focusing by free-flow electrophoresis, followed by online capillary liquid chromatography electrospray tandem mass spectrometry and sequence database searching. Our results demonstrate that (1) FEE effectively resolves and fractionates complex peptide mixtures on the basis of peptide isoelectric point and (2) the introduction of peptide pI is effective in minimizing both false positive and false negative sequence matches in sequence data- base searching of tandem mass spectrometry data. [ABSTRACT FROM AUTHOR]

Published

2005

28. Headspace Water-Based Liquid-Phase Microextraction.

Author

Jie Zhang, Tao Su, and Hian Kee Lee

Subjects

*SODIUM hydroxide, *FLUIDS, *PHENOLS, *ORGANIC solvents, *ELECTROPHORESIS, *PHASE partition

Abstract

A new organic-free mode of headspace liquid-phase microextraction termed headspace water-based liquid-phase microextraction has been developed. Five phenols were used as model compounds in the development and evaluation of the procedure. Parameters affecting the extraction efficiency were investigated. Under optimal extraction conditions, very high enrichment factors were achieved. Since only water (with sodium hydroxide to adjust the pH) and a conventional microsyringe were used, this new technique is affordable, efficient, and convenient for extraction of volatile and semivolatile ionizable compounds. In addition, in combination with capillary electrophoresis, the entire analytical process is totally organic solvent-free and is thus environmentally friendly. [ABSTRACT FROM AUTHOR]

Published

2005

29. Electrically Assisted Sampling across Membranes with Electrophoresis in Nanometer Inner Diameter Capillaries.

Author

Woods, Lori A., Gandhi, Parul U., and Ewing, Andrew G.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *ELECTROPORATION, *SAMPLING (Process), *BIOLOGICAL membranes

Abstract

A nondestructive method for sampling from ultrasmall environments has been developed utilizing electrophoresis in nanometer inner diameter capillaries and etched electrochemical detection. The desire to study increasingly smaller biological environments such as mammalian cells has led to the need for capillary electrophoresis techniques with subpicoliter volume sampling capabilities. This sampling technique involves the fabrication of a microinjector at the tip of a 770-nm-inner diameter capillary and the use of electroporation for insertion through the membrane. Separations of catecholamines sampled from the interior of intact liposomes have been achieved. A separation of a cytoplasmic sample taken from an intact mammalian cell has also been obtained. [ABSTRACT FROM AUTHOR]

Published

2005

30. Simultaneous Enantioseparation and Tandem UV--MS Detection of Eight β-Blockers in Micellar Electrokinetic Chromatography Using a Chiral Molecular Micelle.

Author

Akbay, Cevdet, Rizvi, Syed A. A., and Shamsi, Shahab A.

Subjects

*MICELLES, *COLLOIDS, *CHROMATOGRAPHIC analysis, *SURFACE active agents, *ELECTROPHORESIS, *PHASE partition

Abstract

The feasibility of using a new and more versatile polymeric chiral surfactant, i.e., poly( sodium N-undecenoxy carbonyl-L-leucinate (poly-L-SUCL) is investigated for simultaneous enantioseparation and detection of eight structurally similar β-blockers with tandem UV and MS detection. Three optimization approaches, i.e., direct infusion-MS, capillary zone electrophoresis-MS, and chiral micellar electrokinetic chromatography-mass spectrometry (CMEKC-MS), were investigated to optimize sheath liquid parameters, spray chamber parameters, and CMEKC separation parameters for maximum sensitivity and chiral resolution. Compared to unpolymerized micelle of L-SUCL, the use of micelle polymer (i.e., poly-L-SUCL) provided significantly higher separation efficiency, lower separation current, and higher detection sensitivity for CMEKC-ESI-MS of β-blockers. It was also observed that, unlike monomeric L-SUCL, polymeric L-SUCL provided enantioseparation of all β-blockers even at the lowest surfactant concentration (i.e., 5 mM poly-L-SUCL). Under optimum CMEKC and ESI-MS conditions (15 mM poly-L-SUCL, 25 mM each of NH4OAc and TEA (pH 8.0); 80% (v/v) methanol sheath liquid containing 40 mM NH4OAc (pH 8.0); sheath liquid flow rate, 5.0 μL/min; drying gas flow rate, 5 L/min; drying gas temperature, 200°C; nebulizing pressure, 6 psi (0.414 bar); capillary voltage, +2.5 kV; fragmentor voltage, 85 V), baseline enantioseparation of eight β-blockers was achieved by tandem UV (in ∼30 min) and MS (in ∼60 mm) detection. Calibration curves for all β-blockers were linear in the range of 0.01-0.6 mM for both CMEKC-UV and CMEKC-MS methods, but the later method provided better concentration limit of detection with similar RSD for migration time and peak areas. The CMEKC-ESI-MS method appears suitable for use as a routine procedure for high-throughput separation of β-blockers with high sensitivity. [ABSTRACT FROM AUTHOR]

Published

2005

31. Mobility Moment Analysis of Molecular Interactions by Capillary Electrophoresis.

Author

Shimura, Kiyohito, Uchiyama, Noboru, Enomoto, Manabu, Matsumoto, Hiroyuki, and Kasait, Ken-ichi

Subjects

*CAPILLARY electrophoresis, *ZONE electrophoresis, *GEL electrophoresis, *ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition

Abstract

A new method for the quantitative evaluation of molecular interactions that are observed in elecirophoresis is described. One component taking part in the interaction is labeled with a fluorescent dye and is subjected to capillary zone electrophoresis with fluorescence detection in the presence or absence of an unlabeled interacting component Fluorescence signals are collected at constant time intervals, and the electropherograms are converted to represent the fluorescence signal against mobility. After baseline subtraction, the first statistical moment of fluorescence signals on the mobility axis is calculated. This moment represents the average mobility of a labeled component The change in the mobility moment in the presence and absence of the unlabeled component is used to evaluate the degree of saturation of the binding site of a labeled molecule with an unlabeled molecule. Mixtures of fluorescence-labeled protein (Fab' fragment of antibody or concanavalin A) and its unlabeled interacting partner (α1-antitrypsin or succinylated ovalbumin, respectively) at various concentrations were injected into a bare-silica capillary, and zone electrophoresis was carried out. The change in the mobility moment of the fluorescence-labeled molecules was used to determine the dissociation constants of the complexes. The determined constants are comparable to those obtained by a well-established method, that is, an analysis based on the peak height of the complex. Since the mobility moment analysis is not affected by the total intensity of the signals, it should be advantageous in analyses in which multiple capillaries are used, in which the injection volume and the sensitivity of detection might be more difficult to control at constant values. The mobility moment analysis also has advantages for the analysis of heterogeneous samples, since the identification of peaks is not necessarily required. [ABSTRACT FROM AUTHOR]

Published

2005

32. On-Chip Native Gel Electrophoresis-Based Immunoassays for Tetanus Antibody and Toxin.

Author

Herr, Amy E., Throckmorton, Daniel J., Davenport, Andrew A., and Singh, Anup K.

Subjects

*GEL electrophoresis, *ELECTROPHORESIS, *PHASE partition, *ELECTROCHEMISTRY, *ANTIGENS, *IMMUNOGLOBULINS

Abstract

By integrating photopolymerized cross-linked polyaciylamide gels within a microfluidic device, we have developed a microanalytical platform for performing electrophoresis- based immunoassays. The microfluidic immunoassays are performed by gel electrophoretic separation and quantitation of bound and unbound antibody or antigen. To retain biological activity of proteins and maintain intact immune complexes, nondenaturing polyacrylamide gel electrophoresis conditions were investigated. Both direct (noncompetitive) and competitive immunoassay formats are demonstrated in microchips. A direct immunoassay was developed for detection of tetanus antibodies in buffer as well as diluted serum samples. After an off-chip incubation step, the immunoassay was completed in less than 3 mm and the sigmoidal dose-response curve spanned an antibody concentration range from 0.17 to 260 nM. The minimum detectable antibody concentration was 0.68 nM. A competitive immunoassay was also developed for tetanus toxin C-fragment by allowing unlabeled and fluorescently labeled tetanus toxin C-fragment compete to bind to a limited fixed concentration of tetanus antibody. The immunoassay technique described in this work shows promise as a component of an integrated microfluidic device amenable to automation and relevant to development of clinical diagnostic devices. [ABSTRACT FROM AUTHOR]

Published

2005

33. Hand-Held Microanalytical Instrument for Chip-Based Electrophoretic Separations of Proteins.

Author

Renzi, Ronald F., Stamps, James, Horn, Brent A., Ferko, Scott, VanderNoot, Victoria A., West, Jay A. A., Crocker, Robert, Wiedenman, Boyd, Yee, Daniel, and Fruetel, Julia A.

Subjects

*PROTEINS, *BIOMOLECULES, *ORGANIC compounds, *ELECTROPHORESIS, *PHASE partition, *ELECTROCHEMISTRY

Abstract

The design, fabrication, and demonstration of a hand-held microchip-based analytical instrument for detection and identification of proteins and other hiomolecules are reported. The overall system, referred to as μChemLabl has a modular design that provides for reliability and flexibility and that facilitates rapid assembly, fluid and microchip replacement, troubleshooting, and sample analysis. Components include two independent separation modules that incorporate interchangeable fluid and microchip replacement, troubleshooting, and sample analysis. Components include two independent separation modules that incorporate interchangeable fluid cartridges modules that incorporate interchangeable fluid cartridges a 2-cm-square fused-silica microfluidic chip, and a miniature laser-induced fluorescence detection module. A custom O-ring sealed manifold plate connects chip access ports to a fluids cartridge and a syringe injection port and provides sample introduction and world-to-chip interface. Other noverl microfluidic connectors include capillary needle fittings for fluidic connection between septum-sealed fluid reservoirs and the manifold housing the chip, enabling rapid chip priming and fluids replacement. Programmable high-voltage power supplies provide bi-directional currents up to 100 μ A at 5000 V, enabling real-time current and voltage monitoring and facilitating troubleshooting and methods development. Laser-in-deuced fluorescence detection allows picomolar (10-11M) detection (10-9 M) for flrorescamine-labeled proteins. Migration time reproducibility was significantly improved when separations were performed under constant current control (0.5-1%) as compared to constant control (2-8%). [ABSTRACT FROM AUTHOR]

Published

2005

34. Affinity Assays Using Fluorescence Anisotropy with Capillary Electrophoresis Separation.

Author

Whelan, Rebecca J., Sunahara, Roger K., Neubig, Richard R., and Kennedy, Robert T.

Subjects

*CRYSTALLOGRAPHY, *FLUORESCENCE spectroscopy, *MOLECULAR probes, *RADIOACTIVITY, *ELECTROPHORESIS, *PHASE partition

Abstract

A novel approach to detecting affinity interactions that combines fluorescence anisotropy with capillary electrophoresis (FACE) was developed. In the method, sample is injected into a capillary filled with buffer that contains a fluorescent probe that possesses low fluorescence anisotropy. If proteins or other large molecules in the sample bind the fluorescent probe, theft migration through the capillary can be detected as a positive anisotropy shift. Thus, the method provides both separation and confirmation of binding to the probe. Calculations based on combining the Perrin equation and dissociation constant were used to predict the effect of conditions on aniosiropy detection. These calculations predict that low probe concentrations yield the best sensitivity while higher concentrations increase the dynamic range for detection of binding partner. The assay was applied to detection of G proteins using BODIPY FL GTPyS as the fluorescent probe. Experimental measurements exhibited trends in anisotropy with varying probe and protein concentrations that were consistent with the calculations. The limit of detection for Gαil was 3 nM when the electrophoresis buffer contained 250 nM BODIPY FL GTPyS. FACE affinity assay is envisioned as a method that can quantify selected binding partners and screen complex samples for compounds that possess affinity for a particular small molecule that is used as a probe. [ABSTRACT FROM AUTHOR]

Published

2004

35. A Reversible Gel for Chiral Separations.

Author

Dowling, Victoria A., Charles, Joseph A. M., Nwakpuda, Emily, and McGown, Linda B.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *PHYSICAL & theoretical chemistry, *INDUSTRIAL chemistry, *MONOMERS

Abstract

The use of a guanosine gel as a chiral selector in capillary electrophoresis is introduced. Guanosine gels are reversible organized media that are formed through the self- association of guanosine compounds. Theft degree of organization and theft physicochemical properties can be modulated through variations in guanosine monomer concentration, pH, temperature, and cation content. Baseline resolution of the D and L enantiomers of propranolol was achieved using a reversible biogel formed by 5'-guanosine monophosphate as the run buffer in capillary electrophoresis. Conditions were optimized to provide enantiomeric resolution of 2.1-2.3 in less than 5 mm. The reversibility of the gel network offers potential advantages for chiral separations, including the possibility of using thermal or chemical dissociation of the gel network to remove the nucleoside monomers from the separated enantiomers, thereby eliminating the chiral selector as a source of physical contamination of the enantiomerically pure products and spectral background in UV absorbance detection. [ABSTRACT FROM AUTHOR]

Published

2004

36. Electrophoretic Concentration of Proteins at Laser-Patterned Nanoporous Membranes in Microchips.

Author

Song, Simon, Singh, Anup K., and Kirby, Brian J.

Subjects

*ELECTROPHORESIS, *INTEGRATED circuits, *ELECTROCHEMISTRY, *PHASE partition, *ELECTRONIC circuits, *PROTEINS

Abstract

Laser-patterning of nanoporous membranes at the junction of a cross channel in a microchip is used to integrate protein concentration with an electrokinetic injection scheme. Upon application of voltage, linear electrophoretic concentration of charged proteins is achieved at the membrane surface because buffer ions can easily pass through the membrane while proteins larger than the molecular weight cutoff of the membrane are retained. Sample preconcentration steps are ever-present components of analytical systems, since concentration of trace samples facilitates their detection.

Published

2004

37. Determination of Hereditary Mutations in the BRCA1 Gene Using Archived Serum Samples and Capillary Electrophoresis.

Author

Ekstrøm, Per O., Bjørge, Tone, Dørum, Anne, Longva, Sager, Heintz, Karen-Marie, Warren, David J., Hansen, Svein, Gislefoss, Randi Elin, and Hovig, Eivind

Subjects

*ELECTROPHORESIS, *GENES, *POLYMERASE chain reaction, *MOLECULAR genetics, *ELECTROCHEMISTRY, *PHASE partition

Abstract

Analysis of DNA variation in biological samples most frequently utilizes the polymerase chain reaction (PCR) performed on extracted genomic DNA, followed by visualization of alleles using various methodologies. Few reports have demonstrated that amplification of DNA from plasma and serum samples is possible. We have performed DNA amplification on a large set of serum samples (n = 2955). Here, we report that known hereditary mutations in the BRCA gene can efficiently be analyzed in serum samples collected and stored over several decades. Fragments were PCR-amplified following a short initial denaturation of the serum sample in a standard microwave oven. Fragment analysis was subsequently performed using a DNA capillary-sequencing instrument. The PCR success rates were fragment- and size-dependent ranging from 83.2% to 97.9%. Of the 11820 polymerase chain reactions performed, the overall PCR success rate was 91.3% (10 796/11 820), which is comparable to PCR performed on genomic DNA. The advantage of the method described herein is its ability to utilize archival material stored in serum biobanks for long periods of time. [ABSTRACT FROM AUTHOR]

Published

2004

38. Chromatographic Preconcentration Coupled To Capillary Electrophoresis via an In-Line Injection Valve.

Author

Tempels, F. W. Alexander, Underberg, Willy J. M., Somsen, Govert W., and de Jong, Gerhardus J.

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *CHROMATOGRAPHIC analysis, *FLUIDS, *PEPTIDES

Abstract

A preconcentration-capillary electrophoresis (CE) system using a small precolumn in combination with an in-line injection valve is presented. The advantage of the present design is the ability to perform the sample preconcentration fully independently from the CE separation and to prevent sample matrix and washing solvents from entering the CE capillary. With a micro injection valve, sample could be effectively introduced into the CE system in an in-line fashion without seriously affecting the CE separation efficiency. Breakthrough volume, desorption efficiency, and elution volume for the C18 microcolumn (5 × 0.5 mm i.d.) were established, yielding values of 750 &mul;L, 70%, and 0.9-1.1 &mul;L, respectively, using enkephalin peptides. The time between the start of the desorption of the analytes from the precolumn and the injection into the CE system was also studied in order to achieve optimal sensitivity and separation efficiency. The performance of the complete system was demonstrated by the preconcentration and separation of an enkephalin mix- hire. Using a sample volume of 250 μL, and a CE injection voltage of -15 kV for 12 s, linearity was observed over 2 orders of magnitude, and detection limits (S/N =3) were in the 5-10 ng/mL range. A 1000-fold sensitivity enhancement is obtained using this setup, as compared to a regular CE setup. For 100 ng/mL samples, repeatabilities (RSDs) of migration time and peak area were 1.2 and 11%, respectively. [ABSTRACT FROM AUTHOR]

Published

2004

39. Hadamard Transform Capillary Electrophoresis Combined with Absorption Spectrometry.

Author

Hata, Kazuki, Kaneta, Takashi, and Imasaka, Totaro

Subjects

*ELECTROPHORESIS, *ELECTROCHEMISTRY, *PHASE partition, *ABSORPTION, *PHYSICAL & theoretical chemistry, *SPECTROMETRY

Abstract

A novel injection device for applying absorption spectrometry to Hadamard transform (HT) capillary electrophoresis is described. A small hole, at the center part of the capillary, functions as an inlet port for the sample. The hole is immersed in a sample solution and the end of the capillary that is usually employed for sample introduction is immersed in a buffer solution. An ultraviolet absorption detector is placed between the sample injection port and the other end of the capillary filled with a buffer solution. A high potential is continuously applied between the injection port and the end of the capillary, which allows the sample solution to be introduced into the separation capillary. By application of a higher potential modulated according to a Hadamard code between both ends of the capillary, the buffer solution is injected into the separation capillary. In some preliminary experiments, this injection device was utilized to introduce a single sample segment into a capillary. As expected, a single peak was observed in the electropherogram for a sample containing a single component. This device was then employed for multiple sample injection in HT capillary electrophoresis. An 8-fold improvement in the S/N ratio was observed when the HT technique was used, in which a 255-order of a Hadamard matrix was used, as expected from theory. The present approach was also utilized for the sensitive detection of a sample comprised of multiple components. [ABSTRACT FROM AUTHOR]

Published

2004

40. Two-Dimensional Separation Method for Analysis of Bacillus subtilis Metabolites via Hyphenation of Micro-Liquid Chromatograhy and Capillary Electrophoresis.

Subjects

*PHASE partition, *METABOLITES, *ELECTROPHORESIS, *GEL electrophoresis, *LIQUID chromatography, *SILICON compounds, *BACILLUS (Bacteria)

Abstract

A novel two-dimensional separation method, which hyphenated chromatography and electrophoresis, was developed for analysis of Bacillus subtilis metabolites. Micro-liquid chromatography (LC) with a monolithic silica-ODS column was used as the first dimension, from which the effluent fractions were further analyzed by capillary electrophoresis (CE) acting as the second dimension. Concentration strategies, namely, dynamic pH junction and sweeping, were selectively employed to interface the two dimensions, which proved to be beneficial for the detection of metabolites. For system evaluation, an artificial sample containing 54 standard metabolites was separated according to their hydrophobicity by micro-LC with gradient mode. The early-eluting fractions were separated by capillary zone electrophoresis in combination with dynamic pH junction, while the late-eluting fractions were separated by sweeping micellar electrokinetic chromatography. The middle fractions were analyzed by both modes of CE. Under the optimum conditions, all the components in the artificial sample could be well resolved. The method was applied to profile B. subtilis metabolites. Some crucial metabolites were identified. This method provided great potential for resolving complex biological samples containing compounds having different characteristics. [ABSTRACT FROM AUTHOR]

Published

2004

41. One- and Two-Dimensional Miniaturized Electrophoresis of Proteins with Native Fluorescence Detection.

Subjects

*ELECTROPHORESIS, *PROTEINS, *ELECTROCHEMISTRY, *FLUORESCENCE, *ANALYTICAL chemistry, *PHASE partition

Abstract

Miniaturized electrophoresis was successfully coupled with native fluorescence detection for direct analysis of proteins in one- and two-dimensional separations. The detection setup was based on direct observation of the UV-induced fluorescence of proteins using a CCD camera and a Hg (Xe) lamp for sample excitation. Protein mix- hires were readily separated by size on a 1-cm segment of the one-dimensional gel in 8 mm, and a detection limit of 0.04 ng per band was achieved. The dynamic range of the system was larger than 2 orders of magnitude. Miniaturized slab gel electrophoresis was performed on a special holder designed to couple isoelectric focusing with SDS-PAGE. Two-dimensional separation, including rehydration of IEF strip and fluorescence detection was completed in 2.5 h. Approximately 200 protein spots from Escherichia coli were detected on a 1 cm2 area. A detection limit of 0.1 μg of total protein was achieved. The operation should be amenable to total automation. [ABSTRACT FROM AUTHOR]

Published

2004

42. Nonaqueous Capillary Electrophoresis--Mass Spectrometry of Synthetic Polymers.

Author

Simó, Carolina, Cottet, Hervé, Vayaboury, Willy, Giani, Olivia, Pelzing, Matthias, and Cifuentes, Alejandro

Subjects

*POLYMERS, *CAPILLARY electrophoresis, *ELECTROPHORESIS, *ELECTROCHEMISTRY, *MACROMOLECULES, *PHASE partition, *SEPARATION (Technology)

Abstract

In this work, the separation and characterization of ionizable organic polymers nonsoluble in water is carried out using nonaqueous capillary electrophoresis-ion trap mass spectrometry (NACE-MS). The polymers studied are poly(N[SUB&epsi];-trifluoroacetyl-L-lysine) (poly(TFA-Lys)) obtained by ring-opening polymerization of the corresponding N-carboxyanhydride. Different parameters (i.e., liquid sheath nature and flow rate, electrospray temperature, and separation buffer composition) are optimized in order to obtain both an adequate CE separation and a high MS signal of the samples under study. The optimum NACE- MS separation conditions allow the molecular mass characterization of poly(TFA-Lys) up to a degree of polymerization of 38. NACE-MS provides interesting information on the chemical structure of (i) the polymer end groups and (ii) other final byproducts. The MS spectra obtained by using this CE-MS protocol confirm that the polymerization was initiated by the reaction of n-hexylamine (initiator) on the monomer. CE-MS-MS and CE- MS-MS-MS results demonstrate that two different termination reactions occurred during the polymerization process leading to the transformation of the reactive amine end group into a carboxylic or a formyl groups. Byproducts such as 3-hydantoinacetic acid or diketopiperazine were also detected. To our knowledge, this is the first work in which the great possibilities of NACE-MS and NACE- MS[SUPn] for characterizing synthetic polymers are demonstrated. [ABSTRACT FROM AUTHOR]

Published

2004

43. Electrophoresis-Assisted Active Immunoassay.

Author

Morozov, Victor N. and Morozova, Tamara Ya.

Subjects

*MOLECULAR probes, *ANALYTICAL chemistry, *ELECTROPHORESIS, *DIALYSIS (Chemistry), *PHASE partition, *MACROMOLECULES, *CELLULOSE

Abstract

An active assay can be defined as that in which diffusion-controlled reactions are replaced by active delivery of analyses to probe molecules. The present paper describes an electrophoresis-assisted version of an active EUSA performed in tubes or wells with a dialysis membrane attached to theft bottoms. The permeability of such a membrane to small ions allows us to apply electric field perpendicular to the membrane surface and to rapidly transport and concentrate charged macromolecular analyses in its vicinity. Probe molecules were either adsorbed or covalently linked to a modified surface of a membrane from regenerated cellulose. An active assay was performed both in separate cells and in 96-well microplates. It was demonstrated that the active assay format allows one (i) to reduce assay time to minutes instead of hours, (ii) to increase sensitivity by a factor of 10-300, and (iii) to capture within 10 mm up to 70% of all the analyte molecules present in 0.36 mL of solution. [ABSTRACT FROM AUTHOR]

Published

2003

44. Electrophoretic method for broad MW-range proteome separation.

Author

Piggee, Christine

Subjects

*ELECTROPHORESIS, *PROTEINS, *COLLOIDS, *SEPARATION (Technology), *LIQUIDS, *POLYPEPTIDES, *AMORPHOUS substances, *ELECTROCHEMISTRY, *PHASE partition

Abstract

The article focuses on the gel-eluted liquid-fraction entrapment electrophoresis (GELFrEE). Introduced by Alan Doucette and John Tran of the Dalhousie University in Canada, the method gives separated proteins in buffer rather than gel. It is an altered kind of continuous elution tube-gel electrophoresis. With the use of GELFrEE, proteins are put together, thus causing them to break up in a distinct mass ranges in a gel-filled glass tube. Various advantages of using this device are also presented and explained.

Published

2008

45. Manipulating nanoscale object in solution.

Subjects

*NANOSCIENCE, *ELECTROPHORESIS, *SPECTRUM analysis, *LASERS, *BIOMOLECULES, *PHASE partition

Abstract

The article reports that scientists Adam E. Cohen and W.E. Moerner at Stanford University have designed a device that can manipulate nanoscale objects in solution at ambient temperatures. The device is noninvasive and can trap objects smaller than those trapped by laser tweezers. The instrument could be used for single-molecule spectroscopy and in the identification of biological molecules. The new device, which is called the anti-Brownian electrophoresis trap, contains four microfabricated electrodes arranged in a diamond configuration on a glass slide.

Published

2005