Characterization of beta subunit variants of recombinant human chorionic gonadotrophin.

Human chorionic gonadotropin (hCG), an endogenous glycoprotein hormone, has been widely used for the treatment of infertility and corpus luteum defect in women. The biological specificity of hCG is essentially determined by its beta (β-) subunit, whereas the alpha (α-) subunit is a common subunit shared among the gonadotropin family. In development of a therapeutic recombinant hCG, the purity analysis showed that the beta (β-) subunit has two variants, β1 and β2.

[Quality control of human chorionic gonadotrophin subunit dissociation].

Human chorionic gonadotrophin (hCG), a glycohormone widely used in treatment of infertility, is a heterodimer composed of an alpha- and a beta-subunit. The heterodimer could be dissociated during production and storage with an impact on its bioactivity. A CE-SDS method for quantitative analysis of hCG subunit dissociation was established in this study by optimization of a variety of method conditions including sample preparation buffer compositions, incubation temperature, separation voltage, and capillary temperature.

A self-assemble aptamer fragment/target complex based high-throughput colorimetric aptasensor using enzyme linked aptamer assay.

Enzyme linked aptamer assay (ELAA) uses an aptamer as recognition element and enzyme as signal readout element for establishing different kinds of aptasensors. We reported herein a high-throughput colorimetric aptasensor based on ELAA only requiring a single aptamer sequence for cocaine detection. An anti-cocaine aptamer was cleaved into two fragments, one of which was immobilized on a DNA-BIND 96-well plate via 5'-labeled primary amine and the other one was biotin labeled.

Cocaine detection by structure-switch aptamer-based capillary zone electrophoresis.

Aptamers, which are nucleic acid oligonucleotides that can bind targets with high affinity and specificity, have been widely applied as affinity probes in capillary electrophoresis (CE). Due to relative weak interaction between aptamers and small molecules, the application of aptamer-based CE is still limited in certain compounds. A new strategy that is based on the aptamer structure-switch concept was designed for small molecule detection by a novel CE method.

A label-free aptasensor for the sensitive and specific detection of cocaine using supramolecular aptamer fragments/target complex by electrochemical impedance spectroscopy.

A simple and label-free aptasensor for sensitive and specific detection of cocaine was developed by measuring the change in electrochemical impedance spectra (EIS), based on the formation of a supramolecular aptamer fragments/substrate complex. An anticocaine aptamer was divided into two fragments, Cx and Cy. Three different sensing interfaces, called Au/Cx5S/MCE, Au/Cy3S/MCE and Au/Cy5S/MCE, were fabricated by immobilizing Cx or Cy on a gold electrode through modifying their 5' or 3' end with a thiolated group followed by the treatment with mercaptoethanol (MCE).

Chemiluminescently labeled aptamers as the affinity probe for interaction analysis by capillary electrophoresis.

Aptamers are nucleic acid oligonucleotides, which can recognize targets with high affinity and specificity. Fluorescently labeled aptamers have been used as affinity probes in CE for interaction analysis. In this study, a method of labeling aptamers chemiluminescently with isoluminol isothiocyanate (ILITC) through covalent bonds was proposed and realized.

Quantification of testosterone and epitestosterone in biological samples by capillary electrophoresis with immunoaffinity extraction.

Testosterone is one of the most common doping drugs abused by athletes. Therefore, it is necessary to develop a sensitive and simple method to monitor testosterone and its epimer epitestosterone. An off-line immunoaffinity extraction followed by capillary electrophoresis for simultaneous determination of testosterone and epitestosterone has been described in this paper.