One-step purification and refolding of recombinant photoprotein aequorin by immobilized metal-ion affinity chromatography

A hexahistidine tag was fused to the N-terminus of apoaequorin. A suitable vector encoding the fusion protein was constructed and used for transformation of Escherichia coli JM109 cells. Apoaequorin was overexpressed under the control of tac promoter. It was found, however, that most of the protein existed in the form of inclusion bodies. Inclusion bodies were solubilized with urea, followed by purification and refolding of (His)(6)-apoaequorin in a single chromatographic step by immobilized metal-ion affinity chromatography using Ni2+-nitrilotriacetic acid agarose. The purity, as determined by SDS-PAGE analysis, was greater than 80%. The yield was 0.7-1 mg apoaequorin from a 50 ml bacterial culture. The kinetics of light emission of purified aequorin upon addition of Ca2+ was typical of the commercial aequorin. The luminescence of the purified aequorin was a linear function of its concentration extending over six orders of magnitude. As low as 0.5 attomoles purified aequorin gave a signal-to-noise ratio of 1.8. (C) 2002 Elsevier Science (USA). All rights reserved

Affinity capture-facilitated preparation of aequorin-oligonucleotide conjugates for rapid hybridization assays

We report a general procedure for the preparation of biomolecular conjugates that combine the molecular recognition properties of oligonucleotides with the high detectability of the photoprotein aequorin. Central to the conjugation protocols is the use of recombinant aequorin fused to a hexahistidine tag. In one protocol, an amino-modified oligonucleotide was treated with a homobifunctional cross-linker carrying two N-hydroxysuccinimide ester groups, and the derivative was allowed to react with (His) 6-aequorin. A second strategy involved the introduction of protected sulfhydryl groups into (His)6-aequorin and subsequent reaction with a heterobifunctional linker containing a N-hydroxysuccinimide and a maleimide group. The strong, but reversible, binding of (His)6-aequorin to Ni2+-nitrilotriacetic acid agarose enabled the rapid and effective removal of the unreacted oligonucleotide, which otherwise diminishes the performance of the hybridization assay by competing with the conjugate for the complementary target sequence. Aequorin-oligo conjugates prepared by affinity capture showed similar performance with those purified by anion-exchange HPLC. The conjugates were applied to the development of rapid bioluminometric hybridization assays. The analytical range extended from 2 to 2000 pmol/L of target DNA. The reproducibility was less than 10%. The conjugate obtained from a reaction of 10 nmol of (His)6-aequorin is sufficient for about 5000 hybridization assays. The proposed conjugation strategy is general because a variety of reporter proteins can be fused to hexahistidine tag by using suitable vectors that are commercially available

Detection of transgenes in soybean via a polymerase chain reaction and a simple bioluminometric assay based on a universal aequorin-labeled oligonucleotide probe

The recombinant photoprotein aequorin was used as a reporter in highly sensitive and automatable hybridization assays for the analysis of transgenic sequences in genetically modified organisms (GMO). The terminator of the nopaline synthase gene (NOS) from Agrobacterium tumefaciens and the 35S promoter sequence were detected in genetically modified soybean. The endogenous, soybean-specific, lectin gene was also detected for confirmation of the integrity of extracted DNA. A universal detection reagent was produced through conjugation of aequorin to the oligonucleotide (dA)30. Biotinylated (through PCR) products for the three target sequences were captured onto streptavidin-coated wells, and one strand was removed by NaOH treatment. The immobilized single-stranded DNAs were then hybridized with oligonucleotide probes consisting of a target-specific segment and a poly(dT) tail. This allowed the subsequent determination of all hybrids through the use of the (dA) 30-aequorin conjugate as a universal reagent. The bound aequorin was measured by adding Ca2+ and integrating the light emission for 3 s. As low as 2 pM (100 amol per well) of amplified DNA was detectable for all three targets, with a signal-to-background ratio of about 2. The analytical range extended up to 2000 pM. As low as 0.05% GMO content in soybean can be detected with a signal-to-background ratio of 8.2. The overall repeatability of the proposed assay, including DNA extraction, PCR, and hybridization assay, ranged from 7.5-19.8%. The use of a (dA)30-aequorin conjugate renders the assay configuration general for any target DNA, provided that the specific probe carries a poly(dT) tail. © Springer-Verlag 2004

Development of a universal chemiluminometric genotyping method for high-throughput detection of 7 LDLR gene mutations in greek population

Objectives: Familial hypercholesterolemia (FH) is caused by mutations in the LDL receptor (LDLR) gene. We report the application of a universal method with high allele discrimination properties to the simultaneous genotyping of 7 LDLR mutations in Greeks, in dry-reagent format. Design and methods: We genotyped mutations C858A, C939A, G1285A, T1352C, G1646A, G1775A, C/T81G. Unpurified amplicons from a multiplex PCR that produced fragments encompassing all 7 mutations were subjected to probe extension reactions in the presence of fluorescein-modified dCTP, and a microtiter well-based assay of extension products with a peroxidase-antifluorescein conjugate and a chemiluminogenic substrate. We used lyophilized dry reagents and assigned genotypes by the signal ratio of normal-to-mutant-specific probe. Results: We standardized the method and optimised all steps for specificity. The method was validated by genotyping blindly 119 (833 genotypings). Results were fully concordant with other methods used as standards. Conclusions: This method is accurate, simple, rapid and robust. The microtiter well format allows genotyping of a large number of samples in parallel for several mutations. © 2007 The Canadian Society of Clinical Chemists

Advances in molecular techniques for the detection and quantification of genetically modified organisms

Progress in genetic engineering has led to the introduction of genetically modified organisms (GMOs) whose genomes have been altered by the integration of a novel sequence conferring a new trait. To allow consumers an informed choice, many countries require food products to be labeled if the GMO content exceeds a certain threshold. Consequently, the development of analytical methods for GMO screening and quantification is of great interest. Exponential amplification by the polymerase chain reaction (PCR) remains a central step in molecular methods of GMO detection and quantification. In order to meet the challenge posed by the continuously increasing number of GMOs, various multiplex assays have been developed for the simultaneous amplification and/or detection of several GMOs. Classical agarose gel electrophoresis is being replaced by capillary electrophoresis (CE) systems, including CE chips, for the rapid and automatable separation of amplified fragments. Microtiter well-based hybridization assays allow high-throughput analysis of many samples in a single plate. Microarrays have been introduced in GMO screening as a technique for the simultaneous multianalyte detection of amplified sequences. Various types of biosensors, including surface plasmon resonance sensors, quartz crystal microbalance piezoelectric sensors, thin-film optical sensors, dry-reagent dipstick-type sensors and electrochemical sensors were introduced in GMO screening because they offer simplicity and lower cost. GMO quantification is performed by real-time PCR (rt-QPCR) and competitive PCR. New endogenous reference genes have been validated. rt-QPCR is the most widely used approach. Multiplexing is another trend in this field. Strategies for high-throughput multiplex competitive quantitative PCR have been reported. © 2008 Springer-Verlag

Spontaneous preterm birth in women with chronic hepatitis B virus infection

Objective: To determine whether chronic hepatitis B virus (HBV) infection, as evidenced by serum levels of HBsAg and HBV DNA, is a risk factor for spontaneous preterm birth (SPB). Method: The prevalence of HBV infection and the SPB rate were prospectively investigated among 1826 pregnant women, 30.89% Albanian and the remainder of other European origins. Results: Overall, 70 (3.8%) of the women were chronically infected with HBV. HBsAg status was strongly linked to SPB, which incurred to 5 (7.3%) of 64 women with circulating HBsAg compared with 28 (1.6%) of 1703 without current HBV infection (odds ratio, 5.2; P = 0.007). SPB, however, was linked neither to HBsAg levels, nor to HBV DNA levels, nor to the presence or absence of viremia. Conclusion: Pregnant women were found to be at higher risk for SPB if they had circulating HBsAg, and the risk did not seem to be influenced by the levels of HBsAg or HBV DNA. © 2010 International Federation of Gynecology and Obstetrics. Published by Elsevier Ireland Ltd. All rights reserved