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11.
Online biochemical detection of glutathione-S-transferase P1-specific inhibitors in complex mixtures
Kool J Eggink M van Rossum H van Liempd SM van Elswijk DA Irth H Commandeur JN Meerman JH Vermeulen NP 《Journal of biomolecular screening》2007,12(3):396-405
A high-resolution screening (HRS) technology is described, which couples 2 parallel enzyme affinity detection (EAD) systems for substrates and inhibitors of rat cytosolic glutathione-S-transferases (cGSTs) and purified human GST P1 to gradient reversed-phase high-performance liquid chromatography (HPLC). The cGSTs and GST P1 EAD systems were optimized and validated first in flow injection analysis (FIA) mode, and optimized values were subsequently used for HPLC mode. The IC(50) values of 8 ligands thus obtained online agreed well with the IC(50) values obtained with microplate reader-based assays. For ethacrynic acid, an IC(50) value of 1.8 +/- 0.4 microM was obtained with the cGSTs EAD system in FIA mode and 0.8 +/- 0.6 microM in HPLC mode. For ethacrynic acid with the GST P1 EAD system, IC(50) values of 6.0 +/- 2.9 and 3.6 +/- 2.8 microM were obtained in FIA and HPLC modes, respectively. An HRS GST EAD system, consisting of both the cGSTs and the GST P1 EAD system in HPLC mode in parallel, was able to separate complex mixtures of compounds and to determine online their individual affinity for cGSTs and GST P1. Finally, a small library of GST inhibitors, synthesized by reaction of several electrophiles with glutathione (GSH), was successfully screened with the newly developed parallel HRS GST EAD system. It is concluded that the present online gradient HPLC-based HRS screening technology offers new perspectives for sensitive and simultaneous screening of general cGSTs and specific GST P1 inhibitors in mixtures. 相似文献
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Stefanie Rettcher Felicitas Jungk Christoph Kühn Hans-Joachim Krause Greta N?lke Ulrich Commandeur Rainer Fischer Stefan Schillberg Florian Schr?per 《Applied and environmental microbiology》2015,81(9):3039-3048
Plant pathogens cause major economic losses in the agricultural industry because late detection delays the implementation of measures that can prevent their dissemination. Sensitive and robust procedures for the rapid detection of plant pathogens are therefore required to reduce yield losses and the use of expensive, environmentally damaging chemicals. Here we describe a simple and portable system for the rapid detection of viral pathogens in infected plants based on immunofiltration, subsequent magnetic detection, and the quantification of magnetically labeled virus particles. Grapevine fanleaf virus (GFLV) was chosen as a model pathogen. Monoclonal antibodies recognizing the GFLV capsid protein were immobilized onto immunofiltration columns, and the same antibodies were linked to magnetic nanoparticles. GFLV was quantified by immunofiltration with magnetic labeling in a double-antibody sandwich configuration. A magnetic frequency mixing technique, in which a two-frequency magnetic excitation field was used to induce a sum frequency signal in the resonant detection coil, corresponding to the virus concentration within the immunofiltration column, was used for high-sensitivity quantification. We were able to measure GFLV concentrations in the range of 6 ng/ml to 20 μg/ml in less than 30 min. The magnetic immunoassay could also be adapted to detect other plant viruses, including Potato virus X and Tobacco mosaic virus, with detection limits of 2 to 60 ng/ml. 相似文献
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Bonifacio A Keizers PH Commandeur JN Vermeulen NP Robert B Gooijer C van der Zwan G 《Biochemical and biophysical research communications》2006,343(3):772-779
Cytochrome P450 2D6 (CYP2D6) is one of the most important drug-metabolizing enzymes in humans. Resonance Raman data, reported for the first time for CYP2D6, show that the CYP2D6 heme is found to be in a six-coordinated low-spin state in the absence of substrates, and it is perturbed to different extents by bufuralol, dextromethorphan, and 3,4-methylenedioxymethylamphetamine (MDMA). Dextromethorphan and MDMA induce in CYP2D6 a significant amount of five-coordinated high-spin heme species and reduce the polarity of its heme-pocket, whereas bufuralol does not. Spectra of the F120A mutant CYP2D6 suggest that Phe120 is involved in substrate-binding of dextromethorphan and MDMA, being responsible for the spectral differences observed between these two compounds and bufuralol. These differences could be explained postulating a different substrate mobility for each compound in the CYP2D6 active site, consistently with the role previously suggested for Phe120 in binding dextromethorphan and MDMA. 相似文献
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ABSTRACT: BACKGROUND: The enzymatic conversion of lignocellulosic plant biomass into fermentable sugars is a crucial step in the sustainable and environmentally friendly production of biofuels. However, a major drawback of enzymes from mesophilic sources is their suboptimal activity under established pretreatment conditions, e.g. high temperatures, extreme pH values and high salt concentrations. Enzymes from extremophiles are better adapted to these conditions and could be produced by heterologous expression in microbes, or even directly in the plant biomass. RESULTS: Here we show that a cellulase gene (sso1354) isolated from the hyperthermophilic archaeon Sulfolobus solfataricus can be expressed in plants, and that the recombinant enzyme is biologically active and exhibits the same properties as the wild type form. Since the enzyme is inactive under normal plant growth conditions, this potentially allows its expression in plants without negative effects on growth and development, and subsequent heat-inducible activation. Furthermore we demonstrate that the recombinant enzyme acts in high concentrations of ionic liquids and can therefore degrade alpha-cellulose or even complex cell wall preparations under those pretreatment conditions. CONCLUSION: The hyperthermophilic endoglucanase SSO1354 with its unique features is an excellent tool for advanced biomass conversion. Here we demonstrate its expression in planta and the possibility for post harvest activation. Moreover the enzyme is suitable for combined pretreatment and hydrolysis applications. 相似文献
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Peter A C 't Hoen Bram-Sieben Rosema Jan N M Commandeur Nico P E Vermeulen Muthiah Manoharan Theo J C van Berkel Eric A L Biessen Martin K Bijsterbosch 《European journal of biochemistry》2002,269(10):2574-2583
Antisense oligodeoxynucleotides (AS-ODNs) are frequently used for the down-regulation of protein expression. Because the majority of potential antisense sequences lacks effectiveness, fast screening methods for the selection of effective AS-ODNs are needed. We describe a new cellular screening assay for the evaluation of the potency and specificity of new antisense sequences. Fusion constructs of the gene of interest and the gene encoding the enhanced green fluorescent protein (EGFP) are cotransfected with AS-ODNs to COS-7 cells. Subsequently, cells are analysed for expression of the EGFP fusion protein by flow cytometry. With the assay, we tested the effectiveness of a set of 15 phosphorothioate ODNs against rat glutathione S-transferase Mu1 (GSTM1) and/or Mu2 (GSTM2). We found several AS-ODNs that demonstrated potent, sequence-specific, and concentration-dependent inhibition of fusion protein expression. At 0.5 microm, AS-6 and AS-8 inhibited EGFP-GSTM1 expression by 95 +/- 4% and 81 +/- 6%, respectively. AS-5 and AS-10 were selective for GSTM2 (82 +/- 4% and 85 +/- 0.4% decrease, respectively). AS-2 and AS-3, targeted at homologous regions in GSTM1 and GSTM2, inhibited both isoforms (77-95% decrease). Other AS-ODNs were not effective or displayed non-target-specific inhibition of protein expression. The observed decrease in EGFP expression was accompanied by a decrease in GSTM enzyme activity. As isoform-selective, chemical inhibitors of GSTM and GSTM knock-out mice are presently unavailable, the selected AS-ODNs constitute important tools for the study of the role of GSTM in detoxification of xenobiotics and protection against chemical-induced carcinogenesis. 相似文献
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Loeckie L De Zwart Jennifer Venhorst Marjolein Groot Jan N.M Commandeur Ralph C.A Hermanns John H.M Meerman Ben L.M Van Baar Nico P.E Vermeulen 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》1997,694(2):481
One of the major processes that occur as a result of radical-induced oxidative stress is lipid peroxidation (LPO). Degradation of lipid peroxides results in various products, including a variety of carbonyl compounds. In the present study eight different lipid degradation products, i.e., formaldehyde, acetaldehyde, acetone, propanal, butanal, pentanal, hexanal and malondialdehyde were identified and measured simultaneously and quantitatively in rat urine after derivatization with O-(2,3,4,5,6-pentafluorbenzyl)hydroxylamine hydrochloride, extraction with heptane and using gas chromatography–electron-capture detection (GC–ECD). The identity of the respective oximes in urine was confirmed by gas chromatography–negative ion chemical ionization mass spectrometry (GC–NCI-MS). Simultaneously measured standard curves were linear for all oxime-products and the detection limits were between 39.0±5.3 (n=9) and 500±23 (n=9) fmol per μl injected sample. Recoveries of all products from urine or water were 73.0±5.2% and higher. In urine of CCl4-treated rats an increase in all eight lipid degradation products in urine was found 24 h following exposure. ACON showed the most distinct increase, followed by PROPA, BUTA and MDA. It is concluded that the rapid, selective and sensitive analytical method based on GC–ECD presented here is well suited for routine measurement of eight different lipid degradation products. These products appear to be useful as non-invasive biomarkers for in vivo oxidative stress induced in rats by CCl4. 相似文献
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Laetitia C. M. Commandeur Ralph J. May Heinrich Mokross Donna L. Bedard Walter Reineke Harrie A. J. Govers John R. Parsons 《Biodegradation》1996,7(6):435-443
In contrast to the degradation of penta-and hexachlorobiphenyls in chemostat cultures, the metabolism of PCBs by Alcaligenes sp. JB1 was shown to be restricted to PCBs with up to four chlorine substituents in resting-cell assays. Among these, the PCB congeners containing ortho chlorine substituents on both phenyl rings were found to be least degraded. Monochloro-benzoates and dichlorobenzoates were detected as metabolites. Resting cell assays with chlorobenzoates showed that JB1 could metabolize all three monochlorobenzoates and dichlorobenzoates containing only meta and para chlorine substituents, but not dichlorobenzoates possessing an ortho chlorine substituent. In enzyme activity assays, meta cleaving 2,3-dihydroxybiphenyl 1,2-dioxygenase and catechol 2,3-dioxygenase activities were constitutive, whereas benzoate dioxygenase and ortho cleaving catechol 1,2-dioxygenase activities were induced by their substrates. No activity was found for pyrocatechase II, the enzyme that is specific for chlorocatechols. The data suggest that complete mineralization of PCBs with three or more chlorine substituents by Alcaligenes sp. JB1 is unlikely.Abbreviations PCB
polychlorinated biphenyls
- CBA
chlorobenzoate
- D
di
- Tr
tri
- Te
tetra
- Pe
penta-
- H
hexa 相似文献
19.
Combining substrate dynamics, binding statistics, and energy barriers to rationalize regioselective hydroxylation of octane and lauric acid by CYP102A1 and mutants 下载免费PDF全文
Feenstra KA Starikov EB Urlacher VB Commandeur JN Vermeulen NP 《Protein science : a publication of the Protein Society》2007,16(3):420-431
Hydroxylations of octane and lauric acid by Cytochrome P450-BM3 (CYP102A1) wild-type and three active site mutants--F87A, L188Q/A74G, and F87V/L188Q/A74G--were rationalized using a combination of substrate orientation from docking, substrate binding statistics from molecular dynamics simulations, and barrier energies for hydrogen atom abstraction from quantum mechanical calculations. Wild-type BM3 typically hydroxylates medium- to long-chain fatty acids on subterminal (omega-1, omega-2, omega-3) but not the terminal (omega) positions. The known carboxylic anchoring site Y51/R47 for lauric acid, and hydrophobic interactions and steric exclusion, mainly by F87, for octane as well as lauric acid, play a role in the binding modes of the substrates. Electrostatic interactions between the protein and the substrate strongly modulate the substrate's regiodependent activation barriers. A combination of the binding statistics and the activation barriers of hydrogen-atom abstraction in the substrates is proposed to determine the product formation. Trends observed in experimental product formation for octane and lauric acid by wild-type BM3 and the three active site mutants were qualitatively explained. It is concluded that the combination of substrate binding statistics and hydrogen-atom abstraction barrier energies is a valuable tool to rationalize substrate binding and product formation and constitutes an important step toward prediction of product ratios. 相似文献
20.
Linking cytochrome P450 enzymes from Mycobacterium tuberculosis to their cognate ferredoxin partners