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Objective To screen the potential biomarkers in plasma of rats with acute paraquat (PQ) poisoning using gas chromatography-mass spectrometry (GC-MS) based metabonomics technology,and to provide concrete evidence for early diagnosis.Methods Eight Sprague-Dawley (SD) rats were randomly divided into PQ poisoning group (intragastricly administrated with PQ solution 100 mg/kg) and control group (intragastricly administrated with the same volume of normal saline) according to the random number table,with 4 rats in each group.The general situation of rats was observed at 2,24 and 48 hours after administration.The blood of eye sockets was collected,the endogenous small molecule metabolites in plasma were determined with GC-MS method,and metabolic profile analysis and random forest analysis were performed to filter the potential biomarkers.Results ① The rats in PQ poisoning group gradually appeared lack movement,tachypnea,abdominal seizure and other symptoms of poisoning.In control group,the vital signs were stable.② The metabolites in plasma of rat were analyzed with GC-MS analysis,and the diagrammatic figure was plot as combined with principal component analysis (PCA) and partial least squares-discriminated analysis (PLS-DA) model,which showed that the distribution of plasma metabolism in PQ poisoning group was more diffuse but in the control group was more intensive,indicating that the metabolic patterns in two groups were different.From 2 hours after PQ administration,the metabolic trajectory in PQ poisoning group was significantly deflected compared with that of the control group,which was similar to control group until 48 hours,indicating that the metabolites in plasma of rat showed obvious difference in the early period.Five kinds of potential biomarkers with large weights were selected by random forest method which were serine,L-asparagine,hexadecanoic acid,octadecanoic acid,and arachidonic acid,the retention time was 15.259,24.345,33.334,37.695,and 40.254 minutes,respectively.The levels of serine,L-asparagine,arachidonic acid in PQ poisoning group were significantly higher than those of the control group,peaked at 48,48 and 24 hours,respectively (40.884-5.38 vs.28.85±2.32,6.61±1.31 vs.0.76±0.65,14.21±4.28 vs.4.42±1.19,all P < 0.01),and the levels of hexadecanoic acid and octadecanoic acid were significantly lowered,reached tough at 48 hours (39.09 ± 10.23 vs.83.99 ± 20.49,44.03 ± 3.60 vs.140.76 ± 73.91,P < 0.05 and P < 0.01).The changes in these biomarkers were related to the toxicity of PQ,indicating that PQ could interfere the energy and lipid metabolism in rats.Conclusion Combine with the metabonomics analysis,screened plasma serine,L-asparagine,arachidonic acid content in PQ poisoning rats increased significantly,and hexadecanoic acid and octadecanoic acid content decreased significantly,which can preliminary diagnose acute PQ poisoning with animal general performance.
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Objective: To evaluate the antibacterial activity of essential oil from Trigonella foenum-graecum seeds powder, and identify the compounds from the extracted oil. Methods: The seeds powder of Trigonella foenum-graecum was subjected to Clevenger extractor. Seven strains of bacteria were used to test antibacterial activity of the extract. The activity against bacteria was tested by disk diffusion method using Whatman No. 1 filter paper. Gas chromatography mass spectrometry analysis was performed with an Agilent7890/5975B-gas chromatography/mass selective detector. Results: The hydrodistillation of seeds powder yielded 0.285%(v/w) of oil. Disk diffu-sion of the oil showed bactericidal activity against both Gram negative and Gram positive bacteria of tasted strains. The inhibition zone ranged from (8 ± 0) mm to (15.0 ± 0.7) mm depending on microbial strains. Gas chromatography mass spectrometry analysis showed 14 different compounds. The total compounds represented 80.96%of the oil. Conclusions: The antibacterial activity is due to the effects of different biological active compounds present in the extract. Identification of the compounds may help to develop new effective antimicrobial agent(s). Further researches on purification, characterization and toxicology of the active compounds are needed.
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Objective: To evaluate the antibacterial activity of essential oil from Trigonella foenum-graecum seeds powder, and identify the compounds from the extracted oil. Methods: The seeds powder of Trigonella foenum-graecum was subjected to Clevenger extractor. Seven strains of bacteria were used to test antibacterial activity of the extract. The activity against bacteria was tested by disk diffusion method using Whatman No. 1 filter paper. Gas chromatography mass spectrometry analysis was performed with an Agilent7890/5975B-gas chromatography/mass selective detector. Results: The hydrodistillation of seeds powder yielded 0.285% (v/w) of oil. Disk diffusion of the oil showed bactericidal activity against both Gram negative and Gram positive bacteria of tasted strains. The inhibition zone ranged from (8 ± 0) mm to (15.0 ± 0.7) mm depending on microbial strains. Gas chromatography mass spectrometry analysis showed 14 different compounds. The total compounds represented 80.96% of the oil. Conclusions: The antibacterial activity is due to the effects of different biological active compounds present in the extract. Identification of the compounds may help to develop new effective antimicrobial agent(s). Further researches on purification, characterization and toxicology of the active compounds are needed.
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Objective: To extract and identify the main constituents of the essential oil of Cotula cinerea (Del.) (Asteraceae family) from southwest of Algeria. Methods: The essential oils obtained by hydrodistillation, from the aerial parts of the endemic plant Cotula cinerea which was collected in the region of Sahara from southwest of Algeria, were analyzed by gas chromatography-mass spectrometry. Results: A total of 33 compounds were identified representing 98.66% of the oil. The main compounds were (E)-citral (24.01%), limonene epoxide cis- (18.26%), thymol methyl ether (15.04%), carvacrol (15.03%), trans-carveol (13.79%), carvone (3.06%) and trans-piperitol (2.54%). Conclusions: The main constituents in essential oil of the aerial part of the plant from southwest of Algeria were different from that collected from southeast of Algeria or in Morocco.
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Background & objectives: Development of insect resistance to synthetic pesticides, high operational cost and environmental pollution have created the need for developing alternative approaches to control vector-borne diseases. In the present study we have investigated the insecticidal activity of essential oil isolated from the leaves of Lantana camara against mosquito vectors. Methods: Essential oil was isolated from the leaves of L. camara using hydro-distillation method. Bioassay test was carried out by WHO method for determination of adulticidal activity against mosquitoes. Different compounds were identified by gas chromatography-mass spectrometry analysis. Results: LD50 values of the oil were 0.06, 0.05, 0.05, 0.05 and 0.06 mg/cm2 while LD90 values were 0.10, 0.10, 0.09, 0.09 and 0.10 mg/cm2 against Ae. aegypti, Cx. quinquefasciatus, An. culicifacies, An. fluvialitis and An. stephensi respectively. KDT50 of the oil were 20, 18, 15, 12, and 14 min and KDT90 values were 35, 28 25, 18, 23 min against Ae. aegypti, Cx. quinquefasciatus, An. culicifacies, An. fluviatilis and An. stephensi, respectively on 0.208 mg/cm2 impregnated paper. Studies on persistence of essential oil of L. camara on impregnated paper revealed that it has more adulticidal activity for longer period at low storage temperature. Gas chromatographic-mass spectrometric analysis of essential oil showed 45 peaks. Caryophyllene (16.37%), eucalyptol (10.75%), α-humelene (8.22%) and germacrene (7.41%) were present in major amounts and contributed 42.75 per cent of the total constituents. Interpretation &conclusion: Essential oil from the leaves of L. camara possesses adulticidal activity against different mosquito species that could be utilized for development of oil-based insecticide as supplementary to synthetic insecticides.