ライフサイエンスコーパス: parathion

1 develop an immunosensor for the detection of parathion.

2 on, the active metabolite of the insecticide parathion.

3 shift is proportional to the amount of bound parathion.

4 amethoxam, trifluralin, carbaryl, and methyl parathion.

5 In this work, with parathion, a typical forbidden organophosphate pesticide

6 ection limits were 3 microM for paraoxon and parathion and 5 microM for coumaphos.

7 tion of organophosphate insecticides such as parathion and chlorpyrifos.

8 ivity that degrades the insecticide dimethyl parathion and conjugates glutathione to lindane.

9 expressing OPH on the cell surface degraded parathion and paraoxon very effectively without any diff

10 n (S/N=3) as low as 12nM and 10nM for methyl parathion and parathion, respectively.

11 as low as 50 nM and 140 nM are achieved for parathion and patulin, respectively.

12 This effect was specific to chlorpyrifos and parathion and was not affected by synergists.

13 tors diazinon, chlorpyrifos, chlorfenviphos, parathion, and aldicarb.

14 conditions, the biosensor measured paraoxon, parathion, and coumaphos pesticides with high selectivit

15 asure as low as 2 microM of paraoxon, methyl parathion, and diazinon.

16 cluded analogues of the pesticides paraoxon, parathion, and dimefox, and the nerve agents DFP, tabun,

17 using the organophosphate insecticide methyl parathion as sole source of phosphate.

18 al that senses the organophosphorus compound parathion at ultratrace concentrations in aqueous soluti

19 m half inhibition concentration (IC(50)) for parathion can be as low as 2.04 ng/mL, 3.2-fold and 4.2-

20 The insecticides parathion, chlorpyrifos and diazinon are bioactivated to

21 Parathion concentrations as low as 4.26 fM are easily de

22 tion, resulting in sevenfold higher rates of parathion degradation compared with whole cells with sim

23 NA, multiple copies of the gene encoding the parathion-degrading activity (called MdGst-3) were subcl

24 Chlorpyrifos, EPTC, paraquat, and parathion demonstrated significant dose-response trends.

25 zinon, fenitrothion, methyl-parathion, ethyl-parathion, dimethoate, chlorfenvinphos, and profenofos.

26 chlorpyrifos, diazinon, fenitrothion, methyl-parathion, ethyl-parathion, dimethoate, chlorfenvinphos,

27 des (OPPs; diazinon, fenitrothion, fenthion, parathion-ethyl, and ethion) before analysis by gas chro

28 resolution is observed for paraoxon, methyl parathion, fenitrothion, and ethyl parathion in 140 s.

29 Degradation products of parathion formed by irradiation seem to protect against

30 r, fenitrothion>>>quinalphos>methylparathion>parathion>methylparaoxon>paraoxon>fench lorphos>profenof

31 Parathion had the highest OR (1.5, 95% confidence interv

32 The specificity against the parathion has been tested by checking the immunosensor r

33 Flavobacterium sp. and Pseudomonas diminuta parathion hydrolase (phosphotriesterase or PTE), an enzy

34 n, methyl parathion, fenitrothion, and ethyl parathion in 140 s.

35 has been successfully used to measure methyl parathion in lake water, showing a great potential in de

36 osed PC12 cells to chlorpyrifos, diazinon or parathion in the undifferentiated state and during neuro

37 to very high detection sensitivity once the parathion is made heavier by complexion with BSA (bovine

38 to wheeze, paraquat, three organophosphates (parathion, malathion, and chlorpyrifos), and one thiocar

39 d, 163-fold, 58-fold, 16-fold against methyl-parathion, malathion, ethyl-paraoxon, and methyl-paraoxo

40 kg of diazinon and 1.23 million kg of ethyl parathion manufactured in the USA (data supplied by the

41 anticholinesterase insecticides such as the parathion metabolite paraoxon.

42 ocess for one of the widely used pesticides (parathion methyl) in the detection range of 10(-12) to 1

43 The LOD of methyl-parathion (MP) was as low as 0.037 ng/cm(2), with an RSD

44 ased optical microplate biosensor for methyl parathion (MP) was good as it detected multiple samples

45 th sensitivity 0.58 mA/ng/L/cm(2) for methyl parathion (MP).

46 MIP)-based ELISA for the detection of methyl parathion (MP).

47 determination of hazardous pesticide methyl parathion (MP).

48 aining reasonable selectivity towards methyl parathion (MP, organophosphate pesticide) in the presenc

49 eta10, two split-NanoLuc units onto the anti-parathion nanobody (Nb) VHH9 and the artificial antigen

50 mon pesticides like chlorpyrifos, malathion, parathion, paraoxon, and carbaryl which are present in f

51 (DZO) exposure but does not protect against parathion/paraoxon or nerve agents.

52 the detection of organophosphorus pesticide, parathion (PAT), for the first time.

53 phenolic content and antioxidant capacity of parathion-pretreated leaves of Salvia officinalis plant

54 n of nine pesticides (chlorothalonil, methyl parathion, procymidone, endosulfan, iprodione, lambda-cy

55 chlorpyrifos, diazinon, fenitrothion, methyl parathion, profenofos, and chlorfenvinphos were selected

56 The kinetics of parathion (PTH) decomposition into para-nitrophenolate (

57 hly linear over the 5-100 ng/mL (ppb) methyl parathion range examined (2-min adsorption), with a dete

58 ol, phorate D10, fonofos, chloropyrifos, and parathion, respectively, within 15 min from a 10 ppb aqu

59 ow as 12nM and 10nM for methyl parathion and parathion, respectively.

60 nalysis of phenolic extracts of sage without parathion showed that irradiation decreased polyphenolic

61 These AChE-PCCAs act as dosimeters for parathion since it irreversibly binds.

62 For parathion, the trend was statistically significant for i

63 ciation between pendimethalin, dieldrin, and parathion use and lung cancer risk.

64 The limit of detection obtained for parathion using this method was observed to be 0.66 ppt

65 e organophosphorus pesticides edifenphos and parathion were tested in rice and tea extracts.

66 n cyanide, acrolein, formaldehyde, and ethyl parathion, were tested.

67 sphate insecticides diazinon, malathion, and parathion-were all positively associated with depression

68 esponse to a mixture of compounds similar to parathion, whereas the specificity against the patulin h

69 fected by PIT nor is it by the complexion of parathion with BSA.