ライフサイエンスコーパス: Tween 80

1 gonorrhoeae were incubated for 5 min with 1% Tween 80.

2 hate buffer (PB, pH 7.4) containing 0.1% v/v Tween 80.

3 rticles and particles coated with citrate or Tween 80.

4 sence and, in lower yield, in the absence of Tween 80.

5 the reaction was conducted in the absence of Tween 80.

6 gnificant interference effects of PEG400 and Tween 80.

7 s grown either with or without the detergent Tween 80.

8 owth in media with and without the detergent Tween 80.

9 oth strains was decreased in the presence of Tween 80.

10 mutants and is dependent upon the detergent Tween 80.

11 culation in nanodispersion stabilized by SDS-Tween 80.

12 formulation START (0.9% sodium chloride, 1% Tween 80, 1% powdered ataluren, 1% carboxymethylcellulos

13 In the presence of Tween 80, 1-(3',4'-diethoxyphenyl)-1-hydroxy-2-(4'-metho

14 AMG9810 (50 mg/kg) or vehicle (2% DMSO/5% Tween 80/10 ml/kg saline) was injected intraperitoneally

15 on of SRHA (20 mg C/L), SRFA (20 mg C/L), or Tween 80 (1000 mg/L) to the influent nC(60) suspensions

16 to the aqueous solution (130 mL) containing Tween 80 (195 mg).

17 a surfactant mixture of Span 80 (37.4%) and Tween 80 (62.6%) were emulsified in water by high intens

18 ives used to enhance nanoparticle stability (Tween 80, a nonionic surfactant), and residual contamina

19 rotocol consisting of morphology on cornmeal Tween 80 agar and trehalose fermentation at 42 degrees C

20 pH7.4 HEPES buffered-saline containing 0.02% Tween 80 (all media contained 0.02% sodium azide).

21 fungal cell wall, (b) the membrane softener Tween 80 allows the passage of the Transfersomes into th

22 riments, mice administered farnesol alone or Tween 80 alone remained normal throughout a 14-day obser

23 sed in-channel through chemical agitation by Tween 80, also vacuum-dried within the microchannels.

24 ons composed of a 30% monoglyceride oil, 20% Tween 80 and 50% aqueous buffer were evaluated using an

25 bility of FODE in buffer is enhanced with 1% Tween 80 and ethanol.

26 ability, a major improvement over the use of Tween 80 and hydrogenated Triton X-100.

27 -12 ml); and surfactant concentration, using Tween 80 and Tween 60 (1-5 mg).

28 sions by using food grade mixed surfactants (Tween:80 and lecithin; 3:1) to replace some concentratio

29 , reconstituting fluid, 0.2% glycerol, 0.05% Tween 80, and 0.05% bovine serum albumin (BSA) were test

30 excipients such as PEG400, propylene glycol, Tween 80, and hydroxypropyl-beta-cyclodextrin on the acc

31 ne lignin model compounds in the presence of Tween 80, and in three- to fourfold lower yield in its a

32 microscopic morphology on cornmeal agar with Tween 80, and when necessary, conventional biochemical t

33 s Labrasol, Cremophor EL, Gelucire 44/14 and Tween 80 as edge activators (EAs) in the lipid bilayer.

34 sulfate (SDS), sodium caseinate (SC) and SDS-Tween 80 as the emulsifiers.

35 ower oil emulsions stabilized with 0.5%(w/v) Tween 80, as affected by pectin molecular characteristic

36 t diameters (d<200 nm) could be formed using Tween 80 at SOR1 at high stirring speeds (800 rpm).

37 berculous and nontuberculous isolates by the Tween 80-based method ranged from 22 to 92% and 27 to 93

38 hat combines NALC and NaOH (NALC-NaOH) and a Tween 80-based method.

39 c), sodium caseinate (electrosteric) and SDS-Tween 80 (combined electrostatic-steric) emulsifiers.

40 e inhibitor stock solution or by addition of Tween-80 detergent.

41 ies of nitrate reduction, catalase activity, Tween 80 hydrolysis, tellurite reduction, or arylsulfata

42 ependent, and is affected by the presence of Tween 80 in the culture media; (ii) show that AM is prod

43 ds on a high concentration of the surfactant Tween 80 in their membrane.

44 ropanol (D-PDMP), solubilized in vehicle (5% Tween-80 in PBS); the placebo group received vehicle onl

45 unds were soluble in 0.5% methylcellulose/2% Tween-80 in water (MC/T) for oral administration.

46 and its formulation vehicle polysorbate 80 (Tween 80) in human plasma samples is described.

47 ity after extended culture in the absence of Tween 80, indicating that a stable amount of GC polysacc

48 ial oil, ripening inhibitor, and surfactant (Tween 80) into 5mM sodium citrate buffer (pH 3.5).

49 tics in phosphate-buffered saline containing Tween 80 led us to suspect that a significant fraction o

50 tion) followed by PAI-749 sequestration with Tween 80 micelles yielded active PAI-1; thus, PAI-749 di

51 The Tween 80 opacity test is simple and economical to prepar

52 examined for their respective responses to a Tween 80 opacity test.

53 , is stimulated as detergent concentrations (Tween 80 or Triton X-100) are increased up to their crit

54 ng agitated phosphate buffered saline +0.02% Tween 80 pH7.4, including rate of PLGA hydrolysis, mass

55 phate buffered-saline (PBS) containing 0.02% Tween 80; pH7.4 PBS containing 1.0% triethyl citrate (PB

56 The presence of adsorbed Tween 80 resulted in nC(60) BTCs characterized by a decl

57 Lutein nanodispersions were prepared using Tween 80, sodium dodecyl sulfate (SDS), sodium caseinate

58 Only Tween 80-stabilized nanodispersion was stable against th

59 Tween 80 (steric) was then chosen for further comparison

60 hort chain monoglycerides could be used with Tween 80 to prepare transparent beta-carotene-encapsulat

61 combined with the addition of the surfactant Tween 80 to the buffer solution that is used in forming

62 and co-surfactant mixture using labrafil and tween-80 to obtain SED.

63 le that contains membrane softeners, such as Tween 80, to make it ultra-deformable.

64 y human serum albumin, bovine serum albumin, Tween-80, Triton X-100, and Pluronic-F68.

65 s larger than for di- and triglycerides when Tween 80 was used as surfactant.

66 ised by a protein or by phosphatidyl-choline/Tween 80 were submitted to gastro-intestinal in vitro co

67 eed oil plus orange oil) and 10% surfactant (Tween 80) were titrated into 80% aqueous phase.

68 impact of emulsifier type (quillaja saponin, Tween 80, whey protein and casein) and antioxidant type

69 some concentration of nonionic surfactants (Tween 80) with natural surfactant (soya lecithin) and to

70 sequently oxidized by MnP in the presence of Tween 80, yields of 3,4-diethoxybenzaldehyde, 4-methoxya