ライフサイエンスコーパス: aerate

1 n anaerobic medium but poorly when they were aerated.

2 PhoA activity was noted when the culture was aerated.

3 ble aggregates when the medium is vigorously aerated.

4 ow-controlled ventilation increased normally aerated (24% +/- 4% vs 10% +/- 2%; p = 0.004) and decrea

5 We studied this reaction in aerated acetonitrile (MeCN) solution with TPrAH oxidized

6 g measured O2 concentrations across roots in aerated, aerated saline, stagnant or stagnant saline med

7 osX increased 19.9 fold in cells grown under aerated aerobic conditions and 4.7 fold in cells grown u

8 actant depletion increases the dimensions of aerated airspaces and that lung recruitment reverses the

9 effects of atelectasis (and recruitment) on aerated airspaces remain elusive.

10 BOF slag was weathered under aerated and air-excluded conditions for 6 months prior t

11 h 1-P response to transitional zones between aerated and consolidated lung regions.

12 nt scenarios: (A) where the water within was aerated and heated to 40 degrees C, and (B) with no aera

13 onia, and free nitrous acid, associated with aerated and nonaerated phases.

14 significantly increased in cells grown under aerated and static aerobic conditions when compared to a

15 dough cookie structure, characterized by its aerated and tender texture, depends on the presence of s

16 Black (aerated) and green (unaerated) tea products, processed f

17 ight of nonaerated, poorly aerated, normally aerated, and hyperaerated lung tissue were assessed at l

18 O2 was induced when B. thetaiotaomicron was aerated, and in that circumstance this response was nece

19 s exhibit bright UC emission (400-500 nm) in aerated aqueous media with a UC lifetime of ~1 mus, exce

20 It is stable in aerated aqueous media, is incorporated into cells from t

21 were prepared by gamma-irradiation of DNA in aerated aqueous solution and incubated with human uracil

22 tion of several anilines and sulfonamides in aerated aqueous solution containing 2-acetonaphthone as

23 DDBO, DBO, and HBO are stable in aerated aqueous solution, in contrast to the rapidly aut

24 Laboratory experiments were performed in aerated aqueous solutions at an irradiation wavelength o

25 rmation of four para-substituted anilines in aerated aqueous solutions.

26 utoxidizes to the reactive o-quinone form in aerated aqueous solutions.

27 uite different within the three exhaustively aerated attempts, which indicated that gaseous compositi

28 Previous analyses established that aerated B. thetaiotaomicron loses some enzyme activities

29 ndogenous H2 O2 formation was much higher in aerated B. thetaiotaomicron than in Escherichia coli.

30 o a stable PN in a laboratory-scale membrane aerated biofilm reactor (MABR).

31 ases of sulfide concentrations in a membrane-aerated biofilm reactor that was fed with methane and am

32 Autotrophic ammonium oxidation in membrane-aerated biofilm reactors (MABRs) can make treatment of a

33 To test DIYBOT, a household-scale membrane aerated bioreactor with real-time water quality sensors

34 yelonephritis) demonstrated a resistance, in aerated broth, to switching from OFF to ON, while those

35 ctivity was seen in bacteria grown in poorly aerated broth.

36 was increased by growth on plates or in well-aerated broth.

37 enzyme/N-hydroxy-l-arginine complex with an aerated buffer solution.

38 ratidal shoreline deposit, accumulated under aerated but oxygen poor conditions.

39 tum into the left ventricle, where it became aerated by air passing from the lungs through the pulmon

40 nated due to the ~1.5-km-high, turbulent and aerated cascade that refilled the basin, which created a

41 nd organometallic complexes-which require de-aerated conditions due to severe quenching by air (i.e.,

42 ediatorless MR-1 biocathode started up under aerated conditions in the presence of lactate, received

43 epend on the tip-substrate distance while in aerated conditions it is found to be controlled by hinde

44 Formation of CaCO3 under aerated conditions provided a sink for aqueous Ca, allow

45 ncentrations were observed in leachate under aerated conditions than in the air-excluded leaching exp

46 s precipitated (CaCO3 was also present under aerated conditions).

47 In aerated conditions, yeasts grew better and the productio

48 ponents did not restore biofilm formation in aerated conditions.

49 in cysteine solutions was demonstrated under aerated conditions.

50 d shortly after switching from stationary to aerating conditions.

51 ighly sensitive to changes in PknB levels in aerated culture, and even more so in hypoxia.

52 three bands of activity increased as highly aerated cultures entered the late exponential phase of g

53 reviously that abrupt transfer of vigorously aerated cultures of Mycobacterium tuberculosis to anaero

54 d that lacZ gene expression was repressed in aerated cultures of narQ+narX null strains.

55 abundance and expression compared to highly aerated cultures, and the regulation of the cbb3-2 opero

56 In highly aerated cultures, cbb3-1 abundance and expression were g

57 In well aerated cultures, the lack of either SOD resulted in dra

58 naA, GatY, and HdeA) showed pH regulation in aerated cultures.

59 oxygen-sensitive, are expressed at night in aerated cultures; we propose that the ferredoxin, FDX9,

60 Photophysical measurements, recorded in aerated cyclohexane at 283 K, indicate that 1,4-bis(phen

61 We tested the hypothesis that aerated drinks (foams) of differing gastric stability wo

62 insights on the gastrointestinal behavior of aerated drinks by measuring separate volumes of foam, li

63 eft on pastures, and dung beetles remove and aerate dung faster, and that this is thus a key area for

64 hology and interfacial properties of low-fat aerated emulsions under different pressures conditions.

65 lly impaired by growth of the organism in an aerated environment and that cells exposed to oxygen dis

66 itated the survival of obligate anaerobes in aerated environments.

67 w opportunities for the development of novel aerated food products free of saturated and trans fatty

68 mpared with nonaerated, isocaloric controls, aerated foods can reduce appetite throughout an entire d

69 mplex community of oral bacteria grown in an aerated (gas phase, 200 ml of 5% CO2 in air x min-1) che

70 riety of bedforms can be produced by denser, aerated, granular currents, including backset bedforms t

71 to calculate the dose to which consumers of aerated groundwater are exposed through aerosols inhalat

72 nt 18 hours of either oxygenated (HMP/O2) or aerated (HMP/Air) HMP in a paired donation after circula

73 of bioreduction, a subset of microcosms was aerated in order to reoxidize the Fe(II) to Fe(III), whi

74 inue to operate in a regenerative mode in an aerated iodide electrolyte for more than 20 h.

75 d (iv) changing the stabilization pond to an aerated lagoon.

76 nduce conidiation in mycclia submerged in an aerated liquid medium.

77 mine the value of quantification of the well-aerated lung (WAL) obtained at admission chest CT to det

78 Overdistension of aerated lung occurs during atelectasis is detectable usi

79 ients with radiographic evidence of residual aerated lung regions than in patients with diffuse bilat

80 Perfusion to poorly aerated lung regions was unchanged or increased after in

81 in the upper lung regions and in the poorly aerated lung regions.

82 to greater distension-and thereby injury-of aerated lung regions; recruitment of atelectatic lung ma

83 ed with the corresponding fraction of poorly aerated lung tissue ( r = 0.62; p = 0.01) and of lung ti

84 Patients with greater normally aerated lung tissue in the ventral and medial-ventral re

85 The present findings suggest that the poorly aerated lung tissue is an important target of the perpet

86 al proteomics of atelectatic versus normally-aerated lung tissue to test the hypothesis that immune a

87 chest wall condition, at end-expiration non aerated lung tissue weight was increased by 116 +/- 68 %

88 in patients with ARDS because the amount of aerated lung varies considerably due to differences in i

89 s end-expiratory transpulmonary pressure and aerated lung volume.

90 lung was traversed and approximately 50% if aerated lung was penetrated.

91 pneumothorax rate was 15% (16 of 105) if no aerated lung was traversed and approximately 50% if aera

92 as more than three times less frequent if no aerated lung was traversed.

93 The mean CT extent (+/-SD) of normally aerated lung, ground-glass opacification, and dense pare

94 ifferentially abundant in atelectasis versus aerated lung, mostly (n = 126) with less abundance toget

95 may be attributed to the small volume of the aerated lung, which receives most of ventilation.

96 idance was used for all masses surrounded by aerated lung.

97 ed for nitritation success in intermittently aerated MABRs: both aeration intermittency and duration

98 m the exclusion of O2 during the freezing of aerated meltstream water at the bottom of the ice cover,

99 led method for performing a vascularized and aerated mouse orthotopic lung transplant, which to date

100 eriments showed no phenotypes in autotrophic aerated mutant cultures.

101 uitment and the weight of nonaerated, poorly aerated, normally aerated, and hyperaerated lung tissue

102 te profile of wheat bran fermented in either aerated or anaerobic conditions.

103 ofiles across roots of chickpea seedlings in aerated or hypoxic conditions.

104 arious treatments, particularly agitation in aerated or nitrogen-sparged seawater.

105 After incubation in aerated organ baths containing a modified essential medi

106 sediment core from the Gulf of Finland with aerated overlying water.

107 n alveolar wall thickness and an increase in aerated parenchyma, effects that were consistent with th

108 In aerated PBS, the half-life of 0.9 microM NO is greater t

109 h (WTD(e); that is, the average depth of the aerated peat layer) overrides all other ecosystem- and m

110 Seedlings grown in vigorously aerated PEG solutions at ambient solution O2 partial pre

111 ratures and extension of ablation zones into aerated peritumoral pulmonary parenchyma, possibly formi

112 hotooxidation with a quantum yield of ~4% in aerated pH 9 buffer solution that drops sharply in deaer

113 tion (ORR) at a diffusion-controlled rate in aerated phosphate buffered saline (PBS).

114 faces (ponded hollows and hummocks) and root-aerating pneumatophores in a tropical forested peatland

115 ing in hyper-inflated, normo-, hypo- and non-aerated pulmonary compartments.

116 graphy-derived tidal recruitment with poorly aerated regions (r = 0.43; p < 0.001); electrical impeda

117 Uptake of normally and poorly aerated regions was also higher in ventilator-induced lu

118 monary pressure/low PEEP strategy ventilated aerated regions without expanding atelectatic areas.

119 nt findings suggest that normally and poorly aerated regions--corresponding to intermediate gravitati

120 efend FRC gains and redistribute gas to less aerated regions.

121 e (CRS) is strongly related to the volume of aerated remaining functional lung during disease (termed

122 declined across the cortex in roots from the aerated saline solution but was relatively high in all c

123 d O2 concentrations across roots in aerated, aerated saline, stagnant or stagnant saline media.

124 a maximum of 65 MPa, by simple agitation in aerated seawater.

125 In the well-aerated sediment, NP isomers with short side chain and/o

126 As desorption and mobilization from shallow, aerated sediments underlying MAR infiltration basins.

127 Compared with nearby aerated sites, the Santa Barbara Basin is a 'symbiosis o

128 hips or particles, or shredded straw with an aerated slurry which offers the potential to mitigate fu

129 In contrast, the well-aerated soil at the site switched from COS uptake to emi

130 assimilatory reduction of nitrate (NO3-) in aerated soil slurries treated with NH4+.

131 O2 concentrations and pH conditions in well-aerated soils have favoured the formation of ferric (Fe3

132 Exposure of an aqueous, aerated solution (pH 7) of a double-stranded DNA to 193

133 iniature enzymatic biofuel cells fed with an aerated solution of glucose and no redox mediators.

134 Significantly, in the presence of oxygen (aerated solution) the electrochemical current decreases

135 ese sediments were air-dried, resuspended in aerated solution, then exposed to aqueous sulfide at a r

136 etime while sensitizing singlet oxygen in an aerated solution.

137 Aerated solutions of l-ascorbate generated *OH, which ox

138 pH and hypochlorite (OCl(-)) in unbuffered, aerated solutions over the pH range 4-10.

139 sequence context 5'-d(CAT[G1Py]CG2TCCTAC) in aerated solutions was monitored from the initial one-ele

140 This enables the sensor to be used in aerated solutions, boding well for in situ analysis.

141 In aerated solutions, paraquat signal was not distinguished

142 ours (3d), and even days (3c and 3e) in well-aerated solutions.

143 ling, and damages could be reduced by 56% if aerated static piles are used instead of windrows.

144 components in food matrix, especially due to aerated structure of dough systems.

145 ures, which, in theory, apply universally to aerated structures of all dimensions, the components of

146 ated silver nanoparticles (AgNPs) reacted in aerated, sulfide-containing water and EPA moderately har

147 Oleofoam is an innovative aerated system for designing low-fat lipid-based food pr

148 of tissue was used to assess number of TBs, aerated TBs, and number and type of obstructions and was

149 ma and patients with COPD, resulting in less aerated TBs.

150 antly (p</=0.05) higher in unaerated than in aerated teas.

151 ble with gill structures in crustaceans that aerate the hemolymph.

152 tal controls (P < 0.05).Conclusions: Rapidly aerating the preterm lung at birth creates heterogeneous

153 Especially the ability of seagrasses to aerate their below-ground tissue and immediate rhizosphe

154 Additionally, the poorly aerated tissue presented the largest uptake concentratio

155 erized in lungs by a decreased percentage of aerated tissue, an increased production of proinflammato

156 tory system elastance, lung weight, normally aerated tissue, collapsed tissue, and lung and chest wal

157 n lobar fractions of consolidated and poorly aerated tissue.

158 based test products (all 110 kcal): 2 drinks aerated to foams by whipping (to 490 mL), one drink that

159 d higher percentages of nonaerated or poorly aerated ventral and medial-ventral lung regions (p = 0.0

160 vitro culture conditions (agar versus broth; aerated versus static).

161 marase activity fell to < 5% when cells were aerated; virtually all activity was recovered after extr

162 were computed based on the comparison of the aerated volumes at successive time points.

163 ar process and enhancing efficiency for self-aerating wastewater treatment.

164 r propensity for oxidation even when held in aerated water for weeks.

165 trolled, but significant quenching (>10%) in aerated water is not expected to occur below DOM concent

166 Pdot quantum yields were as high as 0.17 in aerated water, with the Pdot structure effectively shiel

167 Under flowing aerated water, ZVI nanoparticles had an initial exponent

168 imental group, the preservation solution was aerated with 50 ppm ENO in nitrogen.

169 osira weissflogii in a semicontinuous system aerated with a model flue gas (1% CO2 and 50 ppm of NO)

170 As the cultures were aerated with an air/CO2 mixture, DMS was effectively rem

171 gen demand and ammonium nitrogen load to the aerated zones of the activated sludge process.