ライフサイエンスコーパス: aeration

1 igh shunt fraction, high perfusion, and poor aeration.

2 y decreased under conditions of high culture aeration.

3 including pathogens, under conditions of low aeration.

4 rifying MABR was operated under intermittent aeration.

5 central module is necessary for response to aeration.

6 ed at the high pH anaerobically but not with aeration.

7 tained independently of the level of culture aeration.

8 can improve growth under conditions of poor aeration.

9 a second that responded to conditions of low aeration.

10 75% total amino acids at pH 7.0 with minimal aeration.

11 at these species are produced even under low aeration.

12 eduction of 2%vol. was achieved after 30h of aeration.

13 to heating at 180 degrees C in an oven with aeration.

14 put due to the lack of a need for wastewater aeration.

15 metabolites and lipids during hypoxia and re-aeration.

16 ing batch reactor (SBR) system with bubbling aeration.

17 e compared with those produced from diffuser aeration.

18 rine proteases in cells incubated at reduced aeration.

19 were greatly enhanced in cells growing with aeration.

20 t effective means to prevent frothing during aeration.

21 accordingly forms substantial H(2)O(2) upon aeration.

22 dioxide deprivation and following 1 h of re-aeration.

23 are differentially expressed in response to aeration.

24 trains, was less evident in cells grown with aeration.

25 w aeration (6 L.min-1) as compared with high aeration (12 L.min-1).

26 he culture was grown under conditions of low aeration (6 L.min-1) as compared with high aeration (12

27 To quantify lung aeration, a lung ultrasound score was calculated.

28 Reduction of yplA expression by aeration, addition of glucose and sucrose, and applicati

29 iogas stream can meet the energy demands for aeration and agitation, and recovery of PHB synthesized

30 position improved gas exchange by restoring aeration and decreasing shunt while preserving perfusion

31 y upstream was activated in cells grown with aeration and during a stringent response, respectively.

32 Inoculation, aeration and heat dissipation are key parameters for mai

33 k and feast-famine cycles with no mechanical aeration and negligible oxygen diffusion is able to main

34 (18)F-FDG allows the assessment of both lung aeration and neutrophil inflammation as well as an estim

35 Aeration and perfusion distributions at baseline were pr

36 g its recruitability and changes in regional aeration and perfusion distributions at injury and durin

37 d tissue lung volumes and axial and vertical aeration and perfusion gradients.

38 suggesting an improved distribution of lung aeration and reduction of overdistension.

39 amic CT was used to evaluate changes in lung aeration and the regional distribution of tidal volume.

40 However, they quickly lost activity upon aeration, and AhpCF and catalase were induced to compens

41 e both required for the induction of atlS by aeration, and purified LytT was able to bind to the prom

42 grated with predenitrification, intermittent aeration, and step-feeding strategies.

43 n iron-limited medium and/or with decreasing aeration, and the metabolomes were examined by nuclear m

44 The lifetime of the NZB, septic tank aeration, and use of solar energy have been found to be

45 Thus, the NarQ sensor responds to aeration as well as to nitrate and nitrite.

46 tent and with a more uniform distribution of aeration, as the increase in aeration in dorsal lung reg

47 ) and 3.8 PFU min(-1), respectively, for the aeration basin and 79 PFU min(-1) and 0.3 PFU min(-1) fo

48 respectively, in the chambers enclosing the aeration basin and sewer models.

49 er systems: toilets, a lab-scale model of an aeration basin, and a lab-scale model of converging sewe

50 peared to be induced slightly by acid during aeration but showed stronger induction under anaerobic c

51 e, bladder pressure, and end-expiratory lung aeration by gas dilution.

52 eous breathing improved oxygenation and lung aeration by redistribution of tidal volume to dependent

53 Aeration caused Cr(VI) reoccurrence from the abiotic oxi

54 Aeration caused degradation of amino acids and hydroxyci

55 High aeration caused much reduced growth in single SOD mutant

56 not gtfC, was responsive to oxygen and that aeration causes major changes in the amount and degree o

57 were only apparent in the early stage of the aeration cells and the first cell of the IFAS possibly d

58 In addition, under conditions of high aeration, cells of mutants lacking functional cheA1 or c

59 Lung ultrasound determination of aeration changes during a successful spontaneous breathi

60 d the expiratory collapse and increased lung aeration compared with mechanical ventilation with muscl

61 ce to NorB substrates in response to reduced-aeration conditions, illustrating a third mechanism of p

62 NOB suppression associated with intermittent aeration, considering DO limitation, direct pH effects o

63 oratory scale alum sludge-based intermittent aeration constructed wetland (AlS-IACW) was integrated w

64 m HeLa cells grown in a fermentor under high aeration contained selenium-deficient enzyme species tha

65 nammox reactors; increasing the frequency of aeration cycling is an efficient way of obtaining those

66 expiratory pressure on regional collapse and aeration distribution in an experimental model of acute

67 regional open lung approach, promoted better aeration distribution, and minimized lung tissue inhomog

68 Rates of aeration-driven Cr(VI) reoccurrence increased with pH, a

69 Aeration-driven oxidation of Mn(II) to Mn(III,IV)(hydr)o

70 industrial systems was achieved without any aeration during steeping.

71 Loss of lung aeration during the successful spontaneous breathing tri

72 tation caused Hpx- cells to die rapidly upon aeration, even though the intracellular H2O2 was <1 micr

73 cytochrome d-like signal was seen under low-aeration growth conditions but only in strains in which

74 Aeration had a large effect on the sourdough metabolite

75 stages of lung injury in lungs with regional aeration heterogeneity comparable to that of humans and

76 Aeration homogeneity was evaluated as a nondependent/dep

77 distribution of aeration, as the increase in aeration in dorsal lung regions was not offset by loss o

78 E. coli W3110 was grown with aeration in potassium-modified Luria broth buffered at p

79 c paradox provides a better understanding of aeration in the deep regions of the lung, which may find

80 ur were clearly influenced by the obligatory aeration in the different trials.

81 esidual As, Fe, and Mn were removed after re-aeration in the sand of the second bucket.

82 orsal lung regions was not offset by loss of aeration in ventral regions.

83 r injury, the heterogeneity of perfusion and aeration increased and the effect of gravity decreased.

84 All strains grew under low aeration, indicating respiratory competence.

85 uccess in intermittently aerated MABRs: both aeration intermittency and duration were effective contr

86 sult in reduced growth under static (limited aeration), iron-chelated conditions, while a yfe feo dou

87 Thus aeration is a serious threat for this obligate anaerobe,

88 Aeration limitation not only obscured the metabolic effe

89 effects of iron limitation were obscured by aeration limitation.

90 ty communities and in soil with greater soil aeration may attenuate the most negative effects of floo

91 Aeration minimally affected the remainder of this pathwa

92 On aeration of anoxic fen pore waters, >90% of dissolved ir

93 CrVI reoccurrence was observed on aeration of CrVI-spiked MnS(s) from the oxidation of pro

94 e latter was promoted by shaking to increase aeration of cultures.

95 n a nonfimbriate phase because of continuous aeration of liquid cultures produce FimA in amounts simi

96 Aeration of MnS(s) at pH>/=7 caused the formation of a h

97 Thus, artificial aeration of the hypolimnium has been used as a remediati

98 Aeration of the samples resulted in extensive agglomerat

99 Upon aeration of the unprocessed enzyme prebound with Cu(I),

100 ity of infected goat barnyards that employed aeration of the water was performed.

101 so exhibited a growth defect when grown with aeration on several carbon sources, suggesting an impair

102 and heated to 40 degrees C, and (B) with no aeration or heating, to simulate vessel failure.

103 atory pressure resulted in no improvement in aeration or oxygenation.

104 The deployment of BES not only eliminates aeration or supplement of electron acceptors as in conte

105 sediment composition and arrangement, forced aeration, organic amendments, etc.) to improve the effic

106 e nucleotide pools in response to changes in aeration, oxidative stress, and UV irradiation.

107 he regional distribution of pulmonary shunt, aeration, perfusion, and ventilation in seven surfactant

108 ing, stabilization, cow dung mixing, passive aeration, pond disposal, and soil disposal.

109 of cells grown under reduced but not normal aeration prevented MgrA from being converted to its dime

110 s that the most uncertain parameters are the aeration process, the transport of C. burnetii in bioaer

111 lation, rapid sand filtration, dune passage, aeration, rapid sand filtration, ozonation, pellet softe

112 However, aeration reduced pyruvate:ferredoxin oxidoreductase (PFO

113 s have important implications for the use of aeration remediation in polluted aquatic environments an

114 d P. angustum in a fermentor with controlled aeration revealed that acetone was produced after a lag

115 t aeration, with air suction and pressurised aeration) revealed that the heterogeneity of these malts

116 ve homogeneity, the common practise of steep aeration should be omitted.

117 Furthermore, aeration soon after a tracer injection showed that sedim

118 Regional lung aeration, specific [F]fluorodeoxyglucose uptake rate, an

119 Different intermittent aeration strategies were then evaluated for nitritation

120 tation/anammox were operated under different aeration strategies, gradually adjusted over six months.

121 Aeration strongly inhibited biofilm development, and the

122 Batch experiments simulating the aeration tank of a sewage treatment plant confirmed the

123 The severity reversed in low aeration; the CuZnSOD mutant remained viable longer than

124 Bubbles were generated either by aeration through a diffuser or by water jet impingement

125 ctor at a rate of 0.28 h(-1) upon subsequent aeration to yield a mature enzyme with kinetic propertie

126 the emissions was noted when the duration of aeration was increased while decreasing air flow rate (1

127 missions were obtained when the frequency of aeration was increased while maintaining a constant air

128 NOB suppression during intermittent aeration was mostly explained by periodic inhibition cau

129 Under reduced aeration, we also observed a 21.7-fold increase in the n

130 Although no improvements in lung aeration were observed, muscle paralysis with severe lun

131 Regarding the air requirement for module aeration, which is the main cost factor in MBR technolog

132 e with a 15% reduced cost, due to responsive aeration with changing environmental assimilation capaci

133 lly produced malts (steeping systems without aeration, with air suction and pressurised aeration) rev

134 choscopies, our patient had substantial lung aeration within 48 hrs of continuous positive airway pre

135 ergy-producing strategies, we suspected that aeration would interfere with its central metabolism.