ライフサイエンスコーパス: exudation

1 rabidopsis roots, a hallmark of organic acid exudation.

2 asma membranes, and any net efflux is termed exudation.

3 h small retinal hemorrhages and intraretinal exudation.

4 r mutants results from enhanced organic acid exudation.

5 in asthmatics is not directly due to plasma exudation.

6 ge fluids was measured as an index of plasma exudation.

7 tinct roles for each ABC transporter in root exudation.

8 ics such as root proliferation and microbial exudation.

9 st onto smooth-surfaced SHRM and weaker onto exudation.

10 commensal bacteria accompanied by neutrophil exudation.

11 enhancing apparent viscosity and spontaneous exudation.

12 y period, 5 of the 19 CNV patients developed exudation.

13 s' surface induced the regression of retinal exudation.

14 Visual acuity, size of RCH, and degree of exudation.

15 ximum size within 14.0 months after onset of exudation.

16 its phloem transport, did not interfere with exudation.

17 ot tip Al exclusion mediated by organic acid exudation.

18 r AtMATE expression and Al-activated citrate exudation.

19 , with increased root biomass (33%) and root exudation (53%) compared to P-soils.

20 results suggest that AtALMT1-mediated malate exudation and AtMATE-mediated citrate exudation evolved

21 interstitial and alveolar edema and protein exudation and dramatically decreased neutrophil accumula

22 ation also exhibit wild-type rates of phloem exudation and of overall growth.

23 ed both Al-activated root malate and citrate exudation and showed greater Al sensitivity than the AtA

24 n size and signs of activation such as lipid exudation and subretinal haemorrhage should undergo ICG

25 esponded with their patterns of organic acid exudation and supports the concept that enhancing organi

26 elpful in understanding the dynamics of root exudation and the role of different molecules secreted i

27 g, mucus "tethering" to goblet cells, plasma exudation, and increased amounts of a low charge glycofo

28 intain normal starch levels, rates of phloem exudation, and overall plant growth.

29 on, long-persisting macular edema, extensive exudation, and poor initial visual acuity.

30 hat levels of Al-activated root organic acid exudation are closely correlated with expression of the

31 iles of Al-activated root citrate and malate exudation are not affected by the presence or absence of

32 Normalization to albumin suggested plasma exudation as a mechanism for the increases.

33 as inorganic sulfate to its biosynthesis and exudation as DMSP, and finally its uptake and degradatio

34 essing zinc ion release from the NPs through exudation, as evidenced by inductively coupled plasma ma

35 gy of these eyes revealed minimal subretinal exudation at 1 week followed by the appearance of vascul

36 pH profile for exudation shows half maximal exudation at pH 7.2, indicating the promotion of exudati

37 ation at pH 7.2, indicating the promotion of exudation by EDTA is probably not due simply to Ca2+ che

38 The large metal uptake and root exudation by hyperaccumulator species could accelerate t

39 atment may favorably influence the choroidal exudation by reducing choroidal vascular hyperpermeabili

40 We re-examined the sites of exudation by video microscopy, and confirmed that in bot

41 Rhizosphere chemistry is the sum of root exudation chemicals, their breakdown products and the mi

42 To date, most studies about root exudation chemistry are based on sterile cultivation sys

43 Exudation completely resolved in all but 1 patient after

44 Thymidine exudation could be attributed to ABCG36 function, wherea

45 baseline, 82 (85%) eyes had signs of active exudation despite a mean of 17 previous anti-vascular en

46 and subretinal fluid in eyes with persistent exudation despite consistent, fixed-interval intravitreo

47 ular degeneration (AMD) that have persistent exudation despite fixed-interval intravitreous anti-vasc

48 s were divided into "refractory" (persistent exudation despite monthly injections) or "recurrent" (ex

49 These seed exudations drive the microbial activities that take plac

50 malate exudation and AtMATE-mediated citrate exudation evolved independently to confer Al tolerance i

51 Vascular processes, including plasma exudation, filling of venous sinusoids, and mucosal edem

52 differential Al resistance and root citrate exudation for the six maize genotypes; in fact, one of t

53 then were reduced accordingly to maintain an exudation-free macula.

54 ort via ethylenediaminetetraacetate-enhanced exudation from cut stems revealed no effect of cotyledon

55 hese data indicate that GRgpA elicits plasma exudation from in situ oral mucosa in a catalytic site-d

56 Increased fluid exudation from overlying and opposing cartilage, increas

57 Substantial vascular exudation from pea epicotyls could be obtained without t

58 ites found in soil are in part products from exudation from plant roots.

59 Metabolic engineering of gland exudation has potential for improving pest/disease resis

60 Flow was not detected within foci of exudation, hemorrhage, or vitelliform lesions.

61 The existence of a root/mycorrhizal exudation-hyphal uptake pathway was supported.

62 piration, flow through the cell wall and ray exudation in a block of approximately 79 000 tracheids a

63 LDC activity, biofilm accumulation, and GCF exudation in a human gingivitis model were examined.

64 e been shown to mediate Al-activated citrate exudation in a number of plant species.

65 ic stimulus did not alter albumin (vascular) exudation in any group.

66 nfirmed the role of mineral-specific oxalate exudation in ectomycorrhizal weathering to dissolve calc

67 Furthermore, the early phase of plasma exudation in response to intraperitoneal injection of zy

68 PEPC, and biosynthesis of organic acids for exudation in response to P deficiency.

69 rance by mediating Al-activated organic acid exudation in roots.

70 It was found that protein exudation in the M. sativa-S. meliloti interaction cause

71 uggest that smokeless tobacco elicits plasma exudation in the oral mucosa in vivo in a specific fashi

72 Their biosynthesis and exudation increase under low phosphate levels, and they

73 with levels of albumin used to assess plasma exudation induced by allergen challenge.

74 cytokine production, and blocking eosinophil exudation into bronchoalveolar fluid.

75 to Tregs in the lung and blocking eosinophil exudation into the bronchoalveolar fluid.

76 unds and capable of blocking their synthesis/exudation is able to infect the roots and cause disease.

77 is P. syringae strain to block antimicrobial exudation is dependent on the type III secretory system.

78 long-root phenotype of lpi5 and lpi6 Malate exudation is required for the accumulation of Fe in the

79 Root malate exudation is the major contributor to Arabidopsis Al res

80 ar nature of the transporters for uptake and exudation is unknown.

81 (Al) exclusion via Al-activated root citrate exudation is widely accepted as the main Al-resistance m

82 lie Arabidopsis Al tolerance via root malate exudation, known as SENSITIVE TO PROTON RHIZOTOXICITY (S

83 rry extract and P3G, on leukocyte migration, exudation levels and many inflammatory mediators, was th

84 e of identifying potential enhancers of root exudation lies in understanding that such compounds may

85 ubretinal fluid (n = 4), and/or intraretinal exudation (n = 1).

86 ncluded subretinal fluid (n = 6), subretinal exudation (n = 6), epiretinal membrane (n = 3), retinal

87 rance response (i.e. Al-induced organic acid exudation) observed in intact maize root apices.

88 sistance response (i.e. Al-activated citrate exudation) observed in the roots of the Al-tolerant geno

89 Root exudation of Al-chelating molecules such as low-molecula

90 , Mo17, had the largest Al-activated citrate exudation of all of the maize lines.

91 a smaller root system than maize but greater exudation of citrate and acid phosphatase, suggesting a

92 ation as well as a 7.1-fold increase in root exudation of citrate, oxalate, malate, succinate, and ac

93 t the bioavailability of mercury through the exudation of LMW thiols, and thus they may play a key ro

94 Exudation of metabolites is in part mediated by ATP-bind

95 cipitated P, bringing new insight on how the exudation of organic acids regulate chemical-microbial s

96 nic alfalfa did not result in increased root exudation of organic acids.

97 -binding cassette (ABC) transporters in root exudation of phytochemicals, we identified 25 ABC transp

98 of serum proteins into the lung tissue, and exudation of proteins into the airway--are significantly

99 ic acid largely, but not entirely, inhibited exudation of radiolabeled photoassimilate.

100 nditions of low Fe availability based on the exudation of reducing, ligating, and acidifying compound

101 Here we show that the exudation of root-derived antimicrobial metabolites by A

102 or quantitative trait loci--qSLB1.1--for the exudation of SL, tillering, and induction of Striga germ

103 exclusion, resulting from Al-activated root exudation of the Al(3+) -chelating organic acids, malate

104 significantly enhanced the net efflux (i.e. exudation) of amino acids from roots of these four plant

105 The presence of a subretinal hyperreflective exudation on SD OCT could help in making decisions on th

106 CNV and showing a subretinal hyperreflective exudation on SD OCT were included.

107 ting band does not necessarily mean there is exudation or leakage; as a consequence, these patients d

108 deficiency was not due to altered flavonoid exudation or the ability of root exudates to stimulate b

109 ion (P<0.001), VMT (P<0.001), CME (P<0.001), exudation (P<0.001), and disruption of the ellipsoid zon

110 , allowing quantification of lesion size and exudation parameters.

111 about the impact of such conditions on root exudation patterns.

112 Aluminum-activated root malate and citrate exudation play an important role in plant Al tolerance.

113 Root citrate exudation plays a smaller but still significant role in

114 In maize, Al-activated root citrate exudation plays an important role in tolerance.

115 at there is a subclinical stage of subfoveal exudation ('preoccult') for patients with age-related ma

116 accumulation of jasmonates and a decrease in exudation probably due to partial sieve tube occlusion b

117 inally, an apparent relationship between the exudation rate of ST sap and its total amino acid concen

118 ch reduces root pressure, rapidly diminished exudation rate.

119 However, observations concerning exudation rates indicated a low resistance.

120 hened sequentially by 2 weeks until signs of exudation recurred and then were reduced accordingly to

121 1.8 +/- 0.6), the subretinal hyperreflective exudation regressed completely in 29 of 31 eyes (93.5%)

122 e decarboxylase may retard the increased GCF exudation required for microbial development and gingivi

123 an mediating a specific Al-activated citrate exudation response at the rhizosphere of maize roots.

124 a changes in crop management practices, root exudation, root architecture, and plant litter quality.

125 The pH profile for exudation shows half maximal exudation at pH 7.2, indica

126 Exudation signs, such as fluid accumulation and increase

127 s suggested the involvement of ABCG37 in the exudation specifically of highly oxygenated rather than

128 application or by the presence of faba bean exudation stimulated root morphological plasticity and i

129 despite monthly injections) or "recurrent" (exudation suppressed, but requiring frequent injections)

130 Mean subretinal hyperreflective exudation thickness, mean retinal thickness at the level

131 apy, based on the subretinal hyperreflective exudation thickness, retinal thickness at the level of t

132 strategy to precisely localize root citrate exudation to the specific site of greatest Al-induced ro

133 es known to exhibit kin recognition via root exudation - to investigate the consequences of kin inter

134 sistance (multiple recurrences or persistent exudation) to every-4-weeks (Q4W) ranibizumab or bevaciz

135 thods revealed a sevenfold increase in total exudation under moderate iron deficiency, with 3-epihydr

136 Thus, amino acid exudation under normal conditions is a phenomenon that p

137 type 2 macular neovascularization, fibrosis, exudation, vitelliform material, and hemorrhage.

138 This exudation was a specific response to excess Al and not t

139 ATE expression and Al-activated root citrate exudation was abolished.

140 The subretinal hyperreflective exudation was an SD OCT finding that correlated with sig

141 However, coumarin exudation was compromised in abcg37 mutants only with re

142 which case PI was further increased but GCF exudation was reduced.

143 ributed to ABCG36 function, whereas coumarin exudation was strongly reduced only in ABCG37 deficient

144 , which is known to strongly induce coumarin exudation, was also investigated.

145 ution of individual ABC transporters to root exudation, we performed an LC-MS based non-targeted meta

146 Regression indicated that PI and GCF exudation were positively related to biofilm lysine afte

147 Visual acuity, size of RCH, and degree of exudation were recorded at each visit.

148 achieved by Al-activated root apical citrate exudation, which is mediated by the plasma membrane loca

149 Bruch's membrane (BM) thickening and macular exudation with a dried-out soil pattern in the periphera

150 Fundus examination showed subfoveal severe exudation with a posterior pole serous detachment.

151 t to correlate changes in malate and citrate exudation with PEPC activity, posttranslational modifica

152 exhibited a significant Al-activated citrate exudation, with no evidence for Al activation of root ma

153 (type 2 neovascularization x3; fibrosis x4; exudation x10; hemorrhage x5; vitelliform x17).