ライフサイエンスコーパス: time-dependent change

1 the non-stationarity of brain dynamics, i.e. time-dependent changes.

2 iomedical conditions characterized by subtle time-dependent changes.

3 idomics analysis revealed that H(2)S elicits time-dependent changes across several lipid classes, e.g

4 is past year, may provide some insights into time-dependent changes after superior oblique palsy as w

5 Time-dependent changes also were observed during the tes

6 All four body fluids (BFs) exhibited diverse time-dependent changes, and a large number of molecular

7 ntent and juice color index, alcohols showed time-dependent changes, and aldehydes were related to ju

8 Furthermore, these time-dependent changes appeared to be unaffected by the

9 after an initial 1 h incubation few further time-dependent changes are observed.

10 titutional dynamic library (CDL) may undergo time-dependent changes as a function of the kinetics of

11 For time dependent changes, cell adhesion, vasculature devel

12 The associated [2 x 2] networks underwent time-dependent changes from the initial kinetic distribu

13 In agreement with these time-dependent changes, hierarchical clustering of diffe

14 se data demonstrate that microglia exhibit a time dependent change in morphology after reperfusion an

15 consistent with the experimentally observed time dependent changes in concentrations of the differen

16 nd mice trained to find the platform, subtle time dependent changes in editing patterns are seen as s

17 Additionally, we show time dependent changes in RNA profiles of the draining l

18 Both techniques demonstrated a dose- and time-dependent change in [(3)H]palmitate labeling of alp

19 timers (tFTs) report on protein age through time-dependent change in color, which can be exploited t

20 nd increased astrocytes were detected, and a time-dependent change in components of the cholinergic a

21 month mortality was strongly associated with time-dependent change in eGFR, hepatorenal syndrome, dia

22 A complex, time-dependent change in enzyme intrinsic fluorescence w

23 of allele age, these distributions mark the time-dependent change in genetic differentiation.

24 its synthesis, perhaps before it undergoes a time-dependent change in its conformation or aggregation

25 Following photolysis of CO, a time-dependent change in ligation is evident in both ste

26 of papain to the urine samples resulted in a time-dependent change in magnetoresistance.

27 n models adjusted for age, sex, baseline and time-dependent change in mean arterial pressure, and cli

28 rvested during carotid endarterectomy show a time-dependent change in plaque composition characterize

29 The time-dependent change in Rap1 immunoreactivity was paral

30 e formation with a specific target lead to a time-dependent change in the branch-specific accumulatio

31 ction, control of the qubit state produces a time-dependent change in the frequency of the light fiel

32 Stimulation with TNF induces a time-dependent change in the level of Jak2, c-Src, and P

33 es the magnetic nanoparticles resulting in a time-dependent change in the local magnetic field.

34 The time-dependent change in the mass of any fragment of the

35 QGE031 elicited a concentration- and time-dependent change in the provocative concentration o

36 ct 5-HT2C receptor antagonists resulted in a time-dependent change in the quaternary organization to

37 Thus, we have uncovered a novel, time-dependent change in the relationship between total

38 determines propagation between domains is a time-dependent change in the sensitivity of ryanodine re

39 for charge-trapping dynamics that renders a time-dependent change in the threshold voltage as the do

40 rahydrocannabinol also attenuated the normal time-dependent change in ventrostriatal activation durin

41 upport the view that HSV-1 virions undergo a time-dependent change in which the tegument is transform

42 d reference region model, which accounts for time-dependent changes in (18)F-fallypride displacement.

43 he model was based on a synthesis of data on time-dependent changes in atomic force microscopy measur

44 ice near the end of the dark phase, and with time-dependent changes in basal forebrain acetylcholines

45 summary, these data show that KMeth produces time-dependent changes in basic membrane properties and

46 Kinetic analysis shows time-dependent changes in beta and delta binding that we

47 For glycine-conjugated bile salts, time-dependent changes in binding did not occur, consist

48 is was a prospective cohort study evaluating time-dependent changes in biomarkers of inflammation and

49 Time-dependent changes in both fluorescence anisotropy a

50 Alcohol dependence is associated with time-dependent changes in brain GABA(A) receptor density

51 d reaction medium and subsequent analysis of time-dependent changes in bubble dimensions.

52 ation through MLCP deinhibition, we compared time-dependent changes in Ca(2+), myosin light chain (ML

53 Time-dependent changes in candidate cell(s) were evaluat

54 K1 and CKD2 inhibitors on population growth, time-dependent changes in cell cycle distributions, and

55 ng of cells and multicellular organisms, and time-dependent changes in cell structure.

56 high-power computational analysis to profile time-dependent changes in cellular phospholipids after t

57 f asparaginyl and glutaminyl residues causes time-dependent changes in charge and conformation of pep

58 kinetic model was developed to describe the time-dependent changes in concentration of a lipid under

59 numeric integration methods accounts for the time-dependent changes in concentration.

60 kinases (RTKs) involves complex ligand- and time-dependent changes in conformation and modification

61 Time-dependent changes in CRH concentrations were assess

62 temporal lobe epilepsy was used to study the time-dependent changes in dentate gyrus circuitry after

63 Here we used ultrasonography to evaluate time-dependent changes in diaphragm function in vivo, by

64 nse to denervation, we have investigated the time-dependent changes in dopamine D2, D3, and D4 recept

65 graphy as a reliable technique for assessing time-dependent changes in dystrophic diaphragm function

66 low starch contents and were not related to time-dependent changes in either the rate of photosynthe

67 Data from dated human samples revealed time-dependent changes in endometrial apoptosis precedin

68 The time-dependent changes in ERK activation were examined i

69 ty analysis suites, which do not accommodate time-dependent changes in expression dynamics.

70 cidualization of ESC resulted in significant time-dependent changes in expression of AKR1C3 and SRD5A

71 nteracts with older filaments by recognizing time-dependent changes in F-actin structure associated w

72 Therefore, we suggest that time-dependent changes in factors within AB descendants

73 whether these states could be inferred from time-dependent changes in feeding-related measures.

74 otron small-angle X-ray diffraction to probe time-dependent changes in fibrillar structure during in

75 usually large dataset that characterises the time-dependent changes in five membrane bound phospoinos

76 F-EGF with cells was monitored by observing time-dependent changes in fluorescence anisotropy follow

77 pressing 32D cells was observed by measuring time-dependent changes in fluorescence anisotropy follow

78 We obtained 18 snapshots that show time-dependent changes in four reaction loci.

79 Time-dependent changes in FRET, Fourier transform infrar

80 Understanding these time-dependent changes in gene expression in post mortem

81 pared between never and current smokers, and time-dependent changes in gene expression were studied i

82 NA microarray expression data to investigate time-dependent changes in gene expression, following ind

83 In particular, we document time-dependent changes in genes involved in adhesion and

84 th male and female), we observed significant time-dependent changes in global activity, in synaptic v

85 ll survival, non-F- and F-cell survival, and time-dependent changes in HbF content (%HbF) for the sur

86 ound in human AD, allowed us to characterize time-dependent changes in inflammatory and cholinergic m

87 onding composition vectors that describe the time-dependent changes in intensity of the component spe

88 t-dependent priority effects that arise from time-dependent changes in interacting traits.

89 enable researchers to noninvasively monitor time-dependent changes in intercellular and intracellula

90 imization with experimental data that relate time-dependent changes in keratinocyte surface area duri

91 he complexes were positively correlated with time-dependent changes in Lhcb1 transcript abundance, im

92 these intermediates can be gleaned from the time-dependent changes in local probes of macromolecular

93 Thus, SVT causes time-dependent changes in LV geometry and function and t

94 graphy as a reliable technique for assessing time-dependent changes in mdx diaphragm function in vivo

95 The time-dependent changes in metabolite abundances, as well

96 Time-dependent changes in Mg(2+)-ATPase accompanying pro

97 els, BiP (ibandronate) treatment resulted in time-dependent changes in microcalcification size and mi

98 ntly, the model can also reproduce the rapid time-dependent changes in mitochondrial NADH and Ca2+ in

99 that IFN-beta treatment induces specific and time-dependent changes in multiple mRNAs in lymphocytes

100 However, little is known regarding how time-dependent changes in nanoparticle structure due to

101 ues for GroEL allosteric rates are used, the time-dependent changes in native-state yield at eight Gr

102 Intradermal CTCL inoculation produced time-dependent changes in nerve innervations in lymphoma

103 inherently able to tell time as a result of time-dependent changes in network state.

104 These results highlight the contrast in time-dependent changes in neurochemical responsiveness t

105 ged cocaine self-administration and requires time-dependent changes in neuroplasticity at the level o

106 ncy of virion maturation resulted in greater time-dependent changes in neutralization potency and a m

107 extent of virion maturation, we investigated time-dependent changes in neutralization sensitivity ass

108 Time-dependent changes in nicotinic acetylcholine recept

109 l (AA) and sickle (SS) RBCs by measuring the time-dependent changes in osmotic fragility and RBC volu

110 sh a stable baseline, the concentration- and time-dependent changes in outflow facility induced by CH

111 on 40 consecutive KTx recipients to evaluate time-dependent changes in oxidative stress-related param

112 out 70% CD56+ cells on PAEC monolayer led to time-dependent changes in PAEC monolayer morphology.

113 Time-dependent changes in physicochemical properties of

114 Here, we examine time-dependent changes in protein-protein interactions t

115 es whose expression shows striking dose- and time-dependent changes in response to 3-30 microM MSA ov

116 The time-dependent changes in rVR1-mediated conductance due

117 biosensing technologies requires studies on time-dependent changes in sensor properties because such

118 RPPA characterization of the time-dependent changes in signaling pathways revealed th

119 n their fundamental principles, both exploit time-dependent changes in signals found within crystals

120 competition, which involves quantifying the time-dependent changes in substrate or product ratios in

121 The time-dependent changes in the 2D IR vibrational echo lin

122 that oxidation resulted in concentration and time-dependent changes in the activation threshold for S

123 mental events are orchestrated before MGA by time-dependent changes in the array of maternal transcri

124 ts, differences among bacterial species, and time-dependent changes in the bacterial population are i

125 Our results suggest that progressive time-dependent changes in the balance between MMP activi

126 ytic replication cycle, we observed ordered, time-dependent changes in the cellular gene expression p

127 folding trajectories under force in terms of time-dependent changes in the distance between the beads

128 ohexadiene ring by the direct measurement of time-dependent changes in the distribution of interatomi

129 Time-dependent changes in the expression of 146 genes fr

130 Time-dependent changes in the extent of deglutathionylat

131 cluding, IA LPS exposure induces significant time-dependent changes in the fetal liver and EHC.

132 Therefore, in the present study, the time-dependent changes in the genome-wide expression of

133 Time-dependent changes in the inflammatory reaction and

134 On the basis of time-dependent changes in the intensity and shape of the

135 spectroscopy (SERS) has been used to detect time-dependent changes in the intensity of the vibration

136 However, KMeth induced time-dependent changes in the intrinsic membrane propert

137 Thus, in keeping with recent reports of time-dependent changes in the ionic permeability of some

138 Much of this difficulty results from the time-dependent changes in the LC-MS system, which affect

139 This study assessed time-dependent changes in the level of BVR, following pe

140 Time-dependent changes in the localization of L-plastin

141 We also examined time-dependent changes in the location of these cytoskel

142 f accounting for spatial heterogeneities and time-dependent changes in the properties of aerosols and

143 t this brief timescale, neuronal adaptation--time-dependent changes in the size of successive respons

144 The time-dependent changes in the specific activity of cytos

145 a novel computational method to estimate the time-dependent changes in the stopping bounds directly f

146 of the GOS-supplemented mice showed profound time-dependent changes in the taxonomic composition; how

147 We hypothesized that time-dependent changes in the thanatomicrobiome within i

148 Fluorescent Timer proteins, which display time-dependent changes in their emission spectra, are in

149 are causally related and speculate about how time-dependent changes in their interactions may regulat

150 With time-dependent changes in trimer lattices, we can genera

151 ence electron density maps that displays the time-dependent changes in underlying structure as a reac

152 Research Database to provide current data on time-dependent changes in US cardiac transplant practice

153 lysaccharide alone demonstrated significant, time-dependent changes in vital signs, white blood cell

154 1.4, respectively; P = .0008), with similar time-dependent changes observed among individual animals

155 e data show that these effects derive from a time-dependent change of the degree of DA S(1)-state pol

156 tracted from the WAXS analysis, provided the time-dependent change of the size and the number of liqu

157 g from signaling networks impart continuous, time-dependent changes of cell function and phenotype.

158 ells, we mapped the local alignments and the time-dependent changes of cortical actin networks in Cio

159 d an ultrasonography technique for measuring time-dependent changes of diaphragm function in mdx mice

160 BF and facilitating a need to further study time-dependent changes of different BFs individually tow

161 namic nature of connectivity we explored the time-dependent changes of effective connectivity during

162 The time-dependent changes of human memory T cell repertoire

163 Time-dependent changes of IgG-activity (n = 25) against

164 that slice preparation can be used to model time-dependent changes of microglia-neuron interactions

165 A fit of the time-dependent changes of the axial and high-spin signal

166 tatistical models that take into account the time-dependent changes of the clinical attachment loss m

167 Analysis of the time-dependent changes of the complex frequency-dependen

168 Time-dependent changes of the CV2 location in the retina

169 Time-dependent changes of the injected activity per orga

170 hippocampal apoptosis presented significant time-dependent changes (P<0.01) within 2 weeks, and thei

171 also undertaken to confirm that the observed time-dependent changes relate directly to the underlying

172 itiation of receptor phosphorylation exhibit time-dependent changes, suggesting multiple associations

173 in in male Sprague-Dawley rats to assess the time-dependent changes that might potentially precipitat

174 int target p53 is discussed, with a focus on time-dependent changes to a p53-binding deubiquitinating

175 Together, our data reveal time-dependent changes to gene expression in uxs1 mutant

176 set, yet completely overlooked heterogeneous time-dependent changes within sub-sets of genes.