ライフサイエンスコーパス: change

1 ption was positively associated with HOMA-IR change.

2 sponsiveness of arctic ecosystems to climate change.

3 troduced Thr residue explains the functional change.

4 e applied to improve understanding of global change.

5 mately depend upon its capacity for adaptive change.

6 rate a valuable negative feedback on climate change.

7 nd biotic communities will respond to future change.

8 of CO(2) emissions and contribute to climate change.

9 s and uptake will respond to ongoing climate change.

10 of northern peatlands in response to global change.

11 nd 1506.03 respectively for one prescription change.

12 look back, to see how science has and hasn't changed.

13 he conformation of nOVAmax was substantially changed.

14 sirable organoleptic, nutritional and colour changes.

15 depending on the nature of their phenotypic changes.

16 ocyte numbers fell subsequent to the stromal changes.

17 effects, focusing on long-lasting epigenetic changes.

18 ation and can respond to rapid environmental changes.

19 d persistent diet-responsive transcriptional changes.

20 While it is clear that changing a protein binding motif will alter protein bind

21 ent to which long-range looping interactions change across developmental models, genetic perturbation

22 act as the initial detectors of temperature changes across taxa.

23 Changing activity of cardiac Ca(V)1.2 channels under bas

24 d that 82% of real-world examples of climate change adaptation in MPA planning derive from tropical r

25 (SDI) to evaluate people's mobility pattern changes along with the spread of COVID-19 at different g

26 redict how consumers will respond to climate change and other environmental perturbations.

27 and severe biodiversity losses from climate change and provide a framework for predicting both when

28 e of mitigating the worst effects of climate change and providing a means to engineer crops for entir

29 sampling to estimate the role of land cover change and soil erosion on river transport of Hg in a he

30 tive in the context of anthropogenic climate change and that selection now promotes thermal canalizat

31 maging method for the assessment of synaptic changes and apply the method to brain homogenates from a

32 sions that are most closely linked to policy changes and descriptive analyses of the complementary su

33 oximately 25 times greater than DNA sequence changes and typically have short half-lives of two to th

34 V reverse remodeling (LV end-systolic volume change) and sex and the composite outcome of all-cause m

35 y the end of treatment, sCD14 levels did not change, and sCD163, MCP-1, and IL-6 levels changed at a

36 Predator loss and climate change are hallmarks of the Anthropocene yet their inter

37 The required metabolic changes are also no less complex than those observed for

38 These changes are validated by targeted and global experimenta

39 Both behaviours showed significant changes as the temperature increased.

40 oniae cell-cell communication and behavioral changes, as well as attenuate S. pneumoniae infectivity.

41 ter ozone exposure was also used to identify changes associated with neutrophil counts in the airway.

42 protect the entire hematopoietic system from changes associated with premature aging.

43 t change, and sCD163, MCP-1, and IL-6 levels changed at a single time point.

44 examinations did not reveal major structural changes at proximal sciatic nerve branches or distal toe

45 UKGTS treatment arms was enhanced and RNFLT change became a stronger predictor of VF progression.

46 in contents, and woody aroma profile did not change because of the film-treatment.

47 ay be associated with the observed phenotype change but the mechanism remains unknown.

48 pothesized to be vulnerable to environmental changes, but cascading effects of organismal tolerances

49 por also had a profound influence on the LST changes, but it had obvious difference in latitude.

50 red as the availability of food in each nest changed causing sub-colonies to change their inter-nest

51 the stability of species range edges with a changing climate.

52 rther demonstrating the potential effects of changing climates on wildlife species.

53 g the Anthropocene and other eras of rapidly changing climates, rates of change of ecological systems

54 ew studies evaluate interactions among these changing conditions.

55 ments of the eye or optic nerve, and if such changes could be linked to SANS.

56 across trophic levels, with the direction of change depending on the type of network.

57 rogressive visual field and optic nerve head changes despite maximal tolerated medical therapy.

58 hlight that two of the most pervasive global change drivers operate via different pathways when decre

59 e seek to understand how locomotor synergies change during development and training by studying the s

60 liar morphology shows how much these animals changed during growth and has implications for ecology a

61 e rise in recent years, but who is diagnosed changed during the study period.

62 onses of ecologically important organisms to changing environmental conditions and emerging pathogen-

63 esses, pathogens often evolve in response to changing environments and medical interventions, and inf

64 antagonistic fitness effects of mutations in changing environments.

65 contrast, randomly oriented mimetics did not change focal adhesion tension sensation or enrich for p3

66 study aimed to assess the three-dimensional changes following soft tissue augmentation using free gi

67 edition staging criteria resulted in a stage change for >35% of patients diagnosed with invasive brea

68 as well as learning-related representational change for indirectly related memory elements in hippoca

69 evaluating the time course of volumetric MRI changes for a variety of brain regions; and (ii) underst

70 Between-group differences in change from baseline for all other scales were not signi

71 The difference at day 85 in the change from baseline in the CSF SOD1 concentration betwe

72 for education was associated with cognitive change from childhood to age 70 (standardized beta = 0.1

73 eases (tau for SERCA-mediated Ca(2+) removal changed from 6.3 to 3.0 s(-1) ) in HF.

74 We assessed pre/post-INSTI weight changes from AIDS Clinical Trials Group participants (A5

75 Changes from baseline in most lipid parameters also favo

76 brium compounds persist long after treatment changes have been made.

77 ty, it successfully rejected signals from pH changes, histamine, and H(2)O(2).

78 ereby improving projections of future global change impacts.

79 We further determined associations with change in ADHD symptoms.

80 P-tau217 did not change in amyloid-beta-negative participants, or in pati

81 Patients who were untreated showed no change in any FDG PET or cardiac MRI parameter.

82 egree of AI and AS did not seem to influence change in aortic dimensions.

83 In study 1, the change in EGP (baseline to last hour of EGP measurement)

84 14% of the boundary deletions resulted in a change in expression in nearby genes of more than twofol

85 int scale (5-PS), and by calculating percent change in FDG uptake (change in standardized uptake valu

86 ied 102 metabolic reactions with significant change in flux in MG1655:: tetA when grown in the presen

87 There was no change in IGF-1 level from before to after surgery.

88 The change in IOP following washout for patients using 0 (n

89 was associated with greater dysbiosis but no change in liver histology.

90 The first conformational change in our dataset involves rotation of the inner-gat

91 is could not be attributed conclusively to a change in ownership because differential improvement occ

92 n parameters are dynamically adjusted to any change in pH and temperature during the sport practice b

93 period from 1962 to 2015 and no significant change in Pseudoterranova spp. abundance over a 37 year

94 It was shown previously that a change in receptor specificity is a hallmark for adaptat

95 s renal injury in RVD patients, but does not change in response to medical or interventional therapy

96 disposed irregular 5-HT receptor density, or change in sensory bombardment may enhance internal broad

97 nges in amplitude-seemingly giving rise to a change in sensory quality; on others, they were not.

98 by calculating percent change in FDG uptake (change in standardized uptake value [DeltaSUV]).

99 rrelation of force with position' and SC as 'change in sway'.

100 idation is reversible when there is no gross change in the coordination geometry upon a change in the

101 This electrostatic term depends on the change in the electrostatic interaction between the char

102 A significant change in the lipid-packing order takes place during ass

103 e able to predict accurately the temperature change in the North Atlantic.

104 also suggest an accelerating role of climate change in the range expansion of M. soledadinus, with po

105 s change in the coordination geometry upon a change in the redox state.

106 ry or neuropathic hyperexcitability led to a change in the temporal pattern of AP firing, emphasizing

107 Mechanistic studies suggest a change in the turnover-limiting and selectivity-determin

108 nce, and its significance, in rates of RNFLT change in the UKGTS treatment arms was enhanced and RNFL

109 Change in theta, but not alpha power, between meditation

110 The primary efficacy end point, percentage change in total plaque volume at 90 days by intravascula

111 BVOCs and the trends of climate and land-use changes in Amazonia is then constructed.

112 uency were perceptually distinguishable from changes in amplitude-seemingly giving rise to a change i

113 ression patterns of regulatory genes causing changes in anisotropic cell expansion and division patte

114 stance accounted for the majority of dynamic changes in architecture.

115 complex with ARL6(GTP), and we describe the changes in BBSome conformation induced by ARL6(GTP) bind

116 of nervous system function, and fundamental changes in behaviors such as learning, memory, and socia

117 that the CCRA method is able to detect small changes in binding free energy with a sensitivity compar

118 However, previous studies focus on changes in brain activity related to motor execution.

119 ated variables as explanatory and subsequent changes in BW, BF%, and metabolic markers as response va

120 ce were mechanosensitive (as demonstrated by changes in calcium flux under applied luminal flow).

121 Information on molecular changes in cancer-specific gene expression facilitates e

122 ions treated with AZM, likely due to general changes in cell physiology as a result of the increased

123 main output constraint and ignores potential changes in cell volume.

124 lethal phenotypes are strongly modulated by changes in cellular conditions or genetic context, the l

125 ated carbon dynamics are highly sensitive to changes in climate.

126 Changes in coordination between these two essential orga

127 ng was manifest in the bimanual condition as changes in corticomotor excitability, mu (9-14 Hz), and

128 or enabled the detection of oxygen-dependent changes in COX-2 activity that are independent of protei

129 Interventions that led to changes in degree of AI and AS did not seem to influence

130 During adulthood, stress unmasked persistent changes in DHPG-induced LTD and behavior that were not p

131 This study characterizes annual changes in enrollment of Medicare and non-Medicare patie

132 Aberrant changes in epigenetic modifications are closely involved

133 We also aimed to identify changes in expression and subcellular distribution of pr

134 t plants, loss of the ZmNLP5 function led to changes in expression for a significant number of genes

135 Changes in expression of some microRNAs, including miR-1

136 Purified UNC-45B mutants showed changes in folding and solubility.

137 hly electrode dependent: On some electrodes, changes in frequency were perceptually distinguishable f

138 available that has investigated genome-wide changes in gene expression during the normal physiologic

139 . varius and A. zeteki populations, describe changes in genetic diversity over time, assess the relat

140 Achieving step changes in genetic yield potential is crucial to ensure

141 human primates, but there were immunological changes in granulomas and lymph nodes from anti-IL-10-tr

142 ions for global ecology and for anticipating changes in host use during ongoing distributional shifts

143 However, the early and nonadopter changes in implantation rates were not statistically dif

144 rs, are the main contributor to the observed changes in interfacial reactivity upon illumination.

145 ffects of microgravity by measuring combined changes in intracranial volumetric parameters, pituitary

146 This computational study determined changes in IQ [peak IQ, best focus and depth of focus (D

147 n and reduced protein synthesis but no major changes in m(2) (6,6)A levels in 18S rRNA.

148 of hepatitis C virus (HCV) results in rapid changes in metabolic parameters early in direct-acting a

149 e also found that lithium-induced behavioral changes in mice were phenocopied by modulation of the ci

150 nonadherent conditions in vitro and analyzed changes in mRNA and protein levels to identify mechanism

151 Currently, studying mitochondrial changes in multiple sclerosis is hampered by a paucity o

152 myosin suggest that dATP induces structural changes in myosin heads that increase the surface area o

153 oral code in conveying key information about changes in nociceptive output in pathologic conditions,

154 and fetal compartments and causes behavioral changes in offspring.

155 show that ompR expression was not altered by changes in osmolarity but instead was induced by membran

156 r than what would be predicted from parallel changes in overall brain anatomy.

157 was acquired using a 52-channel system, and changes in oxy-haemoglobin in the frontal and temporal r

158 ings shed light on allosteric conformational changes in PCSK9 required for high-affinity binding to L

159 In humans, age-related changes in personality occur in a non-random fashion wit

160 tous polymers in cells, often in response to changes in physiological conditions.

161 itor of plasminogen activation, and measured changes in plasmin (ogen) uria.

162 Ecological communities often show changes in populations and their interactions over time.

163 observed increase in fish production, while changes in predator-prey interactions cannot.

164 bstrate utilization, which is facilitated by changes in protein abundances for substrate uptake and i

165 ved DNA-binding regions can lead to profound changes in protein function.

166 it appears that evolutionary change involved changes in protein-protein interactions to favor Cas2 bi

167 s of endogenous mRNA targets that respond to changes in RBP level, recapitulating effects observed in

168 l-free approach for assessing conformational changes in receptors in living cells at ambient conditio

169 replacement of forbs by grasses resulted in changes in relative abundance across trophic levels, wit

170 petition are therefore likely to have driven changes in relative testes size in opposing directions.

171 Brain changes in response to binge EtOH treatment were more pr

172 This study aimed to evaluate longitudinal changes in retinal blood flow in response to flicker sti

173 ng throughout the Gulf of Maine and apparent changes in right whale migratory dynamics.

174 autism spectrum disorders and neural circuit changes in several brain areas, but the cellular mechani

175 However, the mechanisms underlying changes in soil C storage are not well understood, hampe

176 cts linear models to analyze associations of changes in standardized weight, length/height, and body

177 hibition of HIV-1 maturation by BVM involves changes in structure and dynamics that are surprisingly

178 hibit hemispheric asymmetry, we investigated changes in synaptic plasticity and neuronal excitability

179 Fire-induced changes in the abundance and distribution of organisms,

180 In addition, we suggest how changes in the association of lipid-binding caveolar pro

181 noncontingent model, to investigate whether changes in the cerebrovascular system in the PFC contrib

182 y formation with Gaussian processes to model changes in the community structure as a smooth function

183 ssessing prevalence ratios, differences, and changes in the concentration of pathogen genes and host-

184 ived product made from fresh onion, produces changes in the content of flavonoids, organosulfur compo

185 ement under ambient conditions through local changes in the droplet curvature.

186 f the central stalk, inducing conformational changes in the F(1) motor that catalyzes ATP production.

187 ntrolled swine farm environments on temporal changes in the gut microbiome and resistome of veterinar

188 rction (MI) causes structural and functional changes in the heart leading to heart failure.

189 ooked mechanism for explaining decadal-scale changes in the land carbon sink and highlight the import

190 In contrast, changes in the microbial community were minor and transi

191 s work is to investigate whether appropriate changes in the nature of the spacer could modulate the i

192 Mild-to-moderate changes in the ocular adnexa can develop in children and

193 nsformations of the photoacid generators and changes in the optical properties of the QDs at each pat

194 exposure experiments showed ultrastructural changes in the photophore similar to those seen in crust

195 dely implicated as the source of large-scale changes in the subpolar marine environment.

196 haracterize the impact of age on the overall changes in the systemic inflammation profiles in subpopu

197 that cytotoxic chemotherapies induce dynamic changes in the tumor immune microenvironment that vary b

198 des for all five species, suggesting minimal changes in trophic levels.

199 While tissue homogenate showed no changes in tubulin acetylation between control, depresse

200 Changes in USL microstructure and corresponding mechanic

201 l-studied taxa, such as vertebrates, reflect changes in wider biodiversity.

202 However, we know little about how changes in winter snowfall will affect ecosystem product

203 6a1(-/-) mice also displayed multiple airway changes, including increased branching (59%; P < 0.001),

204 ork structure, leading to dramatic community changes, including loss of species and function.

205 Transcriptomic changes, including NPPB levels, directly correlated with

206 regulated to accommodate these environmental changes, including regulation of mRNAs that require exte

207 These functional and morphologic changes indicate the development of nephrotic syndrome i

208 ve elastography measurements and examine the changes induced by patient-related factors.

209 show that these structural and higher-order changes induced by the beta3-subunit do not alter the de

210 me detection of statistically significant Rt changes, inference is highly sensitive to the function c

211 Environmental change influences fitness-related traits and demographic

212 hitectural, and it appears that evolutionary change involved changes in protein-protein interactions

213 Land-use change is a major driver of biodiversity loss worldwide.

214 Climate change is predicted to result in warmer and drier Neotro

215 e found that the concentrations of TNF-alpha change little from day 3 to day 5-6, but the concentrati

216 BS also changed management compared with (18)F-FDG PET in 1 pati

217 Interaction effects can change materials properties in intriguing ways, and they

218 suggest that root responses to precipitation change may critically influence root productivity and so

219 g how species have responded to past climate change may help refine projections of how species and bi

220 How these structural and functional brain changes may relate to the cognitive and affective defici

221 rTMS to the right PPC did not significantly change measures of contrast sensitivity, but increased t

222 However, changing mental representations is not sufficient by its

223 d trials, treatment of neonatal seizures has changed minimally despite poor drug efficacy.

224 oposed as a means to sequester C for climate change mitigation, yet little is known about how reactiv

225 Changes observed were temporary and did not lead to stru

226 lood, postnatal miR-218 expression parallels changes occurring in the mPFC.

227 ersion measurements report on conformational changes occurring on the mus-ms timescale.

228 f amyloid-bound MHB can be correlated to the change of binding site polarity and that a tyrosine to p

229 eras of rapidly changing climates, rates of change of ecological systems can be described as fast, s

230 MP levels generated by these receptors and a change of subcellular cGMP compartmentation.

231 rther, we find individual differences in the change of TIB devoted to sleep such that students with s

232 ferent times of day resulted in differential changes of core clock gene expression, demonstrating an

233 Due to a memory effect, changes of NH protection during antibody binding are mea

234 The changes of stress ratio were highly consistent with clin

235 phosphate (ATP) hydrolysis to conformational changes of their catalytic core.

236 cial step in assessing the impact of climate change on imperiled turtle species.

237 nfounding factors affecting the detection of change on macular OCT images.

238 es of LIV-BPSS clamshell-like conformational changes on the time scale of seconds, examining the rela

239 Our findings show that small changes outside of highly conserved DNA-binding regions

240 e unreliable rainfall as climatic conditions change over the next century.

241 cenarios where species' ranges are static or change over time.

242 equenced SARS-CoV-2 viruses were diverse and changed over time.

243 t is unclear to what extent metabolic health changes over time and whether such transition affects ri

244 ork examining animal movement in response to changing phenology from migratory birds and ungulates to

245 catterplot smoothing (LOWESS) regression and change-point analyses and Spearman correlation coefficie

246 We quantified FAC as 'change (POST-PRE) in correlation of force with position'

247 eye bank donors to probe how gene expression changes precede disease; and (iii) The affected tissue i

248 shortening, genomic instability, epigenetic changes, protein aggregation, and down-regulation of qua

249 ons with background gas can cause structural changes ranging from unfolding to subunit dissociation.

250 ss observed longitudinal motor and cognitive change rates from the multisite Track-On HD cohort (74 p

251 terior and posterior sensory inputs, and the changing ratios drive different behavior choices.

252 analysis of current research into how these changes reflect neurodegenerative pathology, and recomme

253 o similar SOC stocks under different climate change scenarios.

254 nd soil carbon dynamics under future climate change scenarios.

255 served solitons-waves that propagate without changing shape as a result of nonlinearity-in a photonic

256 unaffected by fertilisers, network structure changed significantly as the replacement of forbs by gra

257 cells exhibited several electrophysiological changes such as action potential (AP) prolongation (~50%

258 ition paths of macromolecular conformational changes such as protein folding are predicted to be hete

259 sociated with improvement of these energetic changes such that there was no significant difference in

260 The results point to CN changes that are more common in high-ploidy tumors and t

261 sights into the underlying protein stability changes that cause dramatic cellular phenotypes observed

262 tion of the current understanding of retinal changes that have been identified using advances in imag

263 payment reforms and 2014 Affordable Care Act changes that influenced reimbursements.

264 However, the changes that occur in the brain as this learning takes p

265 ete understanding the diversity of molecular changes that occur in these tissues may guide the develo

266 In the second method, we observe the changes that occur simultaneously in the positive and ne

267 pulses produce irreversible junction length changes that saturate with prolonged pulse durations.

268 e environment, which may in turn feedback to change the incentive structure of strategic interactions

269 d that sequence variations in H2 that do not change the level of disorder show similar binding behavi

270 ovalently modify both NBT and TNBT, but only change the reduction potential of NBT after modification

271 e-genome sequencing (WGS), have dramatically changed the landscape.

272 ith a region upstream of the DDIT4L gene and changing the chromatin accessibility of a DDIT4L enhance

273 GO self-assembly can be controlled by changing the degree of oxidation, varying from fully agg

274 ., gene and immune therapies) are profoundly changing the oncology landscape, bringing with them new

275 Since ion transfer is diffusion-limited, by changing the voltage excitation frequency during AC volt

276 in each nest changed causing sub-colonies to change their inter-nest connections.

277 MGE-derived cortical interneurons (CINs) and changes their physiological properties.

278 tion is maintained throughout times of rapid change to adapt while supporting essential structures of

279 s of winter survival and reproductive-status change to declining environmental quality result in a hi

280 a proteome-wide, computational assessment of changes to atomic-level physicochemical properties and o

281 oing rapid declines, driven in large part by changes to land use and climate.

282 le source compositions of the two lava units change towards less radiogenic Nd, Hf, and Pb isotope ra

283 ring in a dose-dependent manner, but did not change TSH levels, weight, histology, or expression of m

284 In order to decipher transcriptome changes under DI, RNA-seq was performed in C-76 and Val-

285 s undergoing relatively small conformational changes upon target binding.

286 imes at pH 5.0 and directly image structural changes using single-particle cryo-electron microscopy.

287 Body weight change was described by using linear mixed models, inclu

288 Behavioural change was measured through caregiver interview.

289 study was to examine if early health status changes were associated with long-term clinical outcomes

290 queous samples; tumor-associated chromosomal changes were found in 0/20 blood vs. 11/20 aqueous sampl

291 h confining pressures (30 MPa), permeability changes were more sensitive to the measuring direction w

292 est at 6 h post-injury, while no substantial changes were observed in UCH-L1, Iba-1 or IL-6 over 6 h.

293 ation involves a unique series of structural changes which terminate with an opening of the complex i

294 understood how microstructure and mechanics change with onset and progression of POP.

295 verse directions to correlate conformational changes with chemical reaction steps.

296 All assessments showed changes with gluten challenge.

297 RAS knockdown resulted in unique methylation changes with limited overlap between each cell line.

298 ing of human health, understanding metabolic changes within bacteria in environments where growth sub

299 y, many striatal neurons exhibit such graded changes without bursting near specific actions.

300 However, it is unclear whether these changes would be accompanied by histological improvement