ライフサイエンスコーパス: buffering

1 ns in coastal ecosystems with low alkalinity buffering.

2 lding breastfeeding, extra doses, or vaccine buffering.

3 x to/efflux from each compartment and Ca(2+) buffering.

4 (2+)]i transients and prevented by [Ca(2+)]i buffering.

5 extracellular Ca(2+) or intracellular Ca(2+) buffering.

6 s on mNCE activity and mitochondrial calcium buffering.

7 ed currents with modest intracellular Ca(2+) buffering.

8 ith temporally precise intracellular calcium buffering.

9 ced an unobserved stressor, providing social buffering.

10 oked currents with high intracellular Ca(2+) buffering.

11 MODIS images, to demonstrate hydrogeological buffering.

12 uch as Hsp70 and Hsp90 do not correlate with buffering.

13 er WAT compartment, and had improved glucose buffering.

14 d there is limited evidence of translational buffering.

15 t communities is locally modulated by canopy buffering.

16 n be mitigated, a phenomenon known as social buffering.

17 esponses, a phenomenon referred to as social buffering.

18 ical conditions of weak intracellular Ca(2+) buffering.

19 ical conditions of weak intracellular Ca(2+) buffering.

20 mice, which coincided with decreased oxidant buffering.

21 a mechanism for intracellular concentration buffering(2,7,8,10).

22 ins most of its refreezing capacity for now, buffering 22% of the increased meltwater production.

23 This modification did not affect the PEI buffering abilities but enhanced its pH-sensitive aggreg

24 CHA and maximizes its thermo- and structure- buffering abilities.

25 antify intra- and interspecific variation in buffering ability, and species' relative reliance on the

26 found significant interspecific variation in buffering ability, which varied between families and inc

27 The self-buffering acidity of the Zr-center prevents Zr(25) from

28 This novel buffering activity of SLiMs was observed in different ti

29 Individuals within lion prides seemed to be buffering against changes in prey availability by modula

30 ' improve phenotypic resilience to stress by buffering against decreases in transcription factor conc

31 ationary rewards, the role of exploration in buffering against disturbance may be greater than previo

32 cg) 1 serves a seminal physiological role in buffering against hypoglycemia, but its poor biophysical

33 nditions within each year-class, and reduced buffering against negative environmental influences.

34 Cerebral autoregulation is most effective in buffering against pressure fluctuations slower than 0.03

35 cerebral autoregulation is most effective in buffering against pressure fluctuations slower than 0.03

36 ghlights the neuroprotective role of glial K buffering against seizures and spreading depression, and

37 ting carbon sequestration and storage and by buffering against uncertainty in management, environment

38 We find that an individual buffering agent can adopt different buffer pH values in

39 ferences in temperature, pH, ionic strength, buffering agent, or other additives can alter chemical e

40 ptation potential and ecological benefits by buffering alley crops to weather extremes, diversifying

41 Demographic buffering allows populations to persist by compensating

42 because of high energy needs and calcium ion buffering along axons to synapses during neurotransmissi

43 We investigated functional buffering among approximately 400 candidate paralog pair

44 ely, land-use change might overwhelm natural buffering and amplify latent climate signals, rendering

45 nfluence synaptic plasticity through calcium buffering and are crucial for providing the energy requi

46 , with differential effects on matrix Ca(2+) buffering and DeltaPsim recovery.

47 ion but also provides a mechanism for energy buffering and may represent a mechanism for cellular rob

48 ion is mutualistic or commensal, there is no buffering and only monotonic toxic responses are possibl

49 able bionic systems with visual data storage/buffering and processing.

50 Exogenous VP mimicked the effects of social buffering and reduced STP in CRH(PVN) neurons from femal

51 or carbon storage and sequestration [8], for buffering and regulating local climates [9], and for sup

52 Efficient buffering and removal of excess H(+) is essential for br

53 der silk with applications in kinetic energy buffering and shock-absorbing.

54 echanisms by modulating mitochondrial Ca(2+) buffering and spare respiratory capacity.

55 dentifying both expected and uncharacterized buffering and synthetic lethal interactions.

56 ns in the kinetics of perisynaptic glutamate buffering and uptake contributing to dysfunction of thal

57 through ATP-dependent processes, static RNA buffering, and dynamic post-translational mechanisms.

58 consistent with an intrinsic role in stress buffering, and highlight a remarkable mechanism by which

59 EPSP/AP pairing or high intracellular Ca(2+) buffering, and its sign was inverted by GABA-A receptor

60 imary forests in their potential for thermal buffering, and subsequent ability to retain temperature-

61 actile muscles as a results of their role as buffering, anti-oxidative, and anti-glycation capacities

62 excess buffer approximation (EBA), the rapid buffering approximation (RBA), and the linear approximat

63 te Ciona intestinalis to show that levels of buffering are maternally inherited.

64 avioral and neuroendocrine impacts of social buffering are well studied in multiple species, includin

65 ling and the well-known role of glia in K(+) buffering as a key mechanism for regulating neuronal exc

66 riments show that sliding can be achieved by buffering as few as 3 bp between entry and exit sides of

67 We now show that buffering astrocyte Ca(2+) inhibits neuronally evoked ca

68 It was suppressed by intracellular Ca(2+) buffering at a fixed physiological level, inhibitors of

69 steady-state glutamate uptake and glutamate buffering at the synapse.

70 went conventional TACE with extracellular pH-buffering bicarbonate, and five served as untreated cont

71 boratory trials, we demonstrate that thermal buffering by centimetre-thick mussel and seaweed beds el

72 e previously analyzed mechanism of substrate-buffering by myristoylated alanine-rich C kinase substra

73 y active positive feedback in the absence of buffering by the negative feedback.

74 Ns, enhanced mGluR1 function is prevented by buffering [Ca(2+)] at normal resting levels while in wil

75 At both frequencies, buffering calcium prevents LTD induction and LTP results

76 ribe a novel mechanism by which increased Ca buffering can account for changes to systolic Ca(2+) in

77 Furthermore, we predict that supramolecular buffering can be significantly improved using a tetraval

78 ct where even-valent molecules show superior buffering capabilities.

79 at the site, and the depletion of Al mineral buffering capacity after approximately 5 years.

80 ondria exhibit reduced mitochondrial calcium buffering capacity and are highly sensitive to mitochond

81 n significantly reduced saliva flow rate and buffering capacity and increased mucus acidity.

82 ructure with the potential to extend stretch-buffering capacity and support a revised model for the f

83 f RVH rats, and (2) that a blunted ER Ca(2+) buffering capacity contributes to the altered NMDAR-Delt

84 that improves exercise performance and blood buffering capacity during strenuous exercise.

85 show that external seawater temperature and buffering capacity exert the first-order control on the

86 tween intermittent contractions and inherent buffering capacity had minimal impact on predicted fatig

87 ed, and there was no evidence for reduced pH-buffering capacity in the skeletal muscle.

88 Mitochondria also buffer Ca(2+), and their buffering capacity is dependent on DeltaPsi Here, we cha

89 These findings highlight the buffering capacity of developmental systems, allowing ma

90 thway, whose inhibition can enhance the K(+) buffering capacity of glia, which may be useful in disea

91 eir virulence varied depending on the pH and buffering capacity of host tissue.

92 -producing S. gordonii is dominant while the buffering capacity of saliva is valid ( approximately pH

93 vironment can vary depending on the diet and buffering capacity of saliva, materials testing in const

94 ification in the surface ocean decreases the buffering capacity of seawater for CO2, whilst photosynt

95 Here we show that the calcium buffering capacity of the cell nucleus in mouse hippocam

96 obal temperature change based on the thermal buffering capacity of the germination phenotype.

97 The mechanical stability and buffering capacity of this hydrogel can be adjusted by w

98 to adjust the SCV tolerance of proteostasis buffering capacity to provide an approach to mitigate sy

99 Reducing HSP90's buffering capacity with inhibitors or febrile temperatur

100 with a significant decrease in saliva pH and buffering capacity, accompanied by an increase in saliva

101 ter absorption, nutrient inflow, and luminal buffering capacity, and generates testable predictions o

102 The authors report marked variation in buffering capacity, correlated with wing size, wing colo

103 tly, the evolved strain has no translational buffering capacity, enabling effective translation of ab

104 mps, counter-ion fluxes, membrane potential, buffering capacity, etc.) work together to achieve speci

105 activation, loss of glutamate and potassium buffering capacity, loss of astrocyte coupling, and chan

106 lated to an intermediate polarization, their buffering capacity, or the result of a mixed population

107 Together they lead to a poor acid buffering capacity, severe acidification and increased c

108 due to blunted endoplasmic reticulum Ca(2+) buffering capacity.

109 of calcium, increasing the lysosomal Ca(2+) buffering capacity.

110 n juxtanuclear ones despite their comparable buffering capacity.

111 Thus, we can realize a buffering-capacity independent monitoring of changes in

112 tensively in many species, and a function in buffering carbon availability or in fueling later growth

113 further suggest a novel role for this Obp in buffering changes in the odor environment, perhaps provi

114 that the rate of electron flux through redox buffering circuits is directly linked to changes in oxyg

115 ced JH(2)O(2) production to NNT-linked redox buffering circuits provides a potential means of integra

116 duced to H(2)O by electrons drawn from redox buffering circuits supplied by NADPH, and that the rate

117 armacological or genetic inhibition of redox buffering circuits.

118 , however, sequester >50% of their N inputs, buffering coastal waters against eutrophication and soci

119 ree buffer concentration for a wide range of buffering conditions.

120 roximation (LIN), each valid for appropriate buffering conditions.

121 stressed mice, and the appearance of stress buffering correlates with more time engaged in allogroom

122 Buffering could be applied broadly as a simple means to

123 s for non-local resource access and resource buffering, crucial in the human foraging niche, will inc

124 ight a novel mechanism by which increased Ca buffering decreases systolic Ca(2+) in old atria.

125 The effectiveness of microhabitat buffering decreases with a 2-3 degrees C increase, and i

126 ROS buffering did not significantly alter local Ca(2+) relea

127 h biocompatible diffusing polymers to act as buffering diffusion barriers, thereby allowing them to b

128 ce meltwater and inhibit runoff(4), but this buffering effect is limited if enough water refreezes ne

129 Our results suggest that the buffering effect of a geographically wide distribution o

130 The buffering effect of hematite was further supported by a

131 esponses in numerous species, but the stress-buffering effect of status may dissipate or even reverse

132 rvations of plague resistance and reveal the buffering effect of such evolution against environmental

133 f naive partners strongly affects the social buffering effect on synaptic consequences of stress.

134 issions, and the semivolatile NH(3)-NH(4)(+) buffering effect.

135 r data show how chemical stresses can reduce buffering effects in the ubiquitin proteasome system.

136 tance of microbial community composition for buffering effects of global change in drylands worldwide

137 tbred adults, suggesting that the beneficial buffering effects of maternal care can persist long afte

138 l therapeutic target to enhance the positive buffering effects of social experiences or to inhibit fe

139 We propose that DNA buffering ensures nucleosome stability during ATP-depend

140 s chosen as ligand and loaded onto MNPs in a buffering environment without adding any intermediates.

141 An increase in intracellular Ca buffering explains both the decrease in Ca(2+) transient

142 l-level variation; b) provides advantages in buffering food risk, and is positively associated with b

143 Both clonal integration and environmental buffering from nonvascular epiphytes increased survival

144 This buffering function in the event of a global food emergen

145 This buffering function is most visible after fasting, when l

146 r and soft cytoplasm suggesting a mechanical buffering function to deal with the frequent luminal dis

147 arch and policy interventions geared towards buffering future crop production from climate variabilit

148 astrocyte Ca(2+) and Na(+) signalling, K(+) buffering, gap junction coupling and metabolism.

149 t libraries to identify synthetic lethal and buffering gene pairs across multiple cell types, includi

150 Depriving NHEs of intracellular protons by buffering HC cytosol with a pH 9.2 pipette solution elim

151 Oxytocin (OT) is considered to be a stress-buffering hormone, dampening the physiologic effects of

152 ote CO2 removal from the atmosphere, thereby buffering human effects on global radiative forcing.

153 plicate VP as a potential mediator of social buffering in female mice.SIGNIFICANCE STATEMENT In many

154 n transport on mitochondrial Ca(2+) flux and buffering in Pi-depleted guinea pig cardiac mitochondria

155 esults demonstrate conclusively that calcium buffering in the mitochondrial matrix in live cells occu

156 omplex interplay of Ca(2+) fluxes and Ca(2+) buffering in the presynaptic terminal that is not fully

157 cid involved in adenosine triphosphate (ATP) buffering, in oligodendrocyte function.

158 g activity had very little effect on thermal buffering, in terms of macroclimate and microclimate tem

159 2+) signals also were reduced by selectively buffering inositol 1,4,5-trisphosphate (InsP(3)) within

160 art, enhancing physiological performance and buffering internal organ function while foraging in the

161 Mitochondria play central roles in buffering intracellular Ca(2)(+) transients.

162 Buffering intracellular calcium with EGTA-AM or BAPTA-AM

163 es and MVR events are similarly tightened by buffering intracellular calcium.

164 rocyte [Ca(2+)]i, [Mg(2+)]i and [H(+)]i, and buffering intracellular pH reduces the [Ca(2+)]i and [Mg

165 gulator of SLC4A4 and CFTR, encoding the key buffering ion transporters, in modulating enamel mineral

166 tion, pointing to a role for this protein in buffering iron availability and facilitating iron-sparin

167 Molecular buffering is achieved as a result of competition in a ri

168 This conditional buffering is confined to the scaffold module, but contro

169 we still do not understand how the level of buffering is controlled in natural populations.

170 As such, social buffering is one mechanism by which strong social suppor

171 t the cellular mechanisms that contribute to buffering is poor.

172 A striking example of such "intra-organelle" buffering is the alleviation of a chemical defect in com

173 ntransitivity increased with aridity, partly buffering its negative effects on diversity, but was dec

174 This buffering may be because of discrete behavioral interact

175 ncluded that the consequences of this strong buffering may be more significant than currently appreci

176 stress, social support can serve as a potent buffering mechanism that enhances resilience.

177 ng damage on functional status, suggesting a buffering mechanism.

178 n of how this may also serve as a biological buffering mechanism.

179 Stress-buffering mechanisms are well placed to alternate betwee

180 of gene expression requires the existence of buffering mechanisms that tightly regulate the magnitude

181 s through proliferation, but need to rely on buffering mechanisms to prevent tissue disintegration.

182 rences in the relative importance of the two buffering mechanisms, with species relying on microclima

183 ize differences had undermined developmental buffering mechanisms.

184 investigated the relative importance of two buffering mechanisms: behavioural thermoregulation versu

185 ical conditions of weak intracellular Ca(2+) buffering, mitochondrial Ca(2+) uptake regulates CRAC ch

186 ort hairpin RNAs (shRNAs) identified the ATP-buffering, mitochondrial creatine kinase CKMT1 as necess

187 that support tissue homeostasis through ion buffering, neurotransmitter recycling, and regulation of

188 The electron-buffering nitrosyl's role is subtler as a bifunctional e

189 NA)-Nkx2.1 gene duplex that is essential for buffering Nkx2.1 expression, lung epithelial cell identi

190 e and inheritance of specific molecules, and buffering noise and responding to stress.

191 the important role astrocytic EAAT2 plays on buffering nTS excitation and overall cardiorespiratory f

192 ity of seawater thereby resulting in reduced buffering, nutrients enhancing productivity and pH, as w

193 on regime in which supramolecular ring-chain buffering occurs as well as the maximum concentration of

194 in nearly half of naive partners and stress buffering occurs in approximately half of male stressed

195 Social buffering occurs when the presence of a companion attenu

196 ers) by accelerating CO(2) / HCO3- -mediated buffering of acid-base equivalents, they could not appre

197 t on ATP binding and transient absorption or buffering of at least one base pair.

198 We anticipate that buffering of attractant concentration is a general mecha

199 ogical resilience was associated with marked buffering of CTRA activation such that PTSD-affected for

200 C channels under physiological conditions by buffering of cytosolic Ca(2+) via the MCU channel.

201 mitochondria play a major role in the rapid buffering of cytosolic calcium, we hypothesized that alt

202 of all species potentially resulted from the buffering of direct competitive effects of the species p

203 e within the IL-PFC may contribute to social buffering of fear.

204 The amplification and buffering of fire-climate relationships by humans unders

205 Mfn2 increased buffering of intracellular Ca(2+), an effect mediated th

206 Thus, we found evidence for demographic buffering of life histories, but also evidence of mechan

207 p expression in l-LNvs may contribute to the buffering of light-driven arousal in wild-type flies.

208 This social buffering of metaplasticity, which requires the presence

209 The buffering of phosphorus concentrations in soil solution

210 these enzymes raises questions about genetic buffering of SCFs in human cells and challenges the dogm

211 (or a combination of them) provide efficient buffering of size variations.

212 These effects of VP do not extend to social buffering of stress behaviors, suggesting this is a very

213 are already unraveling the transmission and buffering of stress responses between individuals, but l

214 n, as well as extensive post-transcriptional buffering of stress-response genes.

215 nges associated with social transmission and buffering of stress.

216 ynaptic changes with social transmission and buffering of stress.

217 the neuropeptide vasopressin (VP) in social buffering of synaptic metaplasticity in stress-responsiv

218 Local buffering of the centrosomal Ca(2+) signals, by flash ph

219 of Cxcl12 for Cxcr4, which is maintained by buffering of the chemokine levels.

220 requires local translation of mTor mRNA and buffering of the elevated axonal Ca(2+) that occurs afte

221 y reveals that spermine metabolism via redox buffering of the ER underpins appressorial adhesion and

222 reported an organocatalytic system in which buffering of the molecular catalyst by supramolecular in

223 rane provides both stochastic and functional buffering of transcript activity in the cytoplasm, and h

224 everal cell functions with evidence of miRNA buffering of upregulated interferon-related genes.

225 t water storage compartments involved in the buffering of xylem tensions empty before the onset of ve

226 By buffering offspring against environmental perturbation w

227 It reviews the effects of buffering on the systolic Ca(2+) transient and how this

228 this forest but also plays a central role in buffering or exacerbating impacts of climate fluctuation

229 Buffering or pharmacologic manipulation of AC reduced or

230 dorsal root ganglion axons exhibit a tension buffering or strain-softening response, where its steady

231 ner effects occur only during stress (social buffering) or generally throughout daily life (main effe

232 an be partially rescued by improving calcium buffering, or decreasing action potential-evoked calcium

233 g throughout the species' latitudinal range, buffering overall performance across a range of temperat

234 To test this hypothesis, we employed social buffering paradigms in male and female mice.

235 g compensatory increases in alterative redox-buffering pathways.

236 f available calcite plays a critical role in buffering pH; (3) high salinity in general hinders As re

237 In addition to buffering plants from water stress during severe drought

238 Thermal buffering potential is broadly determined by: (i) the di

239 lin is a highly conserved, ubiquitous Ca(2+)-buffering protein in the endoplasmic reticulum that cont

240 ion, treatment with the mitochondrial Ca(2+)-buffering protein parvalbumin significantly suppressed R

241 ing a generic reversible bimolecular monomer buffering reaction to a crystallization process leads to

242 o affect both the Ca(2+) uptake rate and the buffering reaction, but the role of anion transport in d

243 The relevant redox buffering reactions, however, remain poorly constrained.

244 e assembly location, providing a wide Ca(2+) buffering regime while maintaining membrane stabilizatio

245 These results suggest a possible Ca(2+) buffering role for lysosomes and shed new light on lysos

246 Our study unravels an unsuspected buffering role of GPR88 expression on GPCR signaling, wi

247 ning of caveolae (known for their mechanical buffering role) associated with integrin diffusion and t

248 icity by sustaining oxidative bioenergetics, buffering ROS production, and supporting cell proliferat

249 viously underappreciated, protective role in buffering senescence stresses due to short, dysfunctiona

250 plemented-also offer water filtration, flood buffering, soil health, biodiversity habitat, and enhanc

251 accelerated Li-ion transport, and sufficient buffering space for volume change during electrochemical

252 exist in continental Antarctica beyond 2099, buffering species-wide declines.

253 through undifferentiated cells by providing buffering storage for excess calcium before final excret

254 ata are informative in developing new Ca(2+) buffering strategies for the failing heart.

255 to afford benzyl ethers, enabled by a redox-buffering strategy that maintains the activity of the co

256 [Ca(2+) ]i transient, increased fast Ca(2+) buffering strength, shortened action potentials and redu

257 tion with important implications for calcium buffering, synaptic plasticity, and protein-membrane ass

258 most significantly by the cytosolic calcium buffering system and changes in diastolic Ca(2+) .

259 inding TFs or proteins in plant cells form a buffering system such that the concentration of an activ

260 e glutathione pathway, an efficient cellular buffering system that counteracts reactive oxygen specie

261 a, we present evidence for a transcriptional buffering system that increases the expression of matern

262 support a model in which LDs provide a lipid buffering system that sequesters FAs released during the

263 mRNPs and establishes a post-transcriptional buffering system to facilitate SSC homeostasis in the fl

264 e Ca(2+) transport, the intracellular Ca(2+) buffering systems expressed in ameloblasts and provides

265 emediation by providing microbially mediated buffering systems for the associated microbial and/or ch

266 a complex network of metal transporters and buffering systems that respond to changes in nutritional

267 properties provides a general model of force buffering that serves to preserve the shape of tissues u

268 fat storage in excess of levels optimal for buffering - that is, obesity.

269 o concepts, dynamical arrest and heterotypic buffering, that are key to understanding how pathologica

270 Sirt3 (sirtuin 3)-enzymes that oppose Kac by buffering the acetyl group pool and catalyzing lysine de

271 with the silicate melt, both responsible for buffering the chlorine (Cl) concentration.

272 ical timescales, stabilising the systems and buffering the communities against demographic perturbati

273 over were also highly protected, potentially buffering the effects of global change.

274 atically search for well individuals who are buffering the effects of rare, highly penetrant, deleter

275 racts with SES, potentially exacerbating and buffering the effects of stress, to predict anthropometr

276 nts as critical force-transmission networks, buffering the forces observed by myosin filaments during

277 cilitates calcium phosphate precipitation by buffering the formed H(+) at the anode, releases Ca(2+),

278 tion and adaptation, acting as CO2 sinks and buffering the impacts of rising sea level.

279 LA), neuropeptide Y (NPY) is associated with buffering the neural stress response induced by corticot

280 ssolution in soil and around the root by (1) buffering the pH close to neutral and (2) extracting the

281 ly controlled monoiodination was achieved by buffering the reaction medium with K(3)PO(4).

282 an regularly flush reefs with cooler waters, buffering the thermal stress from rising sea-surface tem

283 e in opposite directions across populations, buffering the variation in population growth rates, and

284 along specific crystallographic directions, buffering the volume expansion of the material.

285 suggesting that they may function in turgor buffering, the amelioration of osmotic stress, wounding-

286 nhancers that have opposite effects, thereby buffering their impact on enhancer activity.

287 cells that grow more than their neighbours, buffering their influence on organ size and shape.

288 might possess inducible pesticide tolerance, buffering them from agrochemical exposure.

289 Buffering therefore distinguishes asynchronous vesicles

290 ipper Ochlodes sylvanus-achieving impressive buffering through wing positioning.

291 he essential roles of spindle orientation in buffering tissue homeostasis in response to perturbation

292 s along the unfolding pathway, which provide buffering to allow extension of FAK in focal adhesions w

293 is set of mRNAs undergo strong translational buffering to maintain stable protein expression levels i

294 ancers drive consistent expression levels by buffering upstream noise through a separation of transcr

295 Buffering upward arrow[Ca(2+)]i in endothelial cells doe

296 en engineering approach to improve molecular buffering using multivalent ring-chain systems.

297 Buffering variability in morphogen distribution is essen

298 However, strong postsynaptic Ca(2+) buffering with BAPTA abolished the potentiation and sele

299 Increasing intraterminal calcium buffering with EGTA-AM or decreasing calcium influx with

300 lost across the Eukarya, pointing to genetic buffering within the essential NMD pathway.