ライフサイエンスコーパス: heat

1 preventing the damaging effects of excessive heat.

2 nsumption associated with managing the waste heat.

3 kably, is also robustly activated by noxious heat.

4 revealing chloroplast processes affected by heat.

5 f-the-art thermal storage due to high latent heat.

6 to reduce heat loss rather than to generate heat.

7 at room temperature but convert to gels upon heating.

8 bited the highest viscoelastic modulus after heating.

9 ectric fields treatment combined or not with heating.

10 he increase in cardiac output during passive heating.

11 tumor mass when compared to other methods of heating.

12 ionally twofold when the stored samples were heated (40 degrees C).

13 terest due to its applications in industrial heating, air conditioning, and electricity generation.

14 This amount of heating alone did not cause cell death.

15 The ExsY array is stable to heat and chemical denaturants, forming a robust layer th

16 of enzymes and micro-organisms subjected to heat and chemical treatment.

17 f materials allows us to control the flow of heat and derive novel functionalities such as thermal re

18 face structures interactions with microscale heat and mass transfer events involved in the microchann

19 re, using a novel measurement technique, the heat and mass transfer process is analyzed within surfac

20 t is applied through the resonator to induce heat and modulate its stiffness, and hence its resonance

21 lastin monomer, tropoelastin, in response to heat and salt is a critical step in the assembly of elas

22 is accompanied by excellent stability under heat and simulated sunlight.

23 We projected excess mortality for cold and heat and their net change in 1990-2099 under each scenar

24 ticipants completed questionnaires on indoor heating and cooking practices for both their enrollment

25 risk of breast cancer in relation to indoor heating and cooking practices.

26 Tmix) and reappear below Tmix, over multiple heating and cooling cycles.

27 Upon rapid heating and cooling, the beta <--> alpha' phase transfor

28 k-chemistry under non-conventional microwave heating and evaluated as noteworthy growth inhibitors of

29 , anti-inflammatory therapy, meibomian gland heating and expression, and scleral contact lenses are s

30 ity upon combined pulsed electric fields and heating and heating only was observed; (ii) in chromopla

31 sed upon combined pulsed electric fields and heating and pulsed electric fields only.

32 Heating and subsequent controlled cooling of individual

33 of crystalline microstructures, generated by heating and subsequently rapidly quenching samples in a

34 type of heat treatment, dry, wet, conductive heating and using microwaves.

35 In conclusion, storage and heating appear to influence protein glycation levels in

36 at transform their morphology in response to heat are developed.

37 pulse opto-fMRI minimizes adaptation, avoids heating artefacts and enables confined recruitment of th

38 erial's properties), which can harvest waste heat at 400 K with efficiencies about 7% to 8%.

39 e solution, underwent phase separation after heating at 55 degrees C for 10 min owing to sedimentatio

40 persions were stable at pH 2.0-7.0 and after heating at 95 degrees C for 1min.

41 ures, so we used Niche Mapper, a mechanistic heat-balance model, to convert macroclimate data to pika

42 th the exception of sensitivity to prolonged heat but not other proteotoxic stress.

43 crystals were grown in 3D through localized heating by femtosecond laser irradiation deep inside 35L

44 t the solid rather than freezing the liquid; heating can shrink the liquid.

45 litated by the combination of low electronic heat capacity and large plasmonic field concentration in

46 Strikingly, water's large heat capacity is sufficient to control power output by s

47 mol% cholesterol is a linear function of the heat capacity measured by differential scanning calorime

48 Heat capacity of TlInTe2 exhibits a broad peak at low-te

49 The low-temperature behaviour of the heat capacity, including a high value of gamma, along wi

50 (45, 60 and 80V at 60Hz) and by conventional heating (CH) with the same temperature profile (65 degre

51 t of cool temperatures but more sensitive to heat compared to long grain cultivars.

52 Our results demonstrated that MW thermal heating completely abolished honey antibacterial activit

53 ise insights into how often people encounter heat conditions and when, where, to whom, and why these

54 honon-dominated to coherent-phonon-dominated heat conduction in SLs when the number of interface incr

55 and provide reference data for understanding heat conduction in the Earth's deep interior.

56 le to inter-atomic spacing the transition to heat conduction should take place.

57 A simple heat/cool cycle can be used to significantly affect the

58 evidence for the monopole-like fields around heated/cooled colloidal particles is crucial because the

59 d bi-stable states and tunable resistance in heating-cooling cycles.

60 spectrophotometric data for determining the heat denaturation degree of bovine serum albumin (BSA) w

61 d, using an infrared laser, for reproducible heat-dependent gene expression in small sublineages (one

62 quently rapidly quenching samples in a laser-heated diamond anvil cell.

63 ural decay product of the plasmon-electronic heat-directly into a voltage through the thermoelectric

64 Iodixanol 270 was associated with less heat discomfort, but did not affect heart rate different

65 tics, which we demonstrate through the rapid heat dissipation of an elastomer-mounted extreme high-po

66 oteins have been indicated as site(s) of the heat-dissipative reactions.

67 The recovery time and the heat duration time during MNFH were systematically contr

68 We develop numerical simulations of Joule heating-enhanced diffusion during electrophoresis and ob

69 nsically affected by the generation of Joule heating, entailing a drop in viscosity and possible alte

70 ed and individual pulsed electric fields and heating, except in the following cases: (i) in tissue, a

71 In the Labrador Sea, intense winter air-sea heat exchange drives the formation of deep waters and th

72 se materials offer possibilities for passive heat exchange in stretchable electronics and bioinspired

73 s, support the existence of a countercurrent heat exchanger in the head of R. prolixus, which decreas

74 Personal heat exposure can be measured directly with wearable mon

75 The increase of temperature and heat exposure period decreased the protein bioaccessibil

76 regarding the operationalization of personal heat exposure research methods.

77 Personal heat exposure research provides more valid and precise i

78 hol, water immersion, ultraviolet light, and heat exposure.

79 tors including extreme physical exertion and heat exposure.

80 tion might have played a role in driving the heat extreme.

81 corals growing in habitats with natural high heat extremes.

82 uire a thorough understanding of (nanoscale) heat flow.

83 ntly, a 2X increase in the boiling critical heat flux (CHF) was observed.

84 verlying air (Tw-Ta) as a proxy for sensible heat flux (QH).

85 ations measured by spectrophotometry and the heat flux dissipated by oxidation reactions and measured

86 ental device based on the measurement of the heat flux dissipated during chemical reactions, previous

87 r if it was associated with erroneous latent heat flux estimates.

88 ility of the cutaneous sensor using the zero-heat-flux method compared with esophageal or iliac arter

89 noninvasive cutaneous temperature using zero-heat-flux method to esophageal temperature and arterial

90 SSTs are more (less) sensitive to surface heat fluxes in regions with shallow (deep) mixed layer.

91 and climate directly by regulating water and heat fluxes.

92 The attractive advantages of Joule-heat-free transmission of information, utilization of th

93 e the generation, consumption and release of heat from landfills, to predict landfill temperatures, a

94 ive importance of factors that contribute to heat generation and accumulation.

95 , an integrated Peltier element and external heating hood enable the characterization of photopolymer

96 These instead possess proteins containing HEAT (Huntingtin/EF3/PP2A/Tor1) repeat domains whose ori

97 hese bugs sequester and dissipate the excess heat in their heads while maintaining an abdominal tempe

98 d purity: conventional reflux, sealed vessel heated in an oil bath, and microwave assisted reaction.

99 r arginine/glucose or (13)[C-6]-glucose were heated in aqueous solutions at110 degrees C for 3h and t

100 Here we use in situ heating in a scanning transmission electron microscope t

101 ubsurface layers, which induces differential heating in the upper ocean that affects vertical mixing

102 Heat inactivation of HIV-1 blocks nuclear localization o

103 ll and protecting fish oil encapsulates from heat induced disruption and oxidative deterioration duri

104 of heat, poverty, and aggression finds that heat-induced aggression is mediated by poverty and that

105 structure and the rheological properties of heat-induced gels obtained thereafter were studied at di

106 The compound did not affect heat-induced oligomerization, nuclear localization and s

107 tBAG7 plays a central regulatory role in the heat-induced UPR pathway.

108 r imaging sequence was selected for its high heat-inducing gradients.

109 oplets enter the mass spectrometer through a heated inlet, rapid vaporization leads to the formation

110 This conventional picture of optical heating is supplemented by radiative cooling, which typi

111 can form at the upper boundary of the urban heat island circulation.

112 Protection via heat-killed DK128 was correlated with an increase in alv

113 Direct comparisons of erosion during pulsed heat loading between PFC candidate materials will ensure

114 g that the physiologic response is to reduce heat loss rather than to generate heat.

115 The scoring matrix is represented as a heat map reflecting the potential interface regions in b

116 Shear heating may occur within the fault but is not required t

117 he current first line drug gemcitabine after heat mediated controlled release.

118 and glycoxidation protein targets in diverse heated milks.

119 Changes in the pasting profiles of heat-moisture treated starches were more obvious when gl

120 concentration of plasticizers applied during heat-moisture treatment (HMT) on the properties of canna

121 The current knowledge about heat nociception is mainly confined to the thermosensors

122 the mouse DRG neurons selectively abolished heat nociception.

123 y important for oceanic uptake of carbon and heat, nutrient resupply for sustaining oceanic biologica

124 We use analogs and the extreme South Asian heat of 2015 as a focusing event to help interpret the i

125 Comparing the differential heat of adsorption of 2-pentene on silicalite and ferrie

126 Early theories provide estimates of the heat of transport at infinite dilution.

127 e present evidence showing that near-surface heating of sediment in the Guaymas Basin, a young extens

128 y overcoming the energy barrier through mild heating of the capsid, but little is known about the cap

129 not a major contributor to CO2 formation, as heating of this compound under typical roasting conditio

130 ial cavitation, and (c) mild (<10 degrees C) heating of tissue, as well as a sham-treated control gro

131 Further studies on the heating of various components isolated from green coffee

132 Heating of xerogels at 80 degrees C resulted in the topo

133 Experimental heats of formation and enthalpies obtained from G4 calcu

134 Whereas the heats of reaction are small and similar for the NF4 and

135 rola-flavoured drink was treated using ohmic heating (OH) at 65 degrees C for 30min to evaluate diffe

136 clusion of convective drying (CDP) and ohmic heating (OHP) were assayed.

137 The impacts of environmental heat on mortality and morbidity at the population scale

138 an be nanopatterned, embed optical function, heated on demand in response to infrared light, or can v

139 bined pulsed electric fields and heating and heating only was observed; (ii) in chromoplasts, both be

140 Prolonged periods of extreme heat or drought in the first year after fire affect the

141 harvester or nanogenerator converts motion, heat or light into electrical energy, which is subsequen

142 subjected to certain stimuli, for instance, heat or magnetic fields.

143 equations, suggest that colloidal particles heated or cooled in certain polar or paramagnetic solven

144 Indoor burning of fuel for heating or cooking releases carcinogens.

145 ne-Au) and revealed the relationship between heating or cooling and charge transmission characteristi

146 rigidity can be actively tuned with external heating or electrical activation.

147 cal reactions due to exposure to stress (UV, heat) or by hosts as a defense response.

148 educed formalin pain responses and decreased heat pain.

149 Moreover, results showed that thermal heating, particularly after US treatment, reduced the bi

150 sperm shrubs delivered the largest amount of heat per unit area.

151 uring embedded nanoscale thermocouples and a heated planar Au substrate that were both subjected to v

152 ng of asthma symptoms in regions affected by heat, pollen, and wildfires.

153 Our observations from the heat-polluted area indicate that under future warming sc

154 country analysis of latitudinal gradients of heat, poverty, and aggression finds that heat-induced ag

155 record confinement regime with positive net heating power in a field-reversed configuration plasma,

156 e in microscopic level, an identical cooling/heating procedure was replicated on a small piece of fat

157 sk management, even when these allergens are heat-processed into baked foods.

158 Efficient nonradiative relaxation and local heating produced by concentration quenching in aggregate

159 steps of acid/ethanol precipitation without heating (Protocols 2 and 3) show lower extraction yields

160 he outer surface that effectively suppresses heat radiation loss without sacrificing wearing comfort.

161 ataglyphis ants do not attempt to escape the heat; rather, they apply their impressive heat tolerance

162 (45%-65% RH) set by the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (

163 The rapid non-linear increase in heat-related morbidity is difficult to quantify, hinderi

164 Also, most studies focused on attenuation of heat-related mortality and studied the United States or

165 atest reductions in electricity consumption, heat-related mortality decreased rather than increased f

166 ray spectroscopy, allows us to calculate the heat released in this process, and to simulate the tempe

167 nded repression in a significant fraction of heat-repressed genes suggests that repression of these g

168 he temperatures of the working substance and heat reservoirs that the maximum-work efficiency, when a

169 osa primarily in stationary phase and boosts heat resistance 100-fold when expressed in Escherichia c

170 Two putative heat-responsive genes, ssl2245 and sll1130, constitute a

171 eptide 3 expression and editing function was heat sensitive to a certain degree, partly explaining th

172 aching conditions changes the microbiome for heat-sensitive corals, but not for heat-tolerant corals

173 We show that tableting stabilizes heat-sensitive reagents and simplifies a broad range of

174 However, increased heat sensitivity from infections may discourage these pr

175 Neurons, heat-sensitized by expressing TRPV1 are activated with m

176 types appear independent of the well-studied heat shock and insulin signaling pathways, indicating th

177 response pathways, such as those mediated by heat shock factor 1 (HSF1) and nuclear factor-erythroid

178 The 90-kDa heat shock protein (Hsp90) chaperone system affects the

179 e81) displayed improved binding to the small heat shock protein (HspB8) in ischemic skeletal muscle c

180 esponse (mtUPR) as measured by expression of heat shock protein 60, Clp protease, and Lon peptidase 1

181 P. aeruginosa GroEL, a homolog of heat shock protein 60, was identified as one of the fact

182 ith the pharmacochaperone noribogaine or the heat shock protein 70 (HSP70) inhibitor pifithrin-mu suc

183 Stress-inducible heat shock protein 70 (hsp70) interacts with superoxide

184 in control DCs, covalently bind to chaperone heat shock protein 70.

185 ity of the auxin co-receptor TIR1, involving HEAT SHOCK PROTEIN 90 (HSP90) [9].

186 We found that inhibitors of heat shock protein 90 (HSP90) induced apoptosis in BL ce

187 Heat shock protein 90 (HSP90) inhibition is an attractiv

188 Na(+) and/or K(+) flux and the activation of heat shock protein 90 (HSP90), a protein required for th

189 those, we chose to focus on an inhibitor of heat shock protein 90 beta (HSP90beta).

190 dehydrogenase, alpha-enolase, filamin-A, and heat shock protein 90, were identified in samples of api

191 The heat shock protein also seems to regulate the cross-talk

192 3-3:serotonin N-acetyltransferase and 14-3-3:heat shock protein beta-6 complexes revealed similaritie

193 on chromosome 19 that fuses part of the DnaJ heat shock protein family (Hsp40) member B1 gene (DNAJB1

194 ive protein, fibrin degradation product, and heat shock protein-70 improved risk reclassification.

195 onditions promoting protein unfolding, small heat shock proteins (sHsps) prevent the irreversible agg

196 Cellular protein homeostasis depends on heat shock proteins 70 kDa (Hsp70s), a class of ubiquito

197 rotein folding and pro-survival machinery by heat shock transcription factor 1 (HSF1) ameliorates bio

198 r stress response resembling the response to heat shock, but the transcriptional basis of this respon

199 polymerase II occupancy in DoG regions after heat shock, supporting our findings.

200 ole for HSF1 in the induction of a subset of heat shock-induced readthrough transcripts.

201 i, such as DNA damage, oxidative stress, and heat shock.

202 reduced microbial fitness after exposure to heat shock.

203 using a transgenic fish model that exhibits heat-shock (HS) inducible impaired heart regeneration.

204 ctioned with GroEL(SR) under both normal and heat-shock conditions.

205 tion, we demonstrated that the modulation of heat-shock factor-1 by knockdown in nCPCs or overexpress

206 Clustered class-I small heat-shock protein (sHSP) chaperone genes, SlHSP17.6, Sl

207 itic RNAs, including Cdg7_FLc_0990, involved heat-shock protein 70-mediated nuclear importing mechani

208 l for sustaining the transmission of noxious heat signals.

209 , a Meinhard nebulizer in combination with a heated single-pass spray chamber, and a rotary injection

210 ood thermal contacts with the heat source or heat sink.

211 This study investigated the effects of heating skim milk with soluble calcium salts, calcium ch

212 ems can be based on various stimuli, such as heat, solvent adsorption/desorption, or electrochemical

213 nsfer through good thermal contacts with the heat source or heat sink.

214 em on-Glass hosts thin metal films acting as heating sources; hydrogenated amorphous silicon diodes a

215 ons will be analogous to the most severe dry/heat spells causing dieback in the late 20th century.

216 ve Cd amounts in the biologically detoxified heat stable protein fraction were 35% higher in E. cyane

217 f being regenerated from its sulfite/sulfate heat stable salt, which enables the simultaneous absorpt

218 Quantitation was based on proteins for which heat-stable and species-specific peptide markers had bee

219 stine after cAMP agonists, cholera toxin, or heat-stable enterotoxin of E. coli (STa toxin), with IC5

220 The heat-stable protease Ser2 is secreted by the species Ser

221 re on GPP across a catchment of geothermally heated streams.

222 HSP22E/F strongly accumulate during heat stress and form high molecular mass complexes.

223 NL-44, will minimize the negative impact of heat stress and increase global food productivity, benef

224 ify and quantify proteins synthesized during heat stress and recovery from heat stress.

225 ing climate projections, we show that future heat stress could reduce the forest edge growth enhancem

226 eration in mammals and is also implicated in heat stress in plants.

227 of Caenorhabditis elegans following hormetic heat stress or HSF-1 overexpression.

228 h confidence with chloroplast HSP22E/F under heat stress thus revealing chloroplast processes affecte

229 Upon heat stress, AtBAG7 is sumoylated, proteolytically proce

230 sis across eudicot and monocot species under heat stress.

231 system (UPS)-mediated proteolysis following heat stress.

232 hesized during heat stress and recovery from heat stress.

233 to cells lacking ClpP, are not sensitive to heat-stress and do not accumulate protein aggregates sho

234 observed flowering dates and disaggregating heat-stress impacts, both pre- and postflowering stages

235 increased levels of light-stress elicited by heat-stress.

236 nsitivity to lose coral photosynthesis under heat-stress.

237 approach uses alternating magnetic fields to heat superparamagnetic nanoparticles on the neuronal mem

238 d aggression is mediated by poverty and that heat tempers rather than fuels poverty-induced aggressio

239 During heating, the increase of dimers, trimers, and oligomers

240 On heating, this compound exhibits a spin transition betwee

241 eurons to be activated by exceptionally mild heating, thus preventing the damaging effects of excessi

242 The soils heated to 225 degrees C leached the greatest DOC and had

243 n compared to the unheated material or soils heated to 350 or 500 degrees C.

244 Powder mixtures of Cs2Se2, Sn, and PSe2 were heated to 650 degrees C and then cooled to room temperat

245 Consequently, ClpG largely contributes to heat tolerance of P. aeruginosa primarily in stationary

246 he heat; rather, they apply their impressive heat tolerance to avoid competitors and predators.

247 es solubilize aggregated proteins and confer heat tolerance to cells.

248 biome for heat-sensitive corals, but not for heat-tolerant corals growing in habitats with natural hi

249 r future warming scenarios, calcification in heat-tolerant foraminifera species will not be inhibited

250 Super-Planckian near-field radiative heat transfer allows effective heat transfer between a h

251 Here, using heat transfer and thermodynamics principles, we show how

252 eld radiative heat transfer allows effective heat transfer between a hot and a cold body to increase

253 At large distances the heat transfer can be described by black body radiation,

254 Here we report studies of radiative heat transfer in few A to 5 nm gap sizes, performed unde

255 ge thresholds were compared to a theoretical heat transfer model of pulsed laser-irradiated nanoparti

256 of experiments and theory, we show that the heat transfer process on superhydrophobic surfaces is in

257 asitic power consumption and allow efficient heat transfer through good thermal contacts with the hea

258 ation involved a systematic investigation of heat transfer, analyte retention, and migration velocity

259 The momentum and heat transport in rarefied gas flows is known to deviate

260 l strength of the heat-treated, impregnation/heat-treated and hydrothermal-treated samples were about

261 s, i.e., control, heat-treated, impregnation/heat-treated, and hydrothermal-treated samples.

262 he reduction of the flexural strength of the heat-treated, impregnation/heat-treated and hydrothermal

263 es were sorted into 4 groups, i.e., control, heat-treated, impregnation/heat-treated, and hydrotherma

264 The effect of heat treatment (70 degrees C or 90 degrees C for 30min)

265 Cow and camel milk proteins before and after heat treatment at 80 degrees C for 60min were identified

266 reserved at air water interface even after a heat treatment at 90 degrees C.

267 The influence of the heat treatment can range between legume species and chem

268 of 1-cyano-2,3-epithiopropane under aqueous heat treatment conditions and compared our findings to t

269 Increasing the pH before heat treatment led to increases in casein dissociation a

270 and bovine whey proteins were affected by a heat treatment of 80 degrees C for 60min.

271 The effects of ZnO particles and heat treatment on mechanical properties and dimensional

272 The results indicate that enzyme-free heat treatment prior to UPLC-MS/MS analysis gives better

273 emical elements, as well as with the type of heat treatment, dry, wet, conductive heating and using m

274 cking in Ni-based superalloy, resulting from heat treatment, is known to cause disastrous failure, bu

275 droplets, which are oxidized in a subsequent heat treatment.

276 interpret the increasing frequency of deadly heat under specified amounts of global warming.

277 alculated the so-called pungency in Scoville heat units in order to compare with previous studies fro

278 In the sediment heated up to 100 degrees C, we found unexpectedly low D

279 delayed-pressure urticaria, solar urticaria, heat urticaria, vibratory angioedema, cholinergic urtica

280 lored infrared property for passive personal heating using nanoporous metallized polyethylene.

281 a clean and renewable liquid fuel with high heating value, is an attractive strategy for global warm

282 own to be strongly correlated with flare gas heating value.

283 an the hospital as a whole, primarily due to heating, ventilation, and air conditioning requirements.

284 rophylls complexations against combined acid-heat was compared with that from untreated leaves and sy

285 eshold used to define heat waves, the higher heat wave associations on mortality.

286 India faced a major heat wave during the summer of 2015.

287 The frequency and intensity of extreme heat wave events have increased in the past several deca

288 analyses to estimate the community-specific heat wave-mortality relation over lags of 0-10 d.

289 Here, we investigate how heat waves affect emissions of volatile organic compound

290 The association between heat waves and mortality appeared acutely and lasted for

291 Heat waves are extreme weather events that have been ass

292 We show that European extreme heat waves are related to a global teleconnection patter

293 her the temperature threshold used to define heat waves, the higher heat wave associations on mortali

294 nced mass bleaching despite intensive Degree Heating Weeks (DHW) of >15 degrees C-weeks.

295 Magnetic nanoparticles dissipate heat when exposed to alternating magnetic fields (AMFs),

296 ation; the firmness was similar to gels from heated whole milk.

297 For samples heated with hot air, the best linear correlation achieve

298 um ((87)Rb) cold atoms with minimal loss and heating with as few as three conveyor belt conductors.

299 e increase originating from the photothermal heating, with great accuracy.

300 es in the levels of amino groups between all heated WPI solutions when measured by the OPA and TNBS m