ライフサイエンスコーパス: storage

1 ancing storability of bananas during ambient storage.

2 g and increased metabolic efficiency and fat storage.

3 torage methods (48.1-57.2%) after 6months of storage.

4 be detrimental for the specificity of memory storage.

5 nce of ARGs and MGEs, which increased during storage.

6 zer enable this form of photochemical energy storage.

7 ads to values >/=6.0logCFU/mL after 7days of storage.

8 for improving vitamin D stability during dry storage.

9 ruit firmness and reduced weight loss during storage.

10 te future search of AFE materials for energy storage.

11 rovements in both electricity generation and storage.

12 nes in terrestrial carbon dioxide uptake and storage.

13 , respectively for CHE samples at the end of storage.

14 altered fire behavior, hydrology, and carbon storage.

15 ocatalysis, as well as molecular information storage.

16 ral mechanism for coordinated working memory storage.

17 (P<0.01) and less colour loss during frozen storage.

18 drug leakage from the nano-liposomes during storage.

19 grass meadows are important sites for carbon storage.

20 nstraining forest C fixation and potentially storage.

21 sions resulting from operation of new energy storage.

22 obstacle to L. casei 01 (>10(8)CFU/g) during storage.

23 relevant to healing were upregulated during storage.

24 that CaMKII activity is not required for LTM storage.

25 t of target degradation attributed to sample storage.

26 abundant elements for electrochemical energy storage.

27 ociated Fg, indicating a defect in Fg uptake/storage.

28 linalool to (S)-(+) form was observed during storage.

29 performing metal-organic frameworks for CH4 storage.

30 le and must be reconsolidated into long-term storage.

31 lated, but more stable, inputs for long-term storage.

32 rolase hypersecretion and profound lysosomal storage.

33 robial population and flavour profile during storage.

34 eetpotato response to chilling stress during storage.

35 of microencapsulated carotenoids during the storage.

36 me inhibitory effects in the early stages of storage.

37 cyte morphology in whole blood under ambient storage.

38 tivity compared to others during postharvest storage.

39 ising choice for sustainable and safe energy storage.

40 aking place in packaged fresh produce during storage.

41 ) patients were exposed to RBCs with longest storage, 1392 (6%) patients were exposed exclusively to

42 ether there are commonalities in information storage across species.

43 ucted, and rain gutters and a tank for water storage added.

44 ed, remaining functional for over 40 days of storage (after storage at 8 degrees C).

45 itats for biodiversity protection and carbon storage alongside promoting areas of high-yield cattle p

46 some ability to inhibit colour fading during storage, although EDTA had some inhibitory effects in th

47 ng of the magnetic beads and on-chip reagent storage and actuation were developed.

48 extracted from soybeans on the first day of storage and after 12months of storage, at 12 and 15% moi

49 sproportionately important for global carbon storage and biodiversity.

50 onmental factor that markedly affects energy storage and body-fat accumulation in mammals, yet the un

51 of the reagents are stable during long-term storage and can be prepared in advance.

52 an overview of their applications in energy storage and conversion, with particular emphasis on lith

53 In conclusion, storage and heating appear to influence protein glycatio

54 re environmental concerns with the long-term storage and implications of a leak from a carbon capture

55 mangrove encroachment may increase nutrient storage and improve storm protection, but cause declines

56 are critical for understanding plant energy storage and improving crop productivity.

57 y formulations during ambient or accelerated storage and in fortified fluid skim milk stored under re

58 Concepts for information storage and logical processing based on magnetic domain

59 gest that awake SWRs support accurate memory storage and memory-guided behavior, whereas sleep SWR re

60 ociation was found between the length of RBC storage and mortality.

61 l four states, 50% of spills were related to storage and moving fluids via flowlines.

62 polymerization reactions enable the accurate storage and processing of nature's biopolymer informatio

63 Efficient storage and querying of large amounts of genetic and phe

64 nufacture in a stable form, which simplifies storage and reduces cost.

65 fic defects in peptide hormone and monoamine storage and regulated secretion.

66 have profound effects on the balance between storage and release of carbon (C) and associated volatil

67 sed 100-1000-fold by incubation or long-term storage and relies on the hydrophobic ligand-binding poc

68 portance of boreal forest humus soils for Hg storage and reveals that this pool is likely to persist

69 r potential applications in the field of gas storage and separation.

70 nto porous materials to harness them for gas storage and separations, chemical sensing, drug delivery

71 of colocated or electrically proximate wind/storage and solar/storage facilities across the U.S. and

72 novel, improved materials for magnetic data storage and spintronic devices, compounds that allow a t

73 hat mangrove encroachment may enhance carbon storage and the capacity of a wetland to increase surfac

74 The storage and transmission of such vast amounts of sequenc

75 nano-pore structure directly influences gas storage and transport properties.

76 liquid offering one way of ensuring its safe storage and transportation before use.

77 Bangladesh has substantial cold-chain storage and transportation capacity after inactivated po

78 nt, and recorded temperatures during vaccine storage and transportation.

79 stable than free lutein during post-harvest storage and two loci on chromosomes 7D and 7H(ch) are im

80 sed on soil studies show AC first for carbon storage and water conservation, with AD second.

81 re exposed exclusively to RBCs with shortest storage, and 18 854 (76%) patients were exposed to RBCs

82 structural conformation during formulation, storage, and delivery.

83 er, the mechanisms underlying the formation, storage, and expression of such models remain unknown.

84 on pasteurization, during 12months of frozen storage, and in butia nectar after a 3-month storage per

85 scale implications for water balance, carbon storage, and related rhizosphere functions.

86 ls during production, processing, packaging, storage, and transport.

87 ole" point mutations), resulting in a unique storage- and pH-dependent conformational destabilization

88 e, [(NPr)2 TTz]Cl4 , as a novel two-electron storage anolyte for aqueous organic redox flow battery (

89 lithium ion batteries in large-scale energy storage applications owing to the low cost.

90 r separations, photocatalysis and for energy storage applications.

91 Nutrient acquisition and energy storage are critical parts of achieving metabolic homeos

92 heir role as an endogenous energy source and storage are increasingly considered as signaling molecul

93 ed catalysts for clean energy conversion and storage are presented.

94 Using methane storage as a case study, we also show that materials can

95 neration has been driving interest in energy storage as an enabling low-carbon technology that can he

96 rine OLT model with extended (20 hours) cold storage, as well as to analyze the requirement for SIRT1

97 structures, was studied during two weeks of storage at 35 degrees C.

98 The strips were stable following 3 months of storage at 37 degrees C.

99 osperin was chemically stable over prolonged storage at 37 degrees C.

100 omatis-seeded swabs were used with ACT after storage at 4 degrees C, 23 degrees C, or 36 degrees C fo

101 unctional for over 40 days of storage (after storage at 8 degrees C).

102 on to increase CTX stability especially upon storage at high temperatures (45 degrees C).

103 tly before and after more than two months of storage at room temperature.

104 eduction in cooking time after six months of storage at the highest studied temperature of 40 degrees

105 e first day of storage and after 12months of storage, at 12 and 15% moisture and at temperatures of 1

106 fects of dynamic controlled atmosphere (DCA) storage based on chlorophyll fluorescence (DCA-CF) and r

107 Comparatively high variation in OC storage between riverine and nonriverine geomorphic sett

108 ecifications for temperature and duration of storage (between 2 degrees C and 30 degrees C and 60 day

109 swabs at temperatures above 36 degrees C and storage beyond 60 days and provide confidence regarding

110 and (3) What is the Holocene carbon storage budget for Lake Baikal.

111 ology, phenotype and cytokine secretion into storage buffer.

112 e been extensively investigated for hydrogen storage but, to date, appear to have an upper limit to t

113 (AT) is no longer regarded as an inert lipid storage, but as an important central regulator in energy

114 ttractive route for large-scale solar energy storage, but issues surrounding the efficiency and the s

115 ic acid are chemically stable over prolonged storage, but not 2-methoxybenzoic acid and 2'-methoxyace

116 sition have the potential to increase soil C storage by reducing the decay of plant litter and soil o

117 r and maturity index was also delayed during storage by the use of the coatings, which led to a 2-fol

118 cal neural networks.High-density information storage calls for the development of modern electronics

119 ic cellular remodeling toward lowered energy storage capacity and browning of white adipocytes.

120 xides have been shown to provide high charge storage capacity but with poor cyclic stability due to s

121 2)2(CaZr)F6 would have a volumetric hydrogen storage capacity greater than current US DOE targets.

122 spheres with high porous structure and water storage capacity were prepared.

123 en vacancy concentration and superior oxygen storage capacity.

124 date, appear to have an upper limit to their storage capacity.

125 performance MXene-based materials for energy storage, catalysis, environmental, and biomedical applic

126 implications of a leak from a carbon capture storage (CCS) site.

127 (all-V) continuous-flow photoelectrochemical storage cell (PESC) to achieve efficient and high-capaci

128 nction and survival following prolonged cold storage compared to UW solution.

129 tty acid transporter CD36 from its endosomal storage compartment to the sarcolemma as the primary mec

130 ical support - diversion of excess carbon to storage compounds - into an existing earth system model

131 re in a closed container to simulate current storage conditions of such packed food.

132 with the hole-hole homodimer under different storage conditions, the bispecific heterodimer, guided b

133 of indomethacin on tablet surfaces under two storage conditions: 30 degrees C/23% RH and 30 degrees C

134 pherol, as their concentrations decreased as storage continued.

135 ses, and FA protection during processing and storage could lead to more accurate fortification.

136 the role of defects in improving the energy storage density of these materials has not been addresse

137 h is far superior to reported aqueous energy storage devices at the same power level.

138 have recently emerged as alternative energy storage devices beyond lithium-ion batteries.

139 of the most promising next-generation energy-storage devices due to its ultrahigh energy density.

140 calable to industrial applications in energy storage devices such as li-ion battery and supercapacito

141 Aqueous electrochemical energy storage devices using potassium-ions as charge carriers

142 There is a growing demand for energy storage devices with high energy and high power densitie

143 r building quantum computing and information storage devices, as they are insensitive to homogeneous

144 gly interesting for the design of new energy storage devices.

145 lay a key role in the next generation energy storage devices.

146 The optimization of high-energy-storage dielectrics will have far-reaching impacts on th

147 suite of solutions includes availability of storage, diesel engines, and transmission expansion to p

148 findings of a patient with type Ia glycogen storage disease (GSD Ia), DiGeorge syndrome (DGS), catar

149 erapies that have emerged from the lysosomal storage disease field.

150 Glycogen storage disease type 1b (GSD-1b) is an autosomal-recessi

151 olipidosis, an autosomal recessive lysosomal storage disease.

152 usly associated with the endosomal/lysosomal storage diseases Niemann-Pick and neuronal ceroid lipofu

153 ucher disease and, possibly, other lysosomal storage diseases.

154 as cancer, neurodegeneration, and lysosomal storage diseases.

155 C1) disease is a neurodegenerative lysosomal storage disorder due to mutations in the NPC1 gene, enco

156 RPML1, cause the neurodegenerative lysosomal storage disorder mucolipidosis type IV, and a gain-of-fu

157 and lead to the neurodegenerative lysosomal storage disorder neuronal ceroid lipofuscinosis (NCL).

158 to mucolipidosis type IV, a severe lysosomal storage disorder.

159 ation contributes to virtually all lysosomal storage disorders (LSDs) and to common neurodegenerative

160 ll pluripotency, cancer drug resistance, GSL storage disorders and other diseases.

161 sfunctional lysosomes give rise to lysosomal storage disorders as well as common neurodegenerative di

162 plicated in human diseases such as lysosomal storage disorders, neurodegenerative diseases and metabo

163 nge materials offer state-of-the-art thermal storage due to high latent heat.

164 proposed as a promising material for oxygen storage due to its easy reversible oxidation into LuFe(3

165 on and the oxidative status of wheat flours: storage duration (up to 6months), temperature during sto

166 Data regarding the storage duration of PRBCs, clinicopathologic characteris

167 mbination in finite populations: the genomic storage effect due to phenotypic plasticity.

168 ies in numerous applications, such as energy storage, electromagnetic interference shielding, and cat

169 at ingestion rapidly increases hepatic lipid storage, energy metabolism, and insulin resistance.

170 ative disease presenting with intralysosomal storage, enhances clearance of proteolipid aggregates, r

171 ate oxidation and decreased net carbohydrate storage (estimating total, muscle, and liver glycogen sy

172 ) during prolonged (24-h) cold (4 degrees C) storage exhibited significantly (p < 0.05) decreased acu

173 lectrically proximate wind/storage and solar/storage facilities across the U.S. and determine the amo

174 ure during storage, relative humidity within storage facilities, type of packaging (oxygen-permeable

175 sites, with potential applications in energy storage, filtration, and sensing.

176 ent to which this reflects differences in O2 storage fluctuations and/or contributions from oxidative

177 ual variability in GRACE-derived total water storage for 18 major watersheds.

178 n applications from bioelectronics to energy storage/generation.

179 lbachia viral inhibition phenotype and lipid storage genetic disorders.

180 ric state and conformation of insulin in its storage granules in the pancreas are not known.

181 Mechanisms underlying information storage have been depicted for global cell-wide and path

182 iciency (acute fasting) and excessive energy storage (high-fat diet-induced obesity) blunt the effect

183 breakfast meal (64.3-69.3%) after 4months of storage; however, no differences in pVAC retention were

184 Aboveground tree grass biomass and carbon storage in all systems was estimated with allometric equ

185 ough a mechanistic understanding of nutrient storage in biochar is missing.

186 Nutrient storage in consumer biomass may be especially important

187 ogical C sequestration projects to enhance C storage in forest or wetland biomass or soil, and will n

188 a second step, we estimated the change in C storage in forests due to the fertilization by deposited

189 nic pollutants (PLOPs) into blood from their storage in inert adipose tissue during rapid weight loss

190 with LDs may be linked to the diverse lipid storage in muscle between trained and sedentary individu

191 marizes the factors affecting organic carbon storage in regional and national scale, and have constru

192 ust qubits and, most recently, magnetic data storage in single atoms.

193 iated entangling of the electrons and robust storage in the nuclear spins.

194 ld be employed to achieve mobile information storage in these metamaterials.

195 For successful CO2 storage in underground reservoirs, the potential problem

196 nagement policy change effect on groundwater storage in western and southern India, we show that para

197 gh-throughput computing and distributed data storage infrastructure.

198 artificial photosynthesis system for energy storage is designing catalysts that can thrive in an ass

199 Large-scale electric energy storage is fundamental to the use of renewable energy.

200 Highly efficient energy storage is in high demand for next-generation clean ener

201 Here we address the latter by using a set of storage jar handles (fired clay) stamped by royal seals

202 hENT3 can result in a spectrum of lysosomal storage-like disorders.

203 Acyl position in structural and storage lipids together with acyl-CoA analysis further h

204 ransport, abundant-surface-controlled energy storage, long-term structural integrity, and high-rate c

205 AD-ANCL patients including auto-fluorescent storage material (AFSM) accumulation, CSPalpha aggregate

206 Many lithium-storage materials operate via first-order phase transfor

207 potential impact as lightweight information storage media.

208 classical approach to high-density magnetic storage media.

209 otal pVAC retention were found between grain storage methods (48.1-57.2%) after 6months of storage.

210 ferentiation process and the roles of energy storage molecules, such as glycogen and polyhydroxybutyr

211 Myosin storage myopathy (MSM) is a congenital skeletal muscle d

212 ansfusion after 1, 2, 3, 4, 5, or 6 weeks of storage (n = 10 per group).

213 Following 72 h ambient storage, neutrophils remained fully functional to migrat

214 goldilocks" region for the proper subnuclear storage of an SR protein splicing factor.

215 olic contents were unaffected by the 3-month storage of butia nectar; however, flavonoid content and

216 ress, reduced establishment potential, lower storage of carbohydrate reserves, and increased suscepti

217 investigation of the use, reprocessing, and storage of deuodenoscopes did not identify deviations fr

218 on and, via this adaptation, may support the storage of fatty acids in IMTG.

219 aminidase 3 deficiency drastically increased storage of GM2 in the brain tissues of an asymptomatic m

220 Plant partitioning and transient storage of inorganic and organic nitrogen forms are eval

221 ical UV-VIS absorption for furans during the storage of irradiated solutions.

222 us may also participate in the formation and storage of memories about events in the environment that

223 ion of spatial information, the creation and storage of memory traces for spatial information, and th

224 g for 1900-2000, we quantify the peak global storage of nitrate in the vadose zone as 605-1814 Teragr

225 The production stages assessed were the storage of raw fruits, fruit washing, and thermal proces

226 Because any change in the storage of respiratory carbon is accompanied by correspo

227 PESC) to achieve efficient and high-capacity storage of solar energy, through improving both photocur

228 stribution of water during the processing or storage of starchy matrices.

229 tu, up to several hours after extraction and storage of the polarized solid.

230 o set up a reliable protocol for postharvest storage of the very-late Tarocco "Sant'Alfio" orange to

231 tic photosynthate partitioning in support of storage oil and protein biosynthesis in developing COS.

232 cts of moisture and temperature during grain storage on the functional properties and isoflavone prof

233 sers and small research groups to a scalable storage option and simple data integration, including da

234 ions but can be exploited for long-term data storage or nuclear-spin-based quantum memory.

235 effects of fire on soil carbon and nutrient storage, or whether fire-driven nutrient losses limit pl

236 tions and reveal that LBs are not only lipid storage organelles but also act as a relay center in met

237 atocytes accumulate many large neutral lipid storage organelles known as lipid droplets (LDs).

238 gated internodes, SUTs also were detected in storage parenchyma cells.

239 ange, 122-530 minutes) after an initial cold storage period of 427 minutes (range, 222-877 minutes).

240 After a 12-month frozen storage period, flavonoid, phenolic, and ascorbic acid c

241 storage, and in butia nectar after a 3-month storage period.

242 Intestines of Atp7b(-/-) mice had reduced Cu storage pools in intestine, Cu depletion, accumulation o

243 ived OC may exert a strong influence over OC storage potential across intertidal wetland systems.

244 ding a framework to assess the effect on the storage properties of variations in doping, electric fie

245 otein transferrin and the intracellular iron-storage protein ferritin, and for heme iron, the chapero

246 to their previously demonstrated effects on storage protein gene expression.

247 ucture of the radiation sensitive molybdenum storage protein, demonstrate soaking of the drug colchic

248 Seed storage proteins are both an important source of nutriti

249 important classes of seed proteins, such as storage proteins, oil biosynthesis enzymes, and transcri

250 seedlings, including cruciferins, major seed storage proteins, which were regulated by Group VII Ethy

251 Greater levels of solar energy storage provide an effective solution to the inherent na

252 duction through improved household pesticide storage reduces pesticide self-poisoning.

253 duration (up to 6months), temperature during storage, relative humidity within storage facilities, ty

254 processes or whether it also mediates memory storage remains unclear.

255 scales representing the colour change during storage/ripening were developed for the three types of f

256 culenta Crantz) is a major world crop, whose storage roots provide food for over 800 million througho

257 In 2 studies examining storage safety, 73% to 77% of patients reported that the

258 vo kidney perfusion (NEVKP) with static cold storage (SCS) in a porcine model of DCD autotransplantat

259 aracteristics, complicating permeability and storage security predictions.

260 ogy may maximize CO2 uptake within and above storage sites.

261 equire scalable, low-cost, multi-hour energy storage solutions in order to be effectively incorporate

262 pure p-MBA monolayers give rise to increased storage stability and better analytical performance.

263 ss into stable fish roe powder with superior storage stability and functionality.

264 equences under practical conditions and high storage stability.

265 od matrices in different food production and storage stages.

266 and sparing for both biodiversity and carbon storage suggest that safeguarding natural habitats for b

267 ush the technical limits of this information storage system and optimize strategies to minimize those

268 ) battery is a promising high-energy-density storage system.

269 re considered as the most widely used energy storage systems (ESSs) because they can produce a high e

270 Storage systems based on liquids, in particular, formic

271 have become one of the most promising energy-storage systems, as they present multifold advantages of

272 tial for the development of efficient energy-storage technologies.

273 of MEFs and explore implications for energy storage technologies.

274 This study evaluated the effect of storage temperature (4, 25 and 40 degrees C) and time on

275 of starch recrystallisation was affected by storage temperature and time, where refrigeration temper

276 The time and storage temperature not influence the swelling power and

277 erulic acid levels occurred as a function of storage temperature.

278 melting of the polymorphic form V, at higher storage temperatures, achieving greater stability agains

279 d to extensive changes in subseafloor carbon storage that forced distinct episodes of methane release

280 After fluorescence imaging and data storage, the fluorophores coupled to the antibodies are

281 ough its regional influence on surface water storage, the warm phase of ENSO preconditions the lower

282 When used as anodes for sodium-ion storage, these 3D MXene films exhibit much improved perf

283 formation and total crystallinity more than storage time at both frozen and room temperature.

284 maintenance of high antioxidant activity, a storage time of 6months at 4 degrees C is recommended.

285 The quality of shrimp decreased over storage time.

286 vacuum packing and freezing for intermediary storage times (24-32weeks) with a reported overall decre

287 chnology has promise for extending allograft storage times.

288 "Long storage" tomato is a crop traditionally cultivated in th

289 al scales, such changes in terrestrial water storage (TWS) will be reflected in the water contained i

290 erature sensitivity, which could influence C storage under combined anthropogenic global change drive

291 erials, they can be used in stationary power storage units such as hydrogen filling stations, and the

292 -mediated apoptosis, inflammation and energy storage/usage.

293 Plant storage was found to be the dominant phosphorus sink (64

294 Textural quality during storage was less affected for coarse or ground bran-rich

295 Thus, a maximum of one week of frozen storage was recommended when using the solvent extractio

296 organs of MPS-I animals, glycosaminoglycans storage was reduced, and skeletal phenotype was ameliora

297 ns promote intramuscular triglyceride (IMTG) storage, we investigated the hypothesis that differentia

298 alance between energy consumption and energy storage, which was selected during human evolution.

299 erpotentials, and supercapacitors for energy storage with high capacitance.

300 50 GB of space is allocated for data storage, with unrestricted number of samples and analyse