ライフサイエンスコーパス: freeze

1 ssions from early spring thaw to late autumn freeze.

2 , males typically stop signaling and females freeze.

3 ich the overlying ground was not permanently frozen.

4 jecting mPFC neurons increased PRF, not FRF, freezing.

5 s the formation of ice at temperatures below freezing.

6 ot reproduce myofibrillar protein changes in freezing.

7 A-dehydrogenase (HADH) can indicate previous freezing.

8 the question of cerebellar contributions to freezing.

9 protection of food products from damage upon freezing.

10 gh salt with lower pH to mimic conditions in freezing.

11 in spring, but in cold localities, they risk freezing.

12 gher cumulative CH(4) emission during autumn freeze (1,212.31 +/- 280.39 mg m(-2) year(-1) ) than tha

13 l 108 070 Trans-Omics for Precision Medicine Freeze 5 chromosome 17 haplotypes.

14 The mean duration of autumn freeze (58.94 +/- 26.39 days) is significantly longer th

15 ferentially expressed genes (DEGs) vs. fresh-frozen, 98% of which were down-regulated.

16 cular mechanisms that contribute to cold and freezing adaption.

17 Temperate forests are shaped by late spring freezes after budburst - false springs - which may shift

18 nique (freeze for 3 min, thaw for 5 min, and freeze again for 3 min), and LLETZ (using a large loop d

19 amples taken along this gradient to drought, freezing and a mechanical disturbance to test how plant

20 Cooking, blanching, freezing and canning alter the physical and chemical cha

21 an be extended by preservation methods (e.g. freezing and canning), which usually involve blanching.

22 ely prior to an aversive event (US) produces freezing and flight responses to CS1 and CS2, respective

23 acuum impregnation in lemon juice solution), freezing and frozen storage (FS) on single and total pol

24 cle-assembled porous solid biomaterial after freezing and lyophilization treatment.

25 t types of adult stem cells, cells killed by freezing and thawing or a chemical inducer of the innate

26 ering competence, favors a high tolerance to freezing and the development of a winter-hardy plant str

27 as utilized, which was constructed using the freezing and vitrification curve and values characterizi

28 at the recombinant protein is stable at both frozen and elevated-temperature storage conditions.

29 supported by retrospective studies of paired frozen and FFPE samples, which identified consistent enr

30 ngle-use aliquots of the supernatants can be frozen and stored (-20 degrees C; 12 months).

31 avior in walking flies, a form of short-term freezing, and its activity can promote stopping.

32 Thousands of frozen, archived tissue samples from the human central n

33 Chilling and freezing are essential for poultry meat preservation.

34 These findings portray oculomotor freezing as a marker of crossmodal temporal expectation.

35 and females generalized based on cue-induced freezing at retrieval.

36 pes of baits were used: (1) frozen bait; (2) frozen bait and natural chum; (3) fresh fish bait; and (

37 Four types of baits were used: (1) frozen bait; (2) frozen bait and natural chum; (3) fresh

38 we show that the subtle random potential of frozen BCO Brownian rotors suppresses magnetic order dow

39 el group of CA1 neurons that robustly encode freeze behavior independently from spatial location.

40 We also identify a novel group of freeze behavior-activated neurons.

41 ctivation of multiple sites driving profound freezing behavior and bradycardia that are not elicited

42 conditioning protocol increased conditioned freezing behavior and induced an IED; this effect was bl

43 mic and basal forebrain projections generate freezing behavior and, unexpectedly, contribute to assoc

44 We applied deep learning to classify mouse freezing behavior, eliminating the need for human scorin

45 es including autonomic arousal, anxiety, and freezing behavior, while thalamic and basal forebrain pr

46 om dynamics, which also coincided with mouse freezing behaviors.

47 ation coincided with the appearance of mouse freezing behaviors.

48 Despite its spin-freezing behaviour, other features-including its negativ

49 rus outbreak due to commercially distributed frozen berries identified in the United States.

50 Samples of frozen breasts from chickens slaughtered at 42 days of a

51 in bubbles in and under the ice during fall freeze (bubble release), and diffusion of CH(4) from sed

52 Herein, a directional freeze-casting and annealing approach is reported for th

53 the mouse, starting from freshly isolated or frozen cell suspensions.

54 -thin regions (called lamella) in the intact frozen cells.

55 illed block-face EM across entire vitreously frozen cells.

56 to four times higher contribution of autumn freeze CH(4) emission to total annual emission than that

57 a systematic toolbox for profiling fresh and frozen clinical tumor samples using scRNA-Seq and snRNA-

58 rasses productivity can be limited by severe freezing conditions in some geographical areas, although

59 l across a wide temperature range, including freezing conditions, is demonstrated.

60 Ten frozen cuttlefish samples did not reveal any treatment,

61 crowaves during freezing process caused less freeze damage than the control condition.

62 d or PEF treated cells that were immediately freeze-dried after the pre-treatment was neither effecti

63 ion and two different techniques of RP using freeze-dried bone allograft (FDBA) and a nonresorbable d

64 aft of 70% mineralized and 30% demineralized freeze-dried bone allograft (FDBA) evaluated at 8 to 10

65 TCP), for ARP purposes [Group A] compared to freeze-dried bone allograft (FDBA) particles covered wit

66 Holographic projection images on freeze-dried cells have been recorded using highly coher

67 rotene, lutein, and alpha-tocopherol) in the freeze-dried CRF material was measured over 84 days; the

68 Freeze-dried double emulsion (FDE) microcapsules possess

69 The ROSALIND system can be freeze-dried for easy storage and distribution, and we a

70 The freeze-dried insects' bodies were sonicated into powders

71 tioxidant capacity compared to 25.3% for the freeze-dried maqui powder.

72 nt enables to differ dark-dried samples from freeze-dried ones.

73 -1) dw (~65% of the total oil content of the freeze-dried POC matrix), as predicted by RSM.

74 Compared with freeze-dried POC, the oil contained more phytosterols (1

75 A certified reference material, five freeze-dried samples and three fresh samples were analys

76 In this qualitative study, extracts from freeze-dried savoy cabbage, broccoli, kale and spinach w

77 uum, and samples are typically analyzed in a freeze-dried state.

78 oncentrations of E(39)PAHs were 1004 ngg(-1) freeze-dried weight (fdw) and 1390 ngg(-1) fdw for liver

79 We used freeze drying (FD), hot-air drying (HD) at 50 degrees C

80 we demonstrate a novel and general hydrogel-freeze drying strategy for the synthesis of reduced grap

81 aining sunflower oil (SO) were fabricated by freeze drying technique.

82 Microstructure changes were least after freeze drying, but were still evident compared with fres

83 leaves were best dried with microwaving and freeze drying, respectively for optimal antioxidant and

84 g methods (conductive hydro-drying - CHD and freeze-drying - FD) on the physical and functional prope

85 tion in aqueous buffer for 24 h, followed by freeze-drying and extraction, led to a large improvement

86 Freeze-drying and oven-drying at 75 degrees C yielded po

87 grees C), vacuum- (50, 70, 90 degrees C) and freeze-drying and to evaluate the interactions between b

88 promotes their excellent dispersion, while a freeze-drying can retain the hydrogel derived three-dime

89 In addition, freeze-drying caused a relative loss of short chain fatt

90 e average size and volume (RPD > 3.0), while freeze-drying improved assessment of chemical (RPD > 3.2

91 ced a jabuticaba powder rich in PC, and that freeze-drying is a higher cost method, the choice betwee

92 The freeze-drying of the extracts allowed better dissolution

93 Thanks to an innovative freeze-drying procedure, we developed a user-friendly, r

94 Among the drying techniques applied, freeze-drying resulted in the highest retention of polyp

95 Encapsulation by freeze-drying using maltodextrin, gum Arabic and inulin

96 The physicochemical results showed that freeze-drying was more effective to form inclusion compl

97 extraction (1:20) and microencapsulation by freeze-drying were performed.

98 Moreover, our data suggest that the freeze-drying would decrease crocins content, and dark-d

99 moisture-to-protein levels were achieved by freeze-drying, incubation of samples at different relati

100 and RES of >200 ug/mg in formulations after freeze-drying.

101 often show potentiated startle magnitude and freeze duration.

102 Autumn freeze exhibits significantly higher CH(4) flux (0.88 +/

103 mples; 25 of these had direct FFPE vs. fresh frozen (FF) replicates, 57 were sequenced in 2 different

104 lin-fixed paraffin embedded (FFPE) and fresh frozen (FF) sequential patient-matched breast tumour sam

105 DNA isolated from DFPE and fresh frozen (FF) tissues were sequenced by NGS.

106 d in Barcelona, Spain and included 112 fresh frozen (FF, median age 69, 44% women) and 163 formalin-f

107 in in situ liquid SIMS provides a convenient freeze-fixation of biological samples and leads to more

108 rried out using the double-freeze technique (freeze for 3 min, thaw for 5 min, and freeze again for 3

109 yed freezing up to 24 h and repeated thawing/freezing for up to three cycles) affects the measured sN

110 Aliquots were frozen for testing on different diagnostic platforms, as

111 methods, such as 3D quantitative imaging or freeze-fracture replica labeling.

112 microscopic analysis of immunogold-labelled freeze-fracture replicas confirms that GABA(B)Rs are hig

113 Fresh stool collections were flash frozen from 236 infants at <=6 time points.

114 yphenols, vitamin C and folates in fresh and frozen fruits using HPLC-UV analyses.

115 sical studies of the isolated molecules in a frozen glass, in combination with DFT/MRCI calculations,

116 d lifetimes was assessed in fluid solutions, frozen glassy matrices, amorphous solids, and crystallin

117 The sensitivity of permanently frozen ground (permafrost) in the Northern Hemisphere to

118 successfully conduct 3D molecular imaging of frozen homogenized milk and observe network structures o

119 lation of nuclei of specific cell types from frozen human tissue, followed by bulk RNA-Sequencing.

120 X-ray holographic nanotomography on "thick" frozen-hydrated cells.

121 er show that the method can be used to study frozen-hydrated specimens of rotavirus double-layered pa

122 We discover that analysis in the frozen-hydrated state yields a 10 000-fold increase in s

123 Here, we developed FIN-Seq (Frozen Immunolabeled Nuclei Sequencing), a method that a

124 have poor thermal stability; heating and/or freezing impairs their potency.

125 es with an AIE history demonstrated elevated freezing in a contextual fear conditioning paradigm.

126 Conditioned freezing in response to a tone paired with a weak footsh

127 Rayleigh scattering, arising from frozen-in density fluctuations in the glass, fundamental

128 ere equivalent in terms of locomotion (e.g., freezing induced by looming and sound) could be discrimi

129 aP uses a hetero-bifunctional crosslinker to freeze interacting proteins in place on RNA and then map

130 exception to this success, pure metals that freeze into face-centered cubic crystals with little to

131 he long-range fluctuating spin state without freezing into an ordered magnet or a spin glass at low t

132 to (Z)-10-tritriacontene and the traditional freeze-killed brood assay for selection of hygienic hone

133 l-internal reflection (TIR)-we elucidate the freezing kinetics during the solidification of a droplet

134 ead fractions likely consist of mostly newly frozen leads that reduce any pre-existing low-level clou

135 We find that newly frozen leads with large sensible heat flux but low laten

136 and protein oxidative stability of long-term frozen lean beef produced using stepwise in-bag ageing p

137 ent in a cortical region distal to (>0.7 mm) freeze-lesion-induced microgyrus, instead of near the mi

138 ivity to humidity, and the stress induced in frozen liquids inhibit ILs from constituting an ideal pl

139 the effect of low energy microwave assisted freezing (MAF) on freezing time and quality attributes (

140 lute concentrations in the unfrozen water of frozen meat is the primary cause of myofibrillar protein

141 In contrast, if these reflections were frozen melt sills, they would imply the presence of thic

142 ortem plasma-derived cell-free DNA and eight frozen metastatic cancer tissues collected during rapid

143 We then used the in situ freezing method to study the effects of acute beta-adren

144 task performance, suggesting that oculomotor freezing mitigates potential detrimental, concomitant ef

145 experiments were terminated, cell lines were frozen, mouse colonies were culled, and trainees were pr

146 pting an optical technique in the context of freezing-namely, total-internal reflection (TIR)-we eluc

147 Individuals with freezing of gait (FoG) due to Parkinson's disease (PD) h

148 Freezing of gait (FoG) in Parkinson's disease involves d

149 e of effective motor output and give rise to freezing of gait as clinical endpoint.

150 ncrease or decrease the threshold to express freezing of gait.

151 The atomic displacements associated with the freezing of metals and salts are calculated by treating

152 ownwelling infrared flux and accelerates the freezing of sea ice.

153 states, while nuclear motion is essentially frozen on this timescale.

154 fecal sample that was processed into aFMT by frozen, opaque, and odorless capsules.

155 viable option, but not when associated with freezing or immobility.

156 eus RNA-Seq (snRNA-Seq) is needed to profile frozen or hard-to-dissociate tumors.

157 re expected to increase as massive stocks of frozen organic matter in permafrost are liberated in a w

158 gluon plasma until expansion of the universe freezes out the mass distribution to ~ 10(-24) kg to ~ 1

159 ili samples with acetonitrile and cleaned by freeze-out.

160 andmass is drained by rivers that seasonally freeze over.

161 onocytes, and CD3 + T cells were sorted from frozen peripheral blood mononuclear cells from 11 RV-inf

162 Frozen permafrost Pleistocene mammal carcasses with soft

163 he first time that a MAF process is used for freezing plant-based products and showed that the applic

164 albumin dissolvent (68.1%) compared to fresh frozen plasma (28.6%) and sterile water (20.0%) (P = 0.0

165 fused with all three blood components (fresh frozen plasma [FFP], PLTs, and cryoprecipitate) versus 8

166 Fresh frozen plasma and immunoglobulins were administered afte

167 ed risk of VTE, whereas transfusion of fresh frozen plasma had no effect.

168 At week 6, 159 frozen plasma samples from Burkina Faso and South Africa

169 Patients who met inclusion criteria had frozen plasma samples tested for HIV-1 viral load.

170 ce of perchlorate salts that depress water's freezing point to ~-60 degrees C, our approach provides

171 on of metastable polymorphs, a depression of freezing points, and the formation of crystals with pref

172 We applied this method to frozen postmortem samples of human cerebral cortex and r

173 esulted in the correct identification of all frozen poultry samples instead of 93%.

174 Supercooling, or subzero non-freezing, preservation completely avoids ice formation a

175 ed that the application of microwaves during freezing process caused less freeze damage than the cont

176 temperature profile was monitored during the freezing process, and the microstructure was examined us

177 verage power of 167 and 222 W/kg) during the freezing process.

178 iling on mixtures of cell lines, nuclei from frozen prostate tumors, and biopsy washes.

179 The process of freezing proteins is widely used in applications ranging

180 ryogenic sample handling and a high-pressure freezing protocol compatible with mass spectrometry.

181 Here, we achieved freeze quench trapping of six coordinated [Fe(V) =O,(OH)

182 A combination of kinetic measurements, freeze-quench (57)Fe Mossbauer and infrared spectroscopi

183 monitoring the decay of Omega through rapid freeze-quench trapping at progressively longer times we

184 inetic studies and EPR measurements of rapid freeze-quenched samples of the NADH reduction of FdsBG i

185 e stool specimens matched norovirus found in frozen raspberries imported from China that were used to

186 ne additional freezing-thawing cycle at slow freezing rate caused appearance of a 160 kDa myosin-4 fr

187 uivalent to those of conventionally prepared frozen reference BMD panels for a number of drugs, inclu

188 The validation was performed using custom frozen reference BMD panels prepared in-house at the Cen

189 iation at temperatures above the homogeneous freezing regime that starts near -35 degrees C.

190 Freezing-related midbrain regions project to the cerebel

191 fore extinction testing reduced the level of freezing response in MK-801-treated rats to control leve

192 0-95% of the maximal respiratory capacity in frozen samples and can be applied to isolated mitochondr

193 , detected in fresh tissue, are preserved in frozen samples years after collection.

194 rofiling with minimal tissue pretreatment in frozen samples.

195 overage than destructive and labor-intensive frozen section analysis techniques.

196 y apparent tumor was removed, intraoperative frozen sections were sent.

197 nsistent with this, phyB mutants exhibited a freezing-sensitive phenotype, whereas phyB-overexpressio

198 Consistent with these results and freezing sensitivity of ost1 mutants, the cold-induced [

199 lease are costly and invasive treatments for frozen shoulder, but their effectiveness remains uncerta

200 nts were adults (>=18 years) with unilateral frozen shoulder, characterised by restriction of passive

201 spiration is highly temperature sensitive in frozen soils, as liquid water and solute availability de

202 her growth of the focal plant in all but the frozen soils.

203 ng much of the Arctic winter, despite deeply frozen soils.

204 ertussis A total of 1,103 fresh and residual frozen specimens from eight clinical sites were tested.

205 ed on the low temperature embedding of fresh frozen specimens into a hydrogel matrix composed of hydr

206 Fatty acids were extracted from frozen sperm in 1:2 (v/v) chloroform-methanol solvent, f

207 oth in different proportions and dried using freeze, spray, and vacuum (50, 70, and 90 degrees C) dry

208 ical testing are stored in a refrigerated or frozen state prior to use.

209 Systems of highly degenerate frozen states may exhibit the rare and counterintuitive

210 Frozen stool samples were collected from 10 healthy volu

211 olite composition in healthy participants in frozen stools.

212 ation in lemon juice solution), freezing and frozen storage (FS) on single and total polyphenols (fre

213 protein oxidative stability during long-term frozen storage compared to unaged beef.

214 Frozen storage did not substantially alter IUPM (-18%(-5

215 ity and gel network stability increased upon frozen storage due to protein denaturation.

216 The molecular changes during frozen storage increased the browning reactions due to p

217 The effect of frozen storage on the chemical properties and ingredient

218 ferent abundance between fresh and long term frozen storage were identified using two-dimensional pol

219 Major changes occurred in the first week of frozen storage.

220 ne synthase isoform were up-regulated during frozen storage.

221 er amounts of accessible micronutrients than frozen strawberries, while increased bile contents in in

222 Osl1 adapted to freezing stress by repressing the GABA shunt activity, a

223 analysis revealed higher adaption of Osl1 to freezing stress.

224 with subsequent cold acclimation followed by freezing stress.

225 ial symbionts in plant tolerance to cold and freezing stresses.

226 Freezing successfully inhibited the growth of microorgan

227 cryotherapy was carried out using the double-freeze technique (freeze for 3 min, thaw for 5 min, and

228 rating flexible chains; the network topology freezing temperature decreases with increasing MW of fle

229 In the southeastern United States, freezing temperatures control the northern range limits

230 Such near-freezing temperatures have not previously been reconstru

231 nents related to sustained NPQ in spruce: 1) Freezing temperatures induce 3p-LHCII accumulation indep

232 Although Brazilian pepper is sensitive to freezing temperatures, temperature controls on its north

233 ss-of-function mutants are more sensitive to freezing temperatures, whereas Atga2ox10 loss-of-functio

234 n boreal forests can survive extremely cold (freezing) temperatures during long dark winter and fully

235 Freeze-thaw cycle dynamics play a critical role in contr

236 The effect of freeze-thaw cycles (0 or 1) and time to erythrocyte remo

237 rage-time, storage-temperature, and repeated freeze-thaw cycles on circulating BDNF concentrations wa

238 been stressed by low pH, heat, and multiple freeze-thaw cycles.

239 ress, storage at room temperature, and three freeze-thaw cycles.

240 ere used to determine the effect of multiple freeze-thaw cycles.

241 separator tube, storage-time, and number of freeze-thaw cycles.

242 estigated by micro-flow imaging (MFI) during freeze-thaw cycling in phosphate buffered solutions.

243 l temperatures cannot completely reflect the freeze-thaw processes in deeper soil layers and appears

244 Here, we analyze freeze-thaw processes through in situ CO(2) and CH(4) fl

245 A "freeze-thaw" treatment on seeds of red vinifera cultivar

246 optimised protocol (30 min standing time, 0 freeze-thaw) were used, resulting in high diagnostic acc

247 SPMS samples that had experienced additional freeze-thaw, and increased standing times of 120 and 240

248 s the retention of volatile components after freeze-thaw.

249 -80 degrees C and -20 degrees C for 2 weeks (freeze/thaw stability).

250 illage, traffic compaction, swell/shrink and freeze/thaw) and biological (e.g. plant root growth, soi

251 tration of some metabolites in reference and frozen-thawed fish during its storage.

252 ause of myofibrillar protein denaturation in frozen-thawed meat.

253 and/or thawing media enhanced the ability of frozen-thawed oocytes to resume meiosis.

254 esh poultry, visually indistinguishable from frozen-thawed poultry, presents an attractive target for

255 One additional freezing-thawing cycle at slow freezing rate caused appe

256 Freezing-thawing minced pork reduced water-holding of my

257 iding new insight on protein denaturation in freezing-thawing.

258 ion occurred by a comparable mechanism as in freezing-thawing.

259 It was found that salmon freezing/thawing caused a significant increase in the co

260 use strains have been cryopreserved by sperm freezing, the likelihood of cryorecovery success cannot

261 ually observed in 2D hexagonal crystals, and freeze these samples during growth to identify the inter

262 energy microwave assisted freezing (MAF) on freezing time and quality attributes (microstructure, te

263 Furthermore, freezing time is positively correlated with the release

264 tional genomic data sets from primates using frozen tissue samples, including many data sets from our

265 jective diagnosis in minutes using a routine frozen tissue section.

266 l intraoperative histopathologic analysis of frozen tissue sections can be time-consuming and present

267 in situ probes that can be applied to fresh-frozen tissue sections in a manner analogous to immunofl

268 Importantly, oxidative degradation of fresh-frozen tissues begins within the normal time scale of MA

269 Histological sections of frozen tissues were stained by immunohistochemistry and

270 eruleus (LC) neurons decreases and increases freezing to aversively conditioned cues, respectively.

271 ion, then subjected neurons to high-pressure freezing to examine their morphology by electron microsc

272 e glomerulus with foot shock in mice induces freezing to light stimulation alone during fear retrieva

273 apid Defence Cascade (DC) response (startle, freeze) to sudden unexpected stimuli is a potential indi

274 that in Arabidopsis, AtGA2ox9 contributes to freezing tolerance and AtGA2ox10 regulates seed producti

275 ent of electrolyte leakage to determine leaf freezing tolerance and expression analyses of cold-respo

276 nd vernalization, which respectively lead to freezing tolerance and flowering competence.

277 ts downstream of CBFs to positively regulate freezing tolerance by modulating the expression of stres

278 of function of AtANN1 substantially impaired freezing tolerance, reducing the cold-induced [Ca(2+) ](

279 eins, all of which negatively regulate plant freezing tolerance, were destabilized by cold stress in

280 ance for cold acclimation and acquisition of freezing tolerance.

281 olved in cold acclimation and acquisition of freezing tolerance.

282 ression transgenic plants displayed enhanced freezing tolerance.

283 nto the effects of symbionts on the cold and freezing tolerances of plants, concluding that further s

284 mate change on the wintering energetics of a freeze-tolerant amphibian, the Wood Frog (Lithobates syl

285 ies reversibly binds N(2) in solution: flash frozen toluene solutions of 1 disclose entirely differen

286 achypodium distachyon, we designed a diurnal-freezing treatment (DF) that emulates summer-to-winter c

287 riation in pre-analytical variables (delayed freezing up to 24 h and repeated thawing/freezing for up

288 Repeated thawing and re-freezing up to three times did not change measured sNfL

289 towards autumn, possibly linked to the ocean freeze-up and a seasonal rise in ozone.

290 H(4) emissions during spring thaw and autumn freeze using eddy covariance CH(4) measurements from thr

291 Models also estimated the effect of testing frozen versus fresh samples.

292 Tone-elicited freezing was lower after PRF conditioning than fully rei

293 ld that depends directly on the shape of the frozen water layer set by the support foil.

294 otides from monophosphorylated precursors in frozen water-ice.

295 ing multistress tolerance to desiccation and freezing, we conducted an exhaustive seasonal assessment

296 ssNMR spectra on the time between mixing and freezing, we find that the N-terminal portion of M13 con

297 Water in nature predominantly freezes with the help of foreign materials through a pro

298 entrations remained stable when samples were frozen within 24 h (mean absolute difference 0.2 pg/ml;

299 unaffected at 4-8 degrees C when samples are frozen within 24 h and single aliquots can be used up to

300 es from the pyrG promoter using soak-trigger-freeze X-ray crystallography.