ライフサイエンスコーパス: thermal stability

1 unit, had the highest degree of physical and thermal stability.

2 (+)/H(+) antiport in EcNhaA, but has reduced thermal stability.

3 terials exhibited exceptional solubility and thermal stability.

4 detection due to its radiation hardness and thermal stability.

5 cient for analyses of their antigenicity and thermal stability.

6 glet triplet energy gaps and possess limited thermal stability.

7 f 347 m(2) g(-1) , high purity, and enhanced thermal stability.

8 e performance, improved cycle stability, and thermal stability.

9 , remarkable adsorption affinities, and good thermal stability.

10 ucture, porosity, elemental composition, and thermal stability.

11 y of the IgA antibodies but did affect their thermal stability.

12 igh glass transition temperatures and robust thermal stability.

13 ght distributions, with little impact on the thermal stability.

14 ng the optical properties, and improving the thermal stability.

15 strated that both YSZ and ZTA have excellent thermal stability.

16 rs benefits including lower noise and better thermal stability.

17 n the SWCNTs, and effectively enhances their thermal stability.

18 asing attention because of their outstanding thermal stability.

19 protein, yet this mutant displays increased thermal stability.

20 t polysaccharides with substantially reduced thermal stability.

21 alue of the exchange bias field and its good thermal stability.

22 resulting in an increase of 18 degrees C in thermal stability.

23 iary structure, conformational dynamics, and thermal stability.

24 backbones, thereby enhancing the density and thermal stability.

25 stigated for their mechanical properties and thermal stability.

26 o 90 degrees C, possibly due to their higher thermal stability.

27 otein-protein binding affinities and protein thermal stability.

28 8 degrees C, indicating unexceptional global thermal stability.

29 micropore volume with limited impact on its thermal stability.

30 o study the enzyme-substrate interaction and thermal stability.

31 ontributes to the high strength and superior thermal stability.

32 the mutant HAs also displayed reduced pH and thermal stability.

33 me activity caused by a marginal loss of its thermal stability.

34 bottom-up approach with high efficiency and thermal stability.

35 ty of beta-CD increased its surface area and thermal stability.

36 to confer significant improvements in phage thermal stability.

37 151T mutation dramatically decreased H7N9 HA thermal stability.

38 and they often suffer from low photo- and/or thermal stability.

39 They had a lower pH of fusion and increased thermal stability.

40 water (70:30) extracts displayed the highest thermal stability.

41 ty, high porosity, nanoscale regularity, and thermal stability.

42 he preparation of vitrimers with exceptional thermal stability.

43 almost unchanged, demonstrating an excellent thermal stability.

44 g materials with high surface areas and high thermal stabilities.

45 teration of DNA helical structure or reduced thermal stabilities.

46 t, soft multifunctional composites with high thermal stability(1) and electrical conductivity(2-4) th

47 Indeed, while having a high thermal stability, 2 is able to cleave sp(3) C-H bonds u

48 Palm stearin had high thermal stability (7.23h).

49 2.9Ga/Co2MnSi]n superlattices, which attains thermal stability above 400 K and a coercive field up to

50 that 5-hydroxy-1,4-naphthalenedione has high thermal stability above 500 degrees C.

51 Thermal stability against crystallization upon isobaric

52 Modifying G11 results in increased thermal stability, albeit with a K d 4-fold larger than

53 thin films, having high chemical as well as thermal stability, also hold the merit to tune the thick

54 The VZV capsid has high thermal stability, although with relatively fewer intra-

55 They differed in their K(m)s, thermal stabilities and energies of activation.

56 Thermal stability and 1-anilinonaphthalene-8-sulfonic ac

57 beta-CD to increase blackberry anthocyanins thermal stability and also to decrease the rate of degra

58 ausing exposure of hydrophobic groups, lower thermal stability and also, shorter thermal treatments n

59 any material, while also possessing extreme thermal stability and an unmatched spectral absorbance.

60 /desorption of polyphenols onto NCBR and the thermal stability and antioxidant activity of the polyph

61 Furthermore, an improvement of thermal stability and antioxidant properties was observe

62 The thermal stability and antioxidative capacity of the addu

63 Thermal stability and arrhenius plots suggested that the

64 fficiency through their reduced mass, higher thermal stability and better mechanical properties than

65 s had a spherical morphology, presented good thermal stability and can be stored at a temperature ran

66 e C-terminal FXXF motif in PKAc regulate its thermal stability and catalysis.

67 oordinated by negative residues critical for thermal stability and catalysis.

68 alysts, simultaneously meeting the stringent thermal stability and catalytic activity standards for c

69 ll-defined {111} facets, as well as enhanced thermal stability and catalytic activity.

70 in situ growth of nanoparticles offers high thermal stability and coking resistance, a low reduction

71 ic anisotropy, which plays a crucial role on thermal stability and critical writing current, remains

72 Thermal stability and crystallization of three multicomp

73 Moreover, the defatting process improved thermal stability and decreased the peak viscosity of th

74 SAR is desirable for improved zeolite (hydro)thermal stability and enhanced catalytic performance, wh

75 up exciting new possibilities to enhance the thermal stability and expands the processing parameters

76 The mutant Abs have normal thermal stability and Fcgamma receptor interactions.

77 Our aerogels display robust mechanical and thermal stability and feature ultralow densities down to

78 Data on physicochemical characterization, thermal stability and food safety of SCG were acquired.

79 in composition and length, leading to their thermal stability and functional properties.

80 extracellular domain of TpoR to induce TpoR thermal stability and initial intracellular activation,

81 High thermal stability and insensitivity to aggregation-induc

82 ordered structure was reflected by a higher thermal stability and melting enthalpy changes of the st

83 rque strength Pt/Co/Ta stack, to improve its thermal stability and perpendicular magnetic anisotropy

84 The thermal stability and porosity of Pu-UiO-66 were experim

85 raints provided by aza-glycine increases the thermal stability and rate of folding in collagen peptid

86 However, all mutants displayed lower thermal stability and reduced ion transport activity com

87 ble dynamic properties coupled with the high thermal stability and reprocessability of silyl ether-ba

88 s in the first generation THPIs by enhancing thermal stability and selectivity.

89 Aza-glycine considerably improves collagen's thermal stability and self-assembly properties without c

90 yrroles are endowed with a high chemical and thermal stability and solubility in organic solvents.

91 Based on thermal stability and solubility measurements, it is fou

92 ortantly, the ternary OSCs exhibit excellent thermal stability and storage stability while retaining

93 is central to the study of a prokaryote, the thermal stability and temperature dependent activity of

94 To test this, the thermal stability and the ATPase activity of the ZIKV NS

95 oO/3DOM Co3O4 nanocatalysts exhibited better thermal stability and water tolerance ability compared t

96 Furthermore, 1 has high photo- and thermal-stability and is tolerant to humidity.

97 cooking on meat proteins (molecular size and thermal stability) and muscle structures (molecular, mic

98 charge dynamics, defects, and colloidal and thermal stability), and band structure (band gap, band e

99 , mechanical strength, optical transparency, thermal stability, and chemical resistance will promote

100 and gap polymer exhibits excellent photo and thermal stability, and despite a large pi-pi stacking di

101 00 nm), high homogeneity and stability, high thermal stability, and encapsulation efficiency caroteno

102 t affect its structure and integrity but its thermal stability, and FcalphaRI N-glycans significantly

103 rication, higher mechanical properties, high thermal stability, and many more.

104 hem with regard to their enzymatic activity, thermal stability, and propensity to aggregation.

105 similar to wild-type IL-23 (monomeric state, thermal stability, and secondary structural features).

106 and energetic properties, including density, thermal stability, and sensitivity, were investigated, a

107 ctions for decades, providing high activity, thermal stability, and tolerance to chemical poisons.

108 eworks display good solution-processability, thermal stability, and uniform pore-forming capability,

109 bination, on receptor binding, pH of fusion, thermal stability, and virus replication were investigat

110 cture-antioxidant activity relationship, its thermal stability ( approximately 51% loss), and its rea

111 Phase formation and thermal stability are investigated for different thermal

112 The nanogels also exhibited high thermal stability as analyzed by thermogravimetry (TG) a

113 -temperature single atoms exhibit a superior thermal stability as durable catalysts.

114 The alpha-epimer generally conceded similar thermal stability as unmodified nucleotides, whereas the

115 ert and hydrophobic and exhibit an excellent thermal stability as well as an exceptionally low coeffi

116 the active cavity of GALNS and increased its thermal stability as well as the production of recombina

117 lasses formed under white light have reduced thermal stability, as measured by lower density change,

118 unique surface chemistry, high chemical and thermal stability, as well as tailorable pore structures

119 Finally, we modified the thermal stability assay to examine proteome-wide melting

120 entrifugation, dynamic light scattering, and thermal stability assays, we demonstrated that the C ter

121 and CD spectroscopy, we found that P450 21A2 thermal stability assessed in bacterial cells and with p

122 tion, the PNFs show promising mechanical and thermal stabilities at temperatures of up to 200 degrees

123 UV chips, 73.2% quantum efficiency and 90.9% thermal stability at 150 degrees C.

124 d in the cylindrical nanochannels show great thermal stability at 600 degrees C.

125 s, or have limited applicability due to poor thermal stability at high temperatures.

126 me advantages such as good water solubility, thermal stability, biodegradability, and low toxicity, b

127 ructures have very large remanences and high thermal stability-both increasing rapidly with grain siz

128 uence assembled into capsids, which had high thermal stability, bound the sialic acid N-acetylneurami

129 n embryos as well as (ii) increased acid and thermal stability but (iii) lost preferences for binding

130 This study examines the thermal stability by differential scanning fluorimetry (

131 ral principle is demonstrated by a change in thermal stability by more than 30 degrees C as a result

132 ow catalytic activity, electrochemical-, and thermal stability can be concurrently enhanced through t

133 We examine in detail the thermal stability characteristics of equidimensional cub

134 Both F proteins had decreased thermal stability compared to that of the corresponding

135 260 degrees C, suggesting little loss in the thermal stability compared to the polycarbonate.

136 thyl-1-phenylethan-1-imine) exhibited higher thermal stability compared to the previously reported (e

137 *-g* ( ) were modified and used to determine thermal stabilities, concluding that: (i) modifying the

138 The proposed material has high thermal stability, controlled release, and water absorpt

139 e-dimensional (3D) ionic channels, excellent thermal stability, dual functionality (hole/ions transpo

140 peptide-AuNPs nanocomposite reveals enhanced thermal stability, electrical conductivity from the sing

141 bond strength", as evidenced by superlattice thermal stability enhancements of >60 degrees C relative

142 gies approach fundamental limits on size and thermal stability, enhancing functionality through embra

143 which exhibits superior imaging ability and thermal stability even at a high temperature up to 150 d

144 Comparative thermal stability experiments conducted on homo- and het

145 nd the structure explains the loss in duplex thermal stability for the (R) isomer compared with the (

146 The thermal stability for the di- and tri-domain constructs

147 tial proteolytic digestion, as a function of thermal stability, generating different peptide repertoi

148 des (i.e., 4n-1) to have pHT values >7.2 and thermal stabilities >37 degrees C at pH 7.0.

149 accines with adjuvants, frequently have poor thermal stability; heating and/or freezing impairs their

150 In combination with its chemical and thermal stability, high capture efficiency and low cost,

151 owing to their well-defined pore structure, thermal stability, high surface area, and permanent poro

152 d crucially, the crystalline samples display thermal stabilities in good agreement with the trend obs

153 We demonstrate that DYRK1A's thermal stability in cells is increased upon compound tr

154 ctivation of O(2), high O activity, and high thermal stability in harsh conditions.

155 bridge formation in RGS8 and RGS4 decreased thermal stability in RGS8 and increased potency of inhib

156 rom 2D NOESY experiments and exhibits a high thermal stability in solution up to 75 degrees C, sugges

157 red excellent electrochemical properties and thermal stability in tandem.

158 es high-affinity actin binding and decreased thermal stability in vitro.

159 ed that the starch nanoparticles have better thermal stability, increased viscosity and antioxidant p

160 In addition, its outstanding thermal stability inspires us to develop a high temperat

161 early extended B,N-doped heptacene with high thermal stability is designed and synthesized in good yi

162 Enhanced thermal stability is desirable to enable the use of high

163 e cellulose substrate with high chemical and thermal stability is developed.

164 suggest that the impact of SM ligands on GQ thermal stability is not an ideal predictor for their in

165 s their pharmacokinetics and decreases their thermal stability, leading to unreliable photoacoustic i

166 tability of nanocrystals, and BCNCs had high thermal stability like raw BCNFs.

167 inter- and intramolecular interactions, high thermal stabilities, low energy electronic transitions,

168 ogical stability, high binding affinity, and thermal stability make TNA aptamers a powerful system fo

169 ings by semi-quantitative approaches such as thermal stability measurements.

170 nd circular dichroism were used to determine thermal stabilities of all strands, which hybridized int

171 owest unoccupied molecular orbital gaps, and thermal stabilities of the respective derivatives.

172 and thermal analyses indicated an increased thermal stability of all oils after encapsulation.

173 num salts on the phase purity, morphologies, thermal stability of anatase and photocatalytic properti

174 of this promising approach in improving the thermal stability of antigens and vaccine conjugates hig

175 Since HAAs can induce colorectal cancer, the thermal stability of ASE's antiproliferative effect agai

176 f CA with betaLg significantly increased the thermal stability of betaLg.

177 The thermal stability of black CsPbI(3) thin films is vastly

178 oreover, due to the outstanding chemical and thermal stability of BN, the ionic conduits remain fully

179 f the channel, and that tend to increase the thermal stability of both pore-only constructs and full-

180 leaf extracts (AHE and OHE, respectively) on thermal stability of canola oil (CO) and high oleic sunf

181 The kinetic parameters evidence a higher thermal stability of carotenoids and polyphenols, sugges

182 However, the thermal stability of Cel7A limits its use to processes w

183 Here, we enhanced the thermal stability of Cel7A through directed evolution.

184 ential scanning calorimetry revealed reduced thermal stability of collagen in patient-derived dermal

185 tend to match the mechanical properties and thermal stability of conventionally-processed metals, in

186 In this work, the thermal stability of cyanidin-3-O-glucoside (cy3glc) (ma

187 ic proto-peptides significantly increase the thermal stability of folded RNA structures.

188 Even though the impact of SM ligands on thermal stability of GQs is commonly used to characteriz

189 The thermal stability of joints in thermoelectric (TE) modul

190 D/linalool-IC-NFs, due to enhancement in the thermal stability of linalool by cyclodextrin inclusion

191 Notably, as the thermal stability of lipase increased, as indicated by t

192 Here we evaluated the thermal stability of magnetosomes in a temperature range

193 tween the modified residues, which alter the thermal stability of MCR in a combinatorial fashion that

194 Understanding the thermal stability of metallic glasses is critical to det

195 hat is distinct from the macroclimate); (ii) thermal stability of microclimates (e.g. variation in da

196 tralization post-treatment did not alter the thermal stability of nanocrystals, and BCNCs had high th

197 ration step was also examined due to the low thermal stability of nitrosamines.

198 techniques were used to probe the long-time thermal stability of nm-scale Mn-Ni-Si precipitates (MNS

199 Further, the superior thermal stability of NMA to NMC, NCA, and NMCAM is shown

200 formation without substrate to determine the thermal stability of Omega.

201 that can be further extended to improve the thermal stability of other Al(2)O(3)-supported nanocatal

202 The thermal stability of oxaphosphetanes is determined by st

203 Angle dependence and thermal stability of photoluminescence emission arising

204 The thermal stability of PSOP was evaluated by thermogravime

205 Silica particles enhanced the thermal stability of PVDF/SiO2 membranes; increasing the

206 ial Scanning Calorimeter (DSC) showed better thermal stability of resistant starch microcapsules.

207 harge at this position (L118D) increased the thermal stability of RGS19 and decreased the potency of

208 However, in vitro biochemical studies on the thermal stability of Rho showed that Rho decays with a h

209 o scrutinize the thickness dependence of the thermal stability of semicrystalline, liquid-crystalline

210 Finally, the thermal stability of stored CO(2) was investigated by he

211 In this review, the literature on thermal stability of sucralose and the generation of pot

212 Enhancing the thermal stability of SWCNTs is crucial when these materi

213 andom diffusion of In atoms and enhances the thermal stability of the amorphous phase.

214 Thermal stability of the benzophenones, 3-beta-d-glucopy

215 The high thermal stability of the beta-phase enables the FTNG to

216 le linkages formed increase the chemical and thermal stability of the crystals and do not significant

217 nd H(+) transport, charge translocation, and thermal stability of the different variants.

218 reaction (PCR), are based on differences in thermal stability of the DNA duplex, which require exten

219 Higher salt not only maintains thermal stability of the Dumbbell structure in Open-J bu

220 For instance, Closed-J sacrifices thermal stability of the Dumbbell structure to maintain

221 ld be maximized while retaining a reasonable thermal stability of the metastable cyclophanediene isom

222 le, it is important not only to engineer the thermal stability of the photoswitch but also to adjust

223 the glycosidic linkages, molecular mass and thermal stability of the polysaccharide fractions.

224 ites, which likely account for the decreased thermal stability of the protein.

225 The starch source, concentration and thermal stability of the SNP influenced the viscosity an

226 spectroscopy data provide information about thermal stability of the species, and confirm the chemic

227 grees C, which indicated that there was good thermal stability of the starch.

228 Clustered G/AP and A/APs reduced the thermal stability of the wild-type htel-25.

229 ing substituents on the N-aryl moieties, the thermal stability of the Z-isomers could be enhanced whi

230 nanocomposites retain the high porosity and thermal stability of the ZIF-8 matrix, while also exhibi

231 uired for fragmentation, suggest substantial thermal stability of these Mg-metalorganics (CHOMg compo

232 The porous structure and thermal stability of these nanocomposites are characteri

233 Zinc addition had only a small effect on the thermal stability of this mutant.

234 site-specific protein phosphorylation on the thermal stability of thousands of native proteins in liv

235 The microencapsulation increased the thermal stability of VD(3), and FTIR confirmed the prese

236 anning calorimetry results revealed enhanced thermal stability of vesicles after polymeric blend deso

237 d the thermal decomposition and improved the thermal stability of wood.

238 d in the compounds, demonstrating remarkable thermal stability of Z isomers at high temperatures and

239 neto-crystalline anisotropy that brings good thermal stability on the media.

240 addressed, such as low energy density, poor thermal stability or cycle stability, and large interfac

241 servation of spin angular momentum, and high thermal stability owing to the enhanced interfacial PMA

242 lycans at these positions exhibits increased thermal stability, polypeptide accessibility and cerulop

243 r dynamics simulations, can provide accurate thermal stability predictions for a wide range of biolog

244 Sites with increased thermal stability properties were combined, and a Cel7A

245 ted to be a promising carbon source for high thermal stability red pigment production (activation ene

246 The high thermal stability, refolding capacity, and resistance to

247 increasing trends in onset and breakdown of thermal stability, respectively, so that the duration of

248 cytosine tract lengths resulted in increased thermal stability; sequences with at least five cytosine

249 stimation, SDS-PAGE, GPC, color, FT-IR, DSC, thermal stability, solubility, emulsifying, foaming and

250 We then performed biochemical and thermal stability studies of the purified ARD by the mea

251 ytic efficiency, in addition to reusability, thermal stability, substrate specificity, stereoselectiv

252 carbonate) and, specifically, they show good thermal stability (T(d,5) ~ 280 degrees C), high toughne

253 negligible performance loss after a 400-hour thermal stability test at 85 degrees C and also after 40

254 es, and some of them exhibit: i) outstanding thermal stability tested up to 1230 K, ii) exceptionally

255 RNA-monomer into a DNA strand and performing thermal stability tests of the resulting DNA and RNA-dou

256 ch sources had lower crystallinity and lower thermal stability than did the native starches or SMP.

257 ence of nuclease and exhibit markedly higher thermal stability than monoclonal antibodies.

258 a lower decomposition temperature and higher thermal stability than native starch films.

259 The immobilized enzyme presented higher thermal stability than the free enzyme from 40 degrees C

260 a(S/R)-bm-PNA:DNA 2 complexes exhibit better thermal stability than the isolated duplexes, and the Cg

261 Known for its excellent chemical and thermal stability, the unique SF5 functionality is also

262 results provided information concerning the thermal stability, thermal decomposition, identification

263 the cross-section and contributed remarkable thermal stabilities to the MCS membrane.

264 one ester bonds generally promote RNA duplex thermal stability to a greater magnitude than do analogo

265 es, only the LAF radicals possess sufficient thermal stability to be viable species.

266 YWCPs provided significantly higher thermal stability to curcumin (91.8 +/- 1.0% and 99.7 +/

267 ngthens the anchoring and provides excellent thermal stability to the nanoparticles.

268 The polymers show high thermal stability to weight loss and can be easily fabri

269 Moreover, CPM-74 has high hydrothermal and thermal stability uncommon for Zn-MOFs.

270 ition devices exhibit significantly improved thermal stability under continuous heating at 85 degrees

271 gh hardness (comparable to fused quartz) and thermal stability up to 300 degrees C.

272 as well as an improved specific strength and thermal stability up to 400 degrees C compared to other

273 tests, strong resistance under UV light, and thermal stability up to 400 degrees C.

274 wed similar thermal characteristics, such as thermal stability up to about 253 degrees C, while also

275 protein versions show considerably increased thermal stability (up to 29 degrees C increased melting

276 xhibit outstanding properties including high thermal stability (up to 450 degrees C) and aqueous stab

277 ine (PMDA-ODA) (Kapton), exhibit exceptional thermal stability (up to approximately 600 degrees C) an

278 Moreover, Vn acquires thermal stability upon association with either calcium i

279 Thermal stability, viscosity, solubility and experimenta

280 exes where it was demonstrated that a higher thermal stability was associated with isoguanine and iso

281 Remarkable increase in thermal stability was observed as compared to soluble en

282 l oxide acidic catalysts to provide improved thermal stability, water tolerance, and yields.

283 nisms underlying bacterially enhanced virion thermal stability, we identified and characterized a pol

284 Their relative thermal stabilities were measured and were consistent wi

285 NO aqueous solubility, photo- and thermal stability were enhanced and the release could be

286 Fold and thermal stability were evaluated by circular dichroism a

287 chains (DP 13-26), average chain length and thermal stability were higher in CDCP and CDCA.

288 Further, no changes in thermal stability were observed between enzymes.

289 sorption isotherms at 25 degrees C and lower thermal stability when evaluating the thermogravimetric

290 duced non-nAb epitope exposure, and increase thermal stability while maintaining bnAb antigenicity.

291 The resulting thermoset showed exceptional thermal stability while maintaining malleability/reproce

292 he L217Q mutation enhanced the H7N9 acid and thermal stability while the A151T mutation dramatically

293 All the EGs showed optimal thermal stability, while colour and texture parameters w

294 t ground state at room temperature, and good thermal stability with onset of decomposition at ~160 de

295 at a modest electric field, along with high thermal stability within a broad temperature range span

296 ends in either surface water temperatures or thermal stability within lakes, and only 8.4% was explai

297 mically crosslinked xLCE shows unprecedented thermal stability within the working temperature range (

298 nal results suggest that the ability to tune thermal stability without affecting the dyes' absorption

299 The cage shows extreme chemical and thermal stability, yet it readily disassembles upon expo

300 the bulk is known to enhance structural and thermal stability, yet the exact influence of aluminum a