ライフサイエンスコーパス: inert

1 renders most of these peptides biologically inert.

2 xes, while the 2-O, sulfinato, analogues are inert.

3 ng the small-molecule activator biologically inert.

4 ly consisted of glass, which is biologically inert.

5 data that showed they were transcriptionally inert.

6 vealing that the eggshell is immunologically inert.

7 ing because they are considered functionally inert.

8 sis reactions and are frequently regarded as inert.

9 462 K, while the Ru(III) site is completely inert.

10 challenge because these molecules are often inert.

11 monolayer coverage is successfully grown on inert 2 in.

12 reas an Ir/C nanoparticle catalyst is almost inert (~4.8 x 10(-3) [Formula: see text]).

13 E to Z isomer of m-BTA in the copolymer with inert a-BTA.

14 nts (PLOPs) into blood from their storage in inert adipose tissue during rapid weight loss.

15 We show that chemically inert AFM tips terminated by an oxygen adatom provide ex

16 ssociated muscle fibers within biochemically inert agarose gels tuned to mimic native tissue stiffnes

17 nce of evaluating the fate of this class of "inert" agrochemicals.

18 The molecules bear electronically inert alkyl chains of different length and bulkiness, at

19 n of a primary amide group from a chemically inert alkyl group.

20 Sorption to redox-inert aluminum oxide (Al(2)O(3)) was recently found to a

21 preclude conventional reactivity that forms inert amide byproducts.

22 ective moieties, enabling the use of protein-inert amines for selective protein modification.

23 Here, we describe the synthesis of inert analogs that mimic substrate glutamyl-tRNA(Glu) an

24 We identify immunologically-inert and -active syngeneic-tumor types and show that in

25 active elements atomically dispersed in more inert and catalytically selective host metals.

26 cated that the Fsq:FAD complex is relatively inert and does not share common properties with electron

27 ning solid-state materials is limited by the inert and gaseous nature of N(2).

28 atures because they generally are chemically inert and held together by strong covalent bonds.

29 lar-mass materials and waxes, are chemically inert and hydrophobic and exhibit an excellent thermal s

30 eral belief that an SEI is electrochemically inert and its formation irreversible.

31 In its nature, DNA is chemically inert and nanostructures based on unmodified DNA mostly

32 ld-bound chloride anion of [3](2+) is rather inert and necessitates the addition of excess AgNTf(2) t

33 his Cas9 activator to render it biologically inert and photoactivatable, and employing next-generatio

34 an indicator that the organic binder is not inert and plays a role in the dating strategy.

35 cteristics with a predominance of esters and inert and stable components.

36 larly when flexible, lightweight, chemically inert, and electrically insulating thermal conductors ar

37 have recently been proposed to serve as the "inert" anode for molten oxide electrolysis (MOE).

38 ral immunity and in maintaining tolerance to inert antigens.

39 ve insertion of the metal into the otherwise inert arene ring C-C bonds.

40 logy that uses solvated electrons to convert inert arenes to 1,4-cyclohexadienes-valuable intermediat

41 c cycle to enable the use of many previously inert aryl bromides.

42 rough one electron oxidation, the relatively inert aryl cyclopropanes are readily converted into reac

43 to the 2H-MoS(2) basal plane renders MoS(2) inert as an electrocatalyst for the hydrogen evolution r

44 the cloaked caged compound was biologically inert at the high concentrations required for multiphoto

45 eparation of NHCs-based SAMs either requires inert atmosphere and strong base for deprotonation of im

46 find that organic solar cells packaged in an inert atmosphere can be extremely stable, which is promi

47 promise as highly efficient catalysts under inert atmosphere conditions.

48 interfacial layer for Li anodes without any inert atmosphere protection and limitation of chemical r

49 air-sensitive organometallic compounds from inert atmosphere to the ionization source.

50 indicated that the degradation process in an inert atmosphere was governed by decomposition reactions

51 amic materials by radiative heating under an inert atmosphere.

52 set of decomposition at ~160 degrees C under inert atmosphere.

53 e indefinitely stable at room temperature in inert atmosphere.

54 ps upon heating up to 600 degrees C under an inert atmosphere.

55 psulated in hexagonal boron nitride under an inert atmosphere.

56 be conveniently performed without use of an inert-atmosphere glovebox, as demonstrated across severa

57 reaction does not require dry conditions or inert atmospheres for optimal performance.

58 ss is operationally simple, does not require inert atmospheres or dry solvents, and is reported over

59 y challenging, is crucial for activating the inert basal plane for boosting the hydrogen evolution re

60 ve or dead Cryptococcus neoformans cells, or inert beads.

61 The droplets are initially inert because the grafted DNA strands are pre-hybridized

62 % Fe-doped system show the catalyst is redox inert before the onset of catalysis, which coincides wit

63 Finally, a preliminary study on breaking the inert biphenolic moieties in lignin models is illustrate

64 To understand how BPA and the reputedly more inert bisphenol S (BPS) affect the placenta, C57BL6J mou

65 tric reactivity, including the activation of inert bonds.

66 se of high valent oxidants to activate these inert bonds.

67 Administered by itself, KWAR23 is inert, but given in combination with tumor-opsonizing mo

68 nts 'C-H activation' strategies that convert inert C-H bonds into C-metal bonds prior to C-C bond for

69 wer of sMMO-Q necessary to attack the highly inert C-H bonds of methane.

70 gents for the oxidative functionalization of inert C-H bonds, and it was previously shown that rapid

71 been proposed to facilitate the oxidation of inert C-H bonds, reactions that are unknown for histidin

72 eactions, including the functionalization of inert C-H bonds, which is a major challenge for chemists

73 es to an anti-inflammatory state faster than inert calcium silicate-based materials thereby accelerat

74 ytic amplification of proton reduction on an inert carbon fiber electrode.

75 rmance of alpha-MoC(1-x) NPs dispersed on an inert carbon support.

76 e functionalization of molecules by cleaving inert carbon-carbon single bonds is regarded as a great

77 ced from alkane sources (e.g., petroleum) by inert carbon-hydrogen (C-H) bond activation using classi

78 ctive functionalization of strong, typically inert carbon-hydrogen (C-H) bonds in organic molecules i

79 size and cargo occupancy: overexpressing an inert cargo protein or reducing vesicle size restores so

80 rt pathway in intact NPCs in cells: that is, inert cargoes ranging from small proteins to large capsi

81 ials are perceived in the field: from simple inert carriers of radioactivity to activatable nanomater

82 containing the tetraethylammonium (TEA(+) ) inert cation is reported.

83 A new class of the inert-cation-assisted WiS (IC-WiS) electrolytes containi

84 nce the concept that apoptotic cells are not inert cells waiting for removal, but instead release met

85 and capable of the activation of relatively inert chemical bonds, such as those found in dihydrogen

86 oited for the facile activation of otherwise inert chemical bonds.

87 e advances in high-throughput detection, the inert chemical nature of Nm still limits sensitivity and

88 alonate pathway by converting cholesterol to inert cholesterol esters, thereby preventing the negativ

89 metal-organic framework (MOF) to activate an inert CO(2) carboxylation reaction and in situ monitor i

90 corn oil, which was intended to serve as an inert comparator (n = 6539), in addition to usual backgr

91 K(MnL) = 19.01, pMn = 9.27) and kinetically inert complex with Mn(II) with respect to trans-chelatio

92 ed with poly(styrene sulphonate) (PSS) as an inert component, across a range of degrees of polymerisa

93 Until recently, ice sheets were viewed as inert components of this cycle and largely disregarded i

94 unique spectral signatures and biologically inert compositions of surface-enhanced resonance Raman s

95 in the metal-free activation of particularly inert compounds and elements.

96 velengths during orientation, and that these inert compounds can increase UV reflectance and improve

97 Under inert conditions, the radicals recombine quantitatively

98 Refuting older concepts of an inert connector, our detailed structure-function analysi

99 , while 20% is both insoluble and chemically inert, consistent with the occurrence of RuO(2), the the

100 e previously considered largely biologically inert could be rapidly incorporated into clinical trials

101 e attached to the template using kinetically inert covalent bonds it should be possible to operate at

102 encoded dopamine (DA) sensors based on human inert DA receptors.

103 By adding electrochemically "inert" dichloromethane (DCM) as a diluent in concentrate

104 Nanotubes assemble when inert DNA monomers are directly and selectively activate

105 adduct formation, skin and in vitro tests to inert drug molecules, a different explanation of IgE-med

106 re impermeable to liquids, but not to gases, inert, durable, mechanically stable and flexible.

107 e distribution of fallout microbial cell and inert dust particles using microscopy and molecular tech

108 analyzed numerically afterward to locate the inert edge.

109 tous response to Schistosomamansoni eggs and inert egg-sized beads.

110 electrodes and the nonconductive/chemically inert electrochemical cell is reported.

111 fic electrochemical reaction collide with an inert electrode surface.

112 a catalytically active particle impacting an inert electrode.

113 However, despite the use of inert electrodes, the existence of corrosion was not eva

114 tivity challenge associated with coupling an inert electrophile with a reactive one is overcome using

115 xists for the conversion of widely available inert electrophiles, such as phenol derivatives, into th

116 ngent reaction conditions with indispensable inert environment protection and highly specialized reag

117 3)/N-m), the lowest for any HEA tested in an inert environment where oxidation and the formation of m

118 We show that after an inert epitaxial shell growth, erbium (Er(3+)) concentrat

119 anes are predicted to render kHz stimulation inert, especially given the use of limited-duty-cycle bi

120 taAbu- and DeltaVal-containing peptides were inert even at elevated temperatures.

121 elimycin, respectively, also reduce the more inert exocyclic double bond of the same 4-substituted De

122 For years, the cell wall was considered an inert exoskeleton of the fungal cell.

123 Chemically inert F2PhEtyCbl resisted thermolysis of its Co-C bond a

124 ne investigation of cleanroom biological and inert fallout particles will help to determine the biolo

125 The ZFS of the other ("inert") Fe(III) site maintained an axial ZFS of 0.19-0.2

126 isotope (delta(2) H) values of metabolically inert feathers and metabolically active liver.

127 tin resulted in the conversion of ferritin's inert ferric core into more reactive low-oxidation-state

128 ind that experience of live prey compared to inert food increases capture success by boosting capture

129 rivatives are not inherently immunologically inert for autologous transplantation and suggest that iP

130 e metals, while Al was found in a relatively inert form.

131 text] grown between multiple electronically inert [Formula: see text] counterlayers in a superlattic

132 onic feeding assays, the common agrochemical inert formulant N-methyl-2-pyrrolidone (NMP) is at least

133 ; P = 0.04), indicating partial excretion of inert gas across small pulmonary arteries.

134 he reaction autoclave in a glovebox under an inert gas atmosphere is no longer necessary.

135 However, the multiple inert gas elimination technique (MIGET) shows insignific

136 nation may be underestimated by the multiple inert gas elimination technique (MIGET).

137 gas exchange shunt measured by the multiple inert gas elimination technique (MIGET).

138 ly reversible and independent of the type of inert gas exposure.

139 By measuring respiratory and inert gas levels in the proximal pulmonary artery (P), a

140 served at low gas phase concentrations or in inert gas matrices.

141 udy was to validate CO measurement using the inert gas rebreathing (IGR) method against other noninva

142 ent distances that the clusters travel in an inert gas stream before they condense in a cooled collec

143 fficiently removed in the form of vapors via inert gas stream flowing through the PSE layer.

144 emove nitrogen and water and fill it with an inert gas with a substantially lower proton affinity.

145 treated sample exhibits high sensitivity to inert gases (Ar, N(2)), presenting a refractive index se

146 ly exposing epitaxial graphene to controlled inert gases and ambient humidity conditions, while measu

147 ertain, and it is unclear whether oxygen and inert gases are similarly affected.

148 gas exchange occurs to a greater extent for inert gases than for oxygen, shunt and its effects on ar

149 while for continuous cultures, He (or other inert gases) is used as an internal tracer to accurately

150 ow 1 atm) batch cultures, nitrogen (or other inert gases) is used to repressurize the system to 1 atm

151 The lowest solubility inert gases, sulphur hexafluoride (SF(6) ) and ethane we

152 ary gas exchange in canines for O(2) and two inert gases, sulphur hexafluoride and ethane, by measuri

153 ow efficiencies while requiring purging with inert gases, use of additives, and irradiation by high l

154 em is a RI sensitive platform able to detect inert gases, which can be more sensitive to detect nonin

155 and the extent is similar between oxygen and inert gases.

156 cture of individual molecules adsorbed on an inert gold surface is confirmed through ultrahigh-resolu

157 heir active state back to their biologically inert ground state is an integral part of GPCR signaling

158 lasma treatment enables functionalisation of inert heat-derived HSA hydrogels with extracellular matr

159 Experiments in an inert helium atmosphere confirm that FeO reacts via a re

160 It is detoxified by crystallization into inert hemozoin within the parasitic digestive vacuole.

161 nable MOF framework can not only serve as an inert host but also enhance the selectivity, stability,

162 mers that are oriented and immobilized in an inert host, singlet fission can be strongly state-select

163 to introduce molecular complexity within the inert hydrocarbon moiety, but to date this approach has

164 The resulting bio-inert hydrogel was then subjected to air plasma treatmen

165 e in soils, even though the materials may be inert in abiotic environments.

166 Although PAIB-SOs are inert in most cells tested, they are highly cytocidal to

167 arbonyl prodrugs of 14 designed to circulate inert in plasma and be taken up and biotransformed to 14

168 -targeted DON prodrugs designed to circulate inert in plasma and preferentially activate over DON in

169 ral, it is desirable for mechanophores to be inert in the absence of force but highly reactive under

170 iguously establish that EZH2 is functionally inert in this context, thereby excluding a PRC2-independ

171 Surprisingly, they proved inert in vitro affecting neither stability of the PP1-PP

172 In this work, a novel route to activate inert In(OH)(3) into 2D black In(2) O(3-) (x) nanosheets

173 However, tamoxifen is not an inert inducer of recombination, but an established endoc

174 opathologic and nephrotoxic potential of the inert ingredient mixture (termed here as PEO+) which pri

175 and investigate IV exposure to the tablet's inert ingredients as a possible causal mechanism.

176 IV exposure to the inert ingredients in reformulated extended-release oxymo

177 tiny as a result of their classification as "inert" ingredients.

178 t during the formation of boundaries with an inert interface and during fusion of homotypic epithelia

179 ically active cores and tips separated by an inert intermediate shell layer.

180 ly, the rapid formation of the catalytically inert isomer kick-starts replication through the templat

181 ts reveal that, even though calcium is redox-inert, it affects the redox transformations of iron with

182 We describe metabolically inert l-glucosamine-based glycosylated antitumor ether l

183 Upon removal of the synthetic, biologically inert ligand shield-1 (S1), AgDD, an engineered variant

184 activity or expressing a synthetic signaling-inert linker, we demonstrate that preventing this detach

185 pose tissue (AT) is no longer regarded as an inert lipid storage, but as an important central regulat

186 UV-absorbing visibly fluorescent, chemically inert, machinable plastic.

187 ical Wnt signalling can turn therapeutically inert mammalian cells into immortal exosome factories fo

188 ough most excipients deserve their status as inert, many approved excipients may directly modulate ph

189 Diamond as a chemically inert material allows treatment with harsh chemicals wit

190 This changes it from an inert material into one that is highly active for the hy

191 Unlike the caging imposed by an inert matrix, an active lattice participates in the reac

192 ing cellular damage, we formulated new photo-inert media called MEMO and NEUMO, and an antioxidant ri

193 sive interactions with the d-band, such that inert metals tend to feature a full d band that is low e

194 by Dorie et al. showed that this flow causes inert microspheres to infiltrate into tumour spheroids v

195 from volatile-rich regions to the chemically inert midplane-and the details of the required removal o

196 The chiral resolution of a kinetically inert molecular ruby [Cr(dqp)(2)](3+) (1, dqp = 2,6-di(q

197 The activation of such a kinetically inert molecule was achieved by the use of bismuthinidene

198 plexes for the activation of fundamental but inert molecules such as H2, COx, N2O, O2, H2O, NH3, C2H4

199 s previous theories approximating tissues to inert monophasic media, such as Turing's reaction-diffus

200 e the association of microorganisms with the inert, natural cleanroom fallout particles and to ascert

201 However, the inert nature of the CO(2) molecule poses a fundamental c

202 ility, including towards water, owing to the inert nature of their polyarylether-based building block

203 /Ce co-doped NaYbF4 nanocrystal core with an inert NaYF4 shell).

204 are commonly conducted in the presence of an inert, neat buffer gas, usually nitrogen or helium.

205 phosphate flame retardants (OPFRs) coated on inert (NH(4))(2)SO(4) and redox-active FeSO(4) particles

206 of Fe(II) enhanced their k by up to 53% over inert (NH(4))(2)SO(4).

207 developed for the conversion from chemically inert nitrogen gas to chiral amino acids, powered by H(2

208 mimicked a high-stress state by injecting an inert oil droplet to generate high strain in the HFR, de

209 ous in modern biomedicine and are considered inert or capable of being metabolized through intermedia

210 The result of the study suggested that inert or inhibitor baking atmosphere may help prevent th

211 nce indicating that neonatal T cells are not inert or less potent versions of adult T cells but inste

212 Iron carbenes have been inert, or shown to favor olefin cyclopropanation and het

213 ore challenging to link into frameworks; the inert oxo-caps that provide solubility are resistant to

214 nts for topology are certain symmetries, the inert pair effect of the outer electrons leading to inve

215 ion enhancement (sPRE) in the presence of an inert paramagnetic cosolute allows the assessment of pro

216 ture, and displayed live/dead biological and inert particle signatures from sources that include spor

217 including within the network either cells or inert particles to restrict the relaxation modes of the

218 dhering to particles were live/dead cells or inert particles.

219 Rather than inert passing of the cytochrome C through a rigid pore,

220 ow, the primary focus has been on the use of inert peptide linkers.

221 t with the PIC generates a transcriptionally inert PIC intermediate, which necessitates energy expend

222 ncept that different types of placebos (e.g. inert pill versus sham device) may yield different magni

223 ent of sensing and reference membranes to an inert plastic platform material is a very promising appr

224 The substitution inert platinum agent [Pt(1 S,2 S-diaminocyclohexane)(5,6

225 also bound lactose 3'-sulfate ligated to an inert polymer scaffold, and binding was inhibited by com

226 rmal and cancer-derived endothelial cells to inert polymer solutions with different physicochemical c

227 g a stimuli-responsive comonomer in a mostly inert polymer, we can cooperatively amplify the effect o

228 e is applicable to an array of biochemically inert polymers, and it delivers hundreds of meters of po

229 ride Fondaparinux (FPX) and the substitution-inert polynuclear platinum complex TriplatinNC show sign

230 y adjuvants that are considered biologically inert potentiate viral pathogenicity in honey bee larvae

231 Furthermore, analysis of the catalytically inert precursor RNP demonstrated the structural impact o

232 on by temporally activating and deactivating inert precursors.

233 iffusion, increased coordinated movement and inert probe exclusion at the domain boundary.

234 promising nanoplatforms to in situ transform inert prodrugs into active drugs.

235 tional equilibrium between the catalytically inert product, formed via the template-independent pathw

236 We show that an inert protein, green fluorescent protein (GFP), can form

237 Nb.F3 by itself is functionally inert, providing a convenient vehicle to target active m

238 os of the dye's fluorescence and the analyte-inert red Tm(3+) UCL correlate directly with pH, which w

239 sfer (PET) within the dye moiety, and the pH-inert red UCL act as reference.

240 ([Cr(ddpd)(2)][BPh(4)](3), CrBPh(4)) and an inert reference dye (Nile Red, NR or 5,10,15,20-tetrakis

241 'benchmark' vector titres are achieved with inert reporter genes.

242 oordinatively saturated and substitutionally inert Ru(ii) polypyridyl complexes.

243 action media such as mercury, silica gel, or inert salts as for previous procedures, and delivers the

244 nd sealed by a paraffin plug to maintain the inert sample until the ionization process.

245 Optimization of the inert shell coating surrounding the core and hydrophilic

246 yhole depressions in the surface which traps inert shielding gas in the solidifying metal.

247 The addition of inert silica particles to the system results in hierarch

248 ale continuous monolayer 2H-MoTe(2) films on inert SiO(2) dielectrics by molecular beam epitaxy is re

249 eposited on a high surface area (700 m(2)/g) inert SiO(2) using triethanolamine as a dispersion promo

250 ng its O/C by up to 55% over photochemically inert SiO(2) while having negligible effects on the over

251 idocarbonyl)-1H-pyrroles for a short time in inert solvents leads to the high-yield formation of benz

252 f three different humic acids (HAs) to redox-inert sorbents (polar Al(2)O(3) and nonpolar DAX-8 resin

253 Turning an inert spectator anion into a Lewis acid by planarization

254 ibed earlier and stored in a translationally inert state until needed for translation; however, it re

255 tion can be broken by alloying catalytically inert strontium zirconate with the other catalytically a

256 t differ from library compounds by a single "inert" structural component is described.

257 cing agents, bile acid binders, injection of inert substances into the esophagogastric junction, and

258 cules and Eu vapor in ultrahigh vacuum to an inert substrate, such as graphene.

259 but also eliminates the use of copper as an inert substrate.

260 toms, however, the single supported atoms on inert substrates (e.g. alumina) are limited to adatoms a

261 of (Mo, W)(S, Se, Te)(2) atomic crystals on inert substrates.

262 ispersed rhenium (ReO(4)) active sites on an inert support (SiO(2)) for the halide-free, gas phase ca

263 ysts based on atomically dispersed ReO(4) on inert supports for alcohol carbonylation.

264 functionalized PAHs adsorbed on a relatively inert surface in the presence of atomic hydrogen.

265 The carbon fiber is surface-mounted onto an inert surface to overcome the problems of the fragility

266 y differ from microbial communities on other inert surfaces, which is particularly true for mature bi

267 anoarchitectures on technologically relevant inert surfaces.

268 ng host bone, whereas bone regeneration with inert titanium implants was confined to ingrowth from th

269 (2) N)(3) P.Fp(+) (i.e. 1b.Fp(+) ), which is inert to fluoride addition.

270 An isostructural uranium(VI)-nitride is inert to hydrogenolysis, suggesting the 5f(1) electron o

271 but, unlike multimodal sensory neurons, are inert to hyperoxia and other TRPA1 activators (carbon di

272 lass I-related protein, MR1, while remaining inert to noncancerous cells.

273 ing solution it is stuck in an intermediate, inert to pH changes.

274 scission, and the trans,trans-isomer is also inert to photolytic N(2) cleavage.

275 ymer gel, although 99.4% of the organogel is inert to the light stimulus.

276 Phenanthrene is nearly inert to the same superacid conditions.

277 All isomers are inert to thermal N(2) scission, and the trans,trans-isom

278 reas the CN(-) signals seem to be relatively inert to these effects.

279 The Ni(III) sigma-aryl complexes proved inert toward C(sp(2))-I bond-forming reductive eliminati

280 e competent for reduction of ketones but are inert toward esters.

281 However, polystyrene surfaces are inert toward functionalization, and this makes the unifo

282 ically active toward H3K4me2 and H3K9me2 but inert toward H3K36me2, and methylation at p53 K372 direc

283 While Finland trityl is generally considered inert toward many reactive radical species, we report th

284 ve developed a caged glutamate probe that is inert toward these receptors at concentrations that are

285 s predicted by the model for a conservative (inert) tracer.

286 estimates were made from fecal excretion of inert tracers with corrections for dietary contribution.

287 Labeling an inert treatment as expensive medication led to stronger

288 h facilitates the cleavage of the relatively inert triple bond of N(2).

289 -active syngeneic-tumor types and show that inert tumors have an immune-suppressive phenotype with n

290 s has been developed utilizing synthetically inert unactivated acyclic internal olefins as allylic su

291 tural systems because they are assumed to be inert under environmental conditions, even though Au can

292 e thermally active distal-exo adduct becomes inert under tension due to poor mechanochemical coupling

293 is study, we show that Smk1 is catalytically inert unless it is bound by Ssp2.

294 ds, which have been thought to be relatively inert (unreactive) and thus leach small amounts of polya

295 de the vaporization microchannel, acts as an inert vaporization surface speeding up the gas-phase con

296 n the basal plane are known to be stable and inert, we find that they can be electrochemically reduce

297 hy [4]PF(6) and [5]PF(6) are photochemically inert while [1]PF(6)-[3]PF(6) perform selective photosub

298 olecule controller, and are not biologically inert, while the optogenetic systems require prolonged e

299 s are constitutionally and configurationally inert, while the two acetonitriles are labile and allow

300 Diallyl monosulfide is inert with respect to this allyl transfer reaction.