ライフサイエンスコーパス: lanthanum

1 of the rare earth elements (REE), cerium and lanthanum.

2 transient receptor potential channel blocker lanthanum.

3 ylphosphinic acid, and modulated by zinc and lanthanum.

4 or permeability to the electron-dense tracer lanthanum.

5 mannitol was inhibited by pretreatment with lanthanum.

6 and Iti78, expression was also inhibited by lanthanum.

7 s were apparently required for inhibition by lanthanum.

8 uding benzodiazepines, furosemide, zinc, and lanthanum.

9 ma2L GABAR currents were weakly inhibited by lanthanum.

10 AlMe(3) is a stronger inhibitor than THF for lanthanum.

11 anesulfonate, cresyl diphenyl phosphate, and lanthanum.

12 tially regulated proteins in the presence of lanthanum.

13 -specific conductance that can be blocked by lanthanum.

14 m or addition of the calcium channel blocker lanthanum (0.5 mM) inhibited the depolarization-evoked a

15 ATPase (two inhibitors, vanadate (30 mM) and lanthanum (10 mM), had no effect) or inhibition of the N

16 azole hydrochloride), and Cd(2+), but not by lanthanum (100 microM).

17 d in Ca(2+)-free solution, but unaffected by lanthanum (25 microM) or tetrodotoxin (10(-6) M).

18 ed a [Ca(2+)](i) increase in the presence of lanthanum (25 micromol/L).

19 Lanthanum, a rare earth element, was applied because of

20 ibited when the oocytes were pretreated with lanthanum, a specific inhibitor of store-operated Ca(2+)

21 The putative hemichannel antagonist lanthanum alone was a potent inhibitor of the spontaneou

22 tion of alpha1beta3gamma2L GABAR currents by lanthanum, alpha6beta3delta GABAR currents were strongly

23 DEL) at the interface between the insulators lanthanum aluminate (LaAlO3) and strontium titanate (SrT

24 ective domain behaviour in pure-ferroelastic lanthanum aluminate (LaAlO[Formula: see text]) as a func

25 interface between SrTiO3 and a thin layer of lanthanum aluminate, LaAlO3.

26 nteracting electron waveguides formed at the lanthanum aluminate-strontium titanate (LaAlO(3)/SrTiO(3

27 of a quasi-two-dimensional electron gas at a lanthanum aluminate-strontium titanate interface.

28 In recent years, lanthanum aluminate/strontium titanate (LAO/STO) heteroi

29 A total of 138 participants received lanthanum and 140 received placebo (mean age 63.1 years;

30 occurred in 63 (46%) participants prescribed lanthanum and 66 (47%) prescribed placebo.

31 Simple water-soluble lanthanum and europium complexes are effective at detect

32 illations caused by ryanodine, thapsigargin, lanthanum and FCCP could also be simulated.

33 Other trivalent metals (lanthanum and gadolinium) and tetravalent metals (tin an

34 Lanthanum and gadolinium, cations commonly used as Ca(2+

35 tentiated by pentobarbital, loreclezole, and lanthanum and inhibited by zinc and furosemide.

36 ed with DFT calculations on the closed-shell lanthanum and lutetium complexes that suggest only limit

37 nt inhibitors of hemichannels-carbenoxolone, lanthanum and mefloquine-had no significant effect on th

38 aining the rare earth elements (REE) cerium, lanthanum and neodymium.

39 nthesis in a low-melting eutectic mixture of lanthanum and nickel has produced a family of complex in

40 retreatment with the calcium-channel blocker lanthanum and to a lesser extent, the calcium-chelator E

41 reatment on the GABAA receptor modulation by lanthanum and zinc which act as positive and negative al

42 alpha6 subtype-containing GABAR currents by lanthanum, and 3) the site for interaction with lanthanu

43 ropoxy]ethyl-1H-imidazole), flufenamic acid, lanthanum, and gadolinium, consistent with the involveme

44 al, sensitivity to diazepam, potentiation by lanthanum, and high affinity inhibition by furosemide.

45 t IC(50) values for pregnenolone sulfate and lanthanum, and were insensitive to benzodiazepines.

46 Gadolinium and lanthanum at a concentration of 10 microM did not affect

47 The net paracellular interstitium-to-lumen lanthanum backflux was measured before and after direct

48 methane, hydrogen chloride, and oxygen over lanthanum-based catalysts was studied.

49 The lanthanum-based materials, due to their layered structur

50 ble hydrophosphorylation of nitriles using a lanthanum-based N,N-dimethylbenzylamine complex (La(DMBA

51 e and B-site (=Ti, Zr) cation composition of lanthanum-based oxides (La(2)B(2)O(7)) on electronic-exc

52 The lanthanum-based perovskite catalysts coated on monolith

53 redox pseudocapacitance for a nanostructured lanthanum-based perovskite, LaMnO3.

54 Me(3))-Ph(3)Si-HY(30), which is the superior lanthanum-based precatalyst for benzene borylation with

55 TPADAC) unit were explored as candidates for lanthanum-based radiopharmaceutical development.

56 al studies demonstrate that superhydrides of lanthanum can be synthesized with La atoms in an fcc lat

57 Calcium channel blockers (verapamil, lanthanum) can also inhibit the light response, and a ca

58 e they received, in random order, 3 doses of lanthanum carbonate (La(2)(CO(3))(3)), 1.5, 3.0, and 4.5

59 To investigate effects of lanthanum carbonate (LC; a phosphate binder) and/or nico

60 ), and low-phosphate (1000 mg/d plus 1000 mg lanthanum carbonate 3 times/d) diets for 5 d followed by

61 Lanthanum carbonate is a rare earth element and has been

62 hosphate >1.00 mmol/L (3.10 mg/dl) to 500 mg lanthanum carbonate or matched placebo thrice daily for

63 -45 ml/min per 1.73 m(2) to calcium acetate, lanthanum carbonate, sevelamer carbonate, or placebo.

64 ) treatment gives a kinetic advantage to the lanthanum-catalyzed C-H borylation, leading to increased

65 establish important structure sensitivity in lanthanum-catalyzed chlorination and provide guiding pri

66 o examine the effects of graded exposures to lanthanum, cerium, and yttrium (LCY) mixtures at 1-, 100

67 have the general formula RM4X12 (where R is lanthanum, cerium, praseodymium, neodymium, or europium;

68 , niobium, light rare earth elements (LREEs; lanthanum, cerium, praseodymium, neodymium, promethium,

69 -alkaline earth electrodes, Pt5M, where M is lanthanum, cerium, samarium, gadolinium, terbium, dyspro

70 rare examples of transuranium thioether and lanthanum/cerium-selenoether complexes are reported.

71 TrxR-1 inhibitors, either lanthanum chloride (LaCl3) or auranofin (AUR), also incr

72 rylated guanosine nucleosides in the case of lanthanum chloride precipitation or inconsistent retenti

73 nated either by pre-treatment of plants with lanthanum chloride, or by reducing the duration of ozone

74 pecific substitution with the Mott insulator lanthanum cobaltite, its bandgap can be narrowed by as m

75 physiologically relevant pH the fluorescent lanthanum complex binds neutral sugars with apparent bin

76 des using a catalytic system consisting of a lanthanum complex with a sterically bulky ligand and a m

77 (0.5, 1 or 2 wt% in the final product), and lanthanum content (0.5 or 1 wt% in the final product).

78 y with structural symmetry in the hole-doped lanthanum cuprates remains elusive.

79 um with GABAR isoforms was competitive, with lanthanum decreasing the EC50 value for GABA of alpha1be

80 e existence of previously undetected surface lanthanum defects, suggesting that surface-enhanced NMR

81 nelling occurred through an atomically thin, lanthanum delta-doped SrTiO3 layer, and the negative dif

82 lly derived myelin, the extracellular tracer lanthanum did not penetrate between the myelin layers in

83 locked GABAR currents with low affinity, but lanthanum did not significantly alter NT2-N GABAR curren

84 Lanthanum displayed strong potentiation of alpha1beta3ga

85 gen vacancies and observe bonding changes in lanthanum-doped ceria catalyst particle aggregates with

86 ytotoxicity in uveal melanoma cells, and the lanthanum-DOTA-MC1RL analog was tested for binding affin

87 Lanthanum Dysprosium Glycosamino Glycan adhesion stainin

88 added to the luminal perfusate, paracellular lanthanum efflux from the lumen to the interstitium was

89 Preinjection of the blocking lanthanum-ESMA resulted in significantly lower CNR of Gd

90 g the molecular target using nonparamagnetic lanthanum-ESMA.

91 find that replacing only several percent of lanthanum for strontium leaves behind nanometer-scale AF

92 ermine the concentration-response curves for lanthanum for the three different isoforms at submaximal

93 from alpha1 to alpha6 altered the effect of lanthanum from potentiation to inhibition, 2) changing t

94 ased RIHP increases paracellular backflux of lanthanum from the renal interstitium to the proximal tu

95 Mobility of lanthanum from the rhizosphere to plants is favored when

96 extracts from wild-type strain methanol- and lanthanum-grown cultures.

97 cells, diazepam, zolpidem, loreclezole, and lanthanum had only small effects on GABA(A) receptor cur

98 ther a standard 120-keV TEMs with thermionic lanthanum hexaboride (LaB(6)) source can be upgraded wit

99 duction of esters requires activation of the lanthanum hydride by pinacolborane.

100 he recently discovered near-room-temperature lanthanum hydride superconductors.

101 The hydrogen content variability in lanthanum hydrides and the samples' phase heterogeneity

102 xpected chemical and structural diversity of lanthanum hydrides synthesized in the range of 50 to 180

103 Seven lanthanum hydrides were produced, LaH(3), LaH(~4), LaH(4

104 Lanthanum hydrides, generated by reactions with pinacolb

105 The lanthanum-hydrogen system has attracted significant atte

106 mn filled with polyvinyl chloride (PVC) with lanthanum hydroxide co-precipitation.

107 synthesis of amino acid (L-Cysteine) capped lanthanum hydroxide nanoparticles [Cys-La(OH)3 NPs] towa

108 ts recorded in GYKI were blocked potently by lanthanum (IC50 = 2 microM) and were desensitized by 1 m

109 icometre-scale differences in radius between lanthanum(III) and dysprosium(III) are propagated to Han

110 etal-organic framework (MOF) CTH-17 based on lanthanum(III) and the conformationally chiral linker 1,

111 8-hydroxyquinoline as a chelating agent and lanthanum(III) as a carrier element is proposed.

112 of several parameters such as pH, amount of lanthanum(III) as a carrier element, amount of 8-hydroxy

113 tion to N-diphenylphosphinylimines employing lanthanum(III) triflate as a catalyst and trifluoroaceti

114 Upon investigating a subsequent lanthanum(III)-catalyzed amidation reaction, a new multi

115 te sensitive to rare-earth ionic radius, the lanthanum(III)-induced dimer being >100-fold tighter tha

116 Also, the ability of lanthanum in different formats is checked in the selecti

117 having an opposite effect on the activity of lanthanum in HY vs SiO(2), point to confinement-activate

118 tive biosorption affinity for ytterbium over lanthanum in multiple solution conditions tested, while

119 reports of potentiation of GABAR currents by lanthanum in neurons and recombinant GABAR isoforms.

120 tific basis for the precision application of lanthanum in premium tobacco production.

121 LaH(10+delta), and the atomic coordinates of lanthanum in their structures determined.

122 ndicated that, unlike most divalent cations, lanthanum increases both native and recombinant gamma-am

123 Addition of exogenous lanthanum increases growth rate with methanol by 9-12% b

124 G, and complement-opsonized phagocytosis and lanthanum-induced vesicle rocketing.

125 d matrix, there was significant paracellular lanthanum influx from the interstitium into the lumen (1

126 transport across the plasma membrane by the "lanthanum insulation method" was blocked prior to the in

127 bstantially less than that induced either by lanthanum ions or alpha-latrotoxin.

128 rathiafulvalene(TTF)-phosphonate linkers and lanthanum ions.

129 ough strong interactions with the two moving lanthanum ions.

130 re in which the host atom (calcium, yttrium, lanthanum) is at the centre of a cage formed by hydrogen

131 Lanthanum itself did not affect proximal tubule reabsorp

132 talytic reactivity of homoleptic tris(alkyl) lanthanum La{C(SiHMe(2) )(3) }(3) is highlighted by C-O

133 zed by reaction of the homoleptic tris(alkyl)lanthanum La{C(SiHMe(2))(3)}(3) and SBA-type MSN treated

134 Also, lanthanum (La(3+)) and intracellular Ca(2+) potentiated

135 an essential enzyme-bound Ca(2+) ion with a lanthanum (La(3+)) ion.

136 Lanthanum (La(3+)), a general calcium channel antagonist

137 Tris[N,N-bis(trimethylsilyl)amide]lanthanum (La(NTMS)) is an efficient and selective homog

138 ofibrous cobalt spinel catalyst codoped with lanthanum (La) and manganese (Mn) prepared from a zeolit

139 ous polarization, and magnetic properties of lanthanum (La) and strontium (Sr) doped rhombohedral bis

140 Phosphate (Pi) sequestration by a lanthanum (La) exchanged clay mineral (La-Bentonite), wh

141 ocused on the recovery of neodymium (Nd) and lanthanum (La) from monazite ore that combines microbial

142 We elucidate the effect of lanthanum (La) on the microstructure and mechanical prop

143 We show that through Lanthanum (La) substitution, a single ferroelectric doma

144 omic layer of a rare-earth oxide (RO) [(R is lanthanum (La), praseodymium (Pr), neodymium (Nd), samar

145 e extracellular tracer of paracellular flux, lanthanum (La), was infused directly into the renal inte

146 Lanthanum (La)-doped BaSnO3 (LBSO) perovskite would be a

147 eatment of Arabidopsis leaves with trivalent lanthanum [La(III)], a representative of REEs, triggers

148 ntum proton diffusion in the otherwise rigid lanthanum lattice in the ground state.

149 With the help of measured doubly charged lanthanum lines and spatially resolved measurements, the

150 he lithium-stable fast lithium-ion conductor lanthanum lithium tantalate directly with a thin copper

151 ffect; whole-cell current kinetics; block by lanthanum; loss of selectivity in the absence of divalen

152 ous due to the unique chemical properties of lanthanum making it cytotoxic to cancers, and able to en

153 Transcriptomics analysis of lanthanum methanol growth shows upregulation of xox1 and

154 e magnetoresistance (XMR) in LaSb introduced lanthanum monopnictides as a new platform to study this

155 3D graphene oxide/ lanthanum nanoparticles @ Ni foam was introduced as a no

156 surface reconstruction of Ruddlesden-Popper lanthanum nickel oxide (La(2)NiO(4+delta)) that occurs s

157 lue-cured tobacco treated with a gradient of lanthanum nitrate [La(NO3)3] solutions (0, 25, 50, 90, 1

158 The reflection loss (R) value of a lanthanum nitrate doped ACNT/PVC composite was -25.02 dB

159 method using a uniform mixture of rare earth lanthanum nitrate doped ACNTs and polyvinyl chloride (PV

160 mization, foliar application of 90 mg L(- 1) lanthanum nitrate is proposed as the optimal concentrati

161 With colloidal lanthanum nitrate perfusion, excess water/solute movemen

162 tion-dependent response showed: 25-90 mg L-1 lanthanum nitrate significantly increased the content of

163 d CNTs, and greatly improved by doping 6 wt% lanthanum nitrate.

164 in some seawater samples with low levels of lanthanum-NPs, suggesting anthropogenic inputs of nanoCe

165 m the presence of intermingled palladium and lanthanum on the gamma-alumina surface.

166 The effects of lanthanum on three different GABAR isoforms, alpha1beta3

167 Enzyme purified with lanthanum or neodymium oxidizes formaldehyde.

168 The activity could be enhanced by lanthanum or rosiglitazone, known stimulators of TRPC5 a

169 Inhibition of SOC by lanthanum or transient receptor potential channel 1 (TRP

170 as blocked by the addition of TRPC1 blockers lanthanum, or 2APB.

171 alkalization of the bath solution, by adding lanthanum, or by substitution of Na(+) with Li(+).

172 patients with stage 3b/4 CKD, treatment with lanthanum over 96 weeks did not affect arterial stiffnes

173 ydrate (Ce(2) (C(2) O(4) )(3) .10H(2) O) and lanthanum oxalate decahydrate (La(2) (C(2) O(4) )(3) .10

174 Lanthanum oxide (La(2)O(3)) NPs are therapeutically adva

175 yered structure of manganese dioxide (MnO2), lanthanum oxide (La2O3), and Platinum (Pt) for Li-O2 bat

176 ectroscopy (MS) results show that the silica-lanthanum oxide composite exhibits enhanced capability f

177 The obtained silica-lanthanum oxide composite is applied for the selective e

178 The lanthanum oxide is chemically modified on the surface of

179 ourney of metal oxides in phosphoproteomics, lanthanum oxide is employed for the engineering of an af

180 is work focuses on the in-tip fabrication of lanthanum oxide porous monolith and its application in t

181 s based on magnesium oxide, cerium oxide and lanthanum oxide show enhanced cycling performance.

182 Reversible adsorption of H2S on cerium and lanthanum oxide surfaces is demonstrated over many cycle

183 The addition of lanthanum oxide to the alumina, long known for its abili

184 , conformal films of metal oxides, including lanthanum oxide.

185 Lanthanum oxychloride (LaOCl) has emerged as a promising

186 ity and spectroscopic measurements show that lanthanum oxychloride (LaOCl), lanthanum trichloride (La

187 Similarly, lanthanum permeation studies showed tracer penetration i

188 (LaOCl), lanthanum trichloride (LaCl3), and lanthanum phases with an intermediate extent of chlorina

189 and pyrimidine nucleoside analogues by using lanthanum phosphate coprecipitation at pH 4.0.

190 The development of a lanthanum-phosphate glass doped with several rare-earth-

191 The discovery of 250-kelvin superconducting lanthanum polyhydride under high pressure marked a signi

192 d hydrogen-induced superconductivity in this lanthanum polyhydride, and leads to an understanding of

193 Lanthanum potentiation remained the same following chron

194 thanum, and 3) the site for interaction with lanthanum probably was on the extracellular surface of G

195 enriched with 2 and 0.5 wt% of vanadium and lanthanum, respectively, which may be considered as a pr

196 l ordering transition in the two-dimensional lanthanum ruthenate La4Ru2O10.

197 iculum stores, and subsequent Ca2+ entry via lanthanum-sensitive store-operated Ca2+ channels (SOC) a

198 A synthesis unit performed barium/lanthanum separation.

199 ntiation nor inhibition of GABAR currents by lanthanum showed any voltage dependence.

200 the present study, we have examined whether lanthanum shows subunit-dependent selectivity for modifi

201 Using lanthanum staining, we identified three morphologically

202 This approach was successfully applied to lanthanum strontium cobaltite thin films epitaxially gro

203 tion of vertically aligned nanocomposites of lanthanum strontium manganite and doped ceria with strai

204 al intermixing on the manganese-titanium and lanthanum-strontium sublattices.

205 Here, we circumvent this problem by growing lanthanum-substituted BiFeO(3) at 450 degrees C (which i

206 opted an eco-friendly approach to synthesize lanthanum-substituted copper ferrite (CuLaFe(2)O(4)) by

207 Here we describe an oxide anode formed from lanthanum-substituted strontium titanate (La-SrTiO3) in

208 ometer-scale AF puddles clustering away from lanthanum substitutions preferentially located in the mi

209 Gallium lanthanum sulfide glass (GLS) has been widely studied in

210 esent combined (1)H- and (139)La-NMR data on lanthanum superhydrides, LaH(x), (x = 10.2 - 11.1), synt

211 Using the water-soluble tracer, colloidal lanthanum, there was no evidence of tracer accumulation

212 al reabsorption and paracellular backflux of lanthanum through the intercellular tight junctions of t

213 low-lying, unoccupied 4f atomic orbitals in lanthanum to be the key difference between these superco

214 TEM with colloidal lanthanum tracer revealed that only bioreactor islet cel

215 ter Al treatment but not after the Al analog lanthanum treatments.

216 nts show that lanthanum oxychloride (LaOCl), lanthanum trichloride (LaCl3), and lanthanum phases with

217 creen of transition metal cyanide complexes, lanthanum tricyanide was identified as an improved secon

218 = Ce, Er, Sm, Y, Yb, La) were evaluated and lanthanum tricyanide was identified as the optimal catal

219 eport the full account of our efforts on the lanthanum tricyanide-catalyzed acyl silane-ketone benzoi

220 sized and characterized a nitride perovskite lanthanum tungsten nitride (LaWN(3)) in the form of oxyg

221 erapamil; an inhibitor of calcium transport, lanthanum; various protease inhibitors; Na+ -free and K+

222 When lanthanum was added to the luminal perfusate, paracellul

223 y)Sb(z) modulated reactants, the addition of lanthanum was found to suppress the nucleation of FeSb(2

224 ked calcium transients in podocytes, whereas lanthanum was ineffective, indicating the calcium source

225 When lanthanum was infused interstitially, by means of a chro

226 Lanthanum was observed in the outer layers of the perine

227 resent study, during in vivo microperfusion, lanthanum was used as an extracellular marker to determi

228 ), and crustal elements (aluminum, iron, and lanthanum), which were also elevated in this region.

229 rface of catalysts with an irreducible metal-lanthanum, which is significantly different from known m

230 by 141 +/- 30% at approximately 1000 microM lanthanum with an EC50 of 107 +/- 34 microM and a slope

231 Interaction of lanthanum with GABAR isoforms was competitive, with lant

232 wed induction upon growth in the presence of lanthanum (Xox proteins, TonB-dependent receptor), we al

233 ere enhanced by loreclezole and inhibited by lanthanum, zinc, and furosemide.

234 effect of electron beams on Al-doped lithium lanthanum zirconium oxide (LLZO) under different imaging