ライフサイエンスコーパス: reactivity

1 being upset by reminders, and physiological reactivity.

2 ies coupled with limited unwanted off-target reactivity.

3 rkedly enhanced or reduced gammadelta T cell reactivity.

4 ereas AZA diminished their proliferation and reactivity.

5 tein that could guide the emergence of cross-reactivity.

6 functionalities, providing a unified olefin reactivity.

7 nces unevenly, attending to specific foci of reactivity.

8 inating central control of whole-body stress reactivity.

9 olution to address issues of selectivity and reactivity.

10 and healthy donors confer potent antimyeloma reactivity.

11 both enhanced sensitivity and reduced cross-reactivity.

12 study of the physicochemical determinants of reactivity.

13 nn revolutionized how we understand chemical reactivity.

14 rbital approaches required for photochemical reactivity.

15 ,N,S-iron(II) motif in promoting enzyme-like reactivity.

16 e was made possible in virtue of its limited reactivity.

17 predicted decreased threat-related amygdala reactivity.

18 sulted in a proportional decrease in NK cell reactivity.

19 indicate that this probiotic reduces limbic reactivity.

20 ing PVN GLP-1 signaling in behavioral stress reactivity.

21 domain for high-valent bis(mu-oxido)dimetal reactivity.

22 IKV immunoglobulin M and negative for dengue reactivity.

23 tes and correlated these variations with RDT reactivity.

24 n a molecular system can strongly modify its reactivity.

25 to elucidate the origin of the electrophilic reactivities.

26 cerebral perfusion pressure < lower limit of reactivity, 1.04; 95% CI, 1.02-1.06; p < 0.001) and mort

27 Serologic cross-reactivity, a hallmark of orthopoxvirus (OPXV) infection

28 Reactivity abilities of these N-Lewis acids were explain

29 glycemia had little effect on primary T-cell reactivity after alloimmunization.

30 its cognate ligand, HLA-B, would titrate NK reactivity against acute myelogenous leukemia (AML).

31 Reactivity against IdeS-generated F(ab')2 targets was fo

32 s with selective GVL reactivity showed lower reactivity against nonhematopoietic cells, even when pre

33 2 targets was found most frequently, whereas reactivity against pepsin-generated F(ab')2 targets bett

34 We also detected CD8(+) T cell reactivity against predicted neoepitopes after isolation

35 serum samples but not control samples showed reactivity against recombinantly expressed N-terminal LR

36 The wide range of conversion reactivity allows the extent of nucleation ([nanocrystal

37 nt plants, they are prone to extensive cross-reactivity among allergen pollen extracts.

38 However, the potential cross-reactivity among porcine coronaviruses is a major concer

39 ute phase, with intrusions and physiological reactivity among the most central symptoms in the networ

40 Cross reactivity analysis showed the selectivity of detecting

41 The relationship between these reactivities and the ability of each 1,2-DHB to reduce F

42 ates, which plausibly rationalized the novel reactivity and catalyst-controlled chemodivergence.

43 e V3-loop and trimer base, minimize both CD4 reactivity and CD4-induced non-nAb epitope exposure, and

44 as been gathered to provide insight into the reactivity and constraints of these compact and highly o

45 terial SMCs, CXCR4 sustained normal vascular reactivity and contractile responses, whereas CXCR4 defi

46 ing transglutaminase, and their in vitro IgE reactivity and digestibility under simulated gastro-inte

47 pects of MOFs that underpin their stability, reactivity and dynamic behaviour within a common theme r

48 ratory evolution, apparently enhances lysine reactivity and facilitates efficient proton shuffling.

49 results show that the new reagents have good reactivity and generate products with high enantiomeric

50 Obese patients have impaired vasodilator reactivity and increased endothelin 1 (ET-1)-mediated va

51 We show the RSI correlates with reactivity and is able to search chemical space using th

52 urations and consequent prediction of unique reactivity and magnetic properties from these species.

53 The reactivity and magnetism of these compounds are discusse

54 ls are an essential means of preventing self-reactivity and restoring tissue homeostasis.

55 hich provides great opportunities to control reactivity and selectivity (including enantioselectivity

56 We investigated the reactivity and selectivity of 2-azidofucosyl (FucN3) don

57 often hindered by a lack of knowledge on the reactivity and selectivity of their constituent building

58 es and N-alkylphthalimides with CumO(*), the reactivity and selectivity patterns parallel those obser

59 ul reactions, owing to the proximity-induced reactivity and selectivity that is enabled by coordinati

60 A balance of reactivity and stability was struck by prudent selection

61 rofound differences in their electrochemical reactivity and stability.

62 stigated the dentate gyrus (DG) granule cell reactivity and synaptic plasticity in naive and in MDA-k

63 metal nanoparticles have different catalytic reactivity and that the adsorption of reactive species c

64 tail by using the activation strain model of reactivity and the energy decomposition analysis method.

65 Env reactivity and the on rates of CD4mc binding to the Env

66 kinetically predicted trends in active site reactivity and to reveal unexpected features of active s

67 t faces several challenges owing to its high reactivity and uncontrolled dendrite growth.

68 ved multiple mechanisms for controlling self-reactivity, and defects in one or more of these mechanis

69 rs with appropriate wettability and chemical reactivity, and demonstrate their self-assembly into siz

70 re made in parallel to elucidate IgE and IgG reactivity, and putative function analyses were performe

71 E2) plays a key role for cerebrovascular CO2 reactivity, and that preserved synthesis of glutathione

72 ukemic cells via graft-versus-leukemia (GVL) reactivity, and transfer of these cells is often used fo

73 ults as described shed a useful light on the reactivity, appearance, and removal of BMAA in the chlor

74 ffective strategies targeting humoral immune reactivity are needed to improve long-term intestinal gr

75 s, hydrolase activity and detectable IgE/IgG reactivity are strongly correlated, while no protein fun

76 This vinylallene exhibits exceptional reactivity as a Diels-Alder reaction partner and engages

77 g T-cell receptor-beta sequencing and tumour reactivity assays, we predict that tumour reactive T cel

78 does not have any significant impact on the reactivity at positions [Formula: see text] far away fro

79 Here we show that the high reactivity at these sites is a consequence of the format

80 er to release d-aminoluciferin for selective reactivity-based detection of Fe(2+) with metal and oxid

81 how catalyst/initiator choice influences the reactivity between a given thiol and Michael acceptor.

82 We report herein three new modes of reactivity between arylazides N3 Ar with a bulky copper(

83 biological fluids, as well as reduced cross-reactivity between different serotypes of dengue and als

84 on analysis indicated that the difference in reactivity between differently substituted 1,3-dipoles i

85 In vespid venom allergy, cross-reactivity between venoms of different species can be a

86 OIT led to distinct alterations in basophil reactivity but not T-cell responses.

87 is associated with amelioration of allergic reactivity, but mechanistic insights into this associati

88 due to their intrinsic redox properties and reactivity, but more recently, strategies that forego tr

89 te leads to a change in oxygen atom transfer reactivity by ca. two orders of magnitude.

90 We report a novel approach to block allergic reactivity by targeting the surface-bound IgE of the all

91 phenothiazine RTAs had significantly greater reactivity (by up to 2 orders of magnitude).

92 ional (CU) traits (e.g., deficient emotional reactivity, callousness) in conduct-disordered (CD) yout

93 Cue-reactivity can be reduced by blocking reconsolidation or

94 ther infectious agents in parallel, as cross-reactivity can occur.

95 This changes their specific reactivity compared to Cr(III) sites in oxygen environme

96 s a wide range of functional groups, showing reactivity complementary to that of prior desaturation m

97 lular snRNPs led to similar changes in SHAPE reactivities, confirming that 7SK undergoes a P-TEFb-dep

98 mTOR acts as a molecular rheostat of NK cell reactivity controlled by educating receptors and uncover

99 e)(Pr,Pr)](-) (8), shows that oxo atom donor reactivity correlates with the metal ion's ability to bi

100 Both local and global reactivity descriptors were used to study the regioselec

101 The basis for these reactivity differences is not well understood.

102 reactions are nearly identical and that the reactivity differences originate from differences in int

103 ivity and hemolytic properties, we use these reactivity differences to scale the membrane affinity of

104 ith PTSD have augmented SNS and haemodynamic reactivity during both combat-related and non-combat rel

105 safety, pharmacodynamics and nasal allergic reactivity following repeated weekly intranasal (i.n.) G

106 tly comparable estimates of the emergence of reactivity for 20 immunoassays are valuable to testing p

107 ng genotoxicity, cytotoxicity, and NAC thiol reactivity for all disinfected samples.

108 elimination, which represents a new mode of reactivity for late-transition-metal chemistry.

109 The controllable reactivity gives the carbon organic radical great potent

110 n healthy samples indicate that, relative to reactivity, habituation is a more reliable biomarker of

111 This reactivity has important implications for the recently d

112 ki-Miyaura cross-couplings for decades, this reactivity has not been leveraged for the synthesis of c

113 characterization of surface composition and reactivity have become of extreme importance.

114 and the relative importance of high platelet reactivity (HPR) in SVG PCI versus native lesion PCI is

115 an ERP marker of self-referential emotional reactivity (i.e., late positive potential) within the fi

116 s highlight how nanoscale changes can induce reactivity in 2D materials, which can provide unique sur

117 ically related flaviviruses that share cross-reactivity in antibody and T cell responses, and co-circ

118 The highest reactivity in both reaction classes described belongs to

119 Phosphonium ions also display orthogonal reactivity in cross-couplings compared to halides, enabl

120 dA(*+)/dA* equilibrium, and consequently the reactivity in DNA, is significantly shifted toward the r

121 Platelet reactivity in hyperlipidemic conditions is enhanced when

122 All antigens 5 showed extensive cross-reactivity in sIgE analyses, inhibition assays, and BAT.

123 electron donor-acceptor complex permits the reactivity in the absence of catalyst.

124 al mechanisms of specificity and a K11 cross-reactivity in the K33 affimer.

125 zyme, highlighting the potential for related reactivity in this model protein.

126 differ in the spectral properties and in the reactivity in various irreversible transformations.

127 sistent with reduced threat-related amygdala reactivity in WS and suggest that common variation in GT

128 ular targets (irrespective of their chemical reactivity) in situ in the living body.

129 Analysis of chemical reactivity, in situ X-ray absorption spectroscopy, and d

130 y, transformations not known in biology, and reactivity inaccessible by small-molecule catalysts.

131 ct to impaired pressure reactivity (pressure reactivity index = 0.3) were denoted automatically the "

132 istic from the relationship between pressure reactivity index and cerebral perfusion pressure.

133 ND MAIN Cerebral perfusion pressure-pressure reactivity index curves were fitted automatically using

134 with subarachnoid hemorrhage, autoregulation reactivity index was the only cerebral autoregulation in

135 A comparison of reactivity indicates that it decreases in the order: alp

136 eactivity, referred to here as an inter-test reactivity interval (ITRI).

137 Instead, lifelong reactivity is conferred by allergen-specific long-lived

138 The shift in Fe(III) reactivity is evident from Fe-reducibility assays using

139 e been identified in P. jirovecii Such cross-reactivity is rare, and our findings suggest that Pca1 i

140 Intermediate reactivity is typically found for Fe(IV)Fe(IV); therefor

141 Although this type of reactivity is well-precedented for most transition metal

142 lergic disease independent of their antibody reactivity, is still lacking.

143 ocesses, the source of amine and organoboron reactivity issues, and the origin of competing oxidation

144 Ethers and chloride salts dampen or turn off reactivity, leading to three distinct catalyst states wi

145 Our data indicate that vascular reactivity measurements might be useful for differential

146 on systems driven by 1,2-DHBs, the change in reactivity mediated by different 1,2-DHBs must be unders

147 dings suggest that determination of vascular reactivity might be a useful biomarker for early detecti

148 een postulated to be involved in a two-state reactivity model, and 2) the Mn(III/IV) reduction potent

149 aled that the nature of anion influences the reactivity more than the spin state.

150 , stabilities, and 1,3-dipolar cycloaddition reactivities of 24 mesoionic azomethine ylides and imine

151 en the experimentally observed electrophilic reactivities of 44 Michael acceptors and their calculate

152 Comparison of reactivities of [(PyTACN)Fe(O)(X)](+) generated in diffe

153 The reactivities of butadiene, cyclopentadiene, furan, thiop

154 In order to quantify the electrophilic reactivities of common Michael acceptors, we measured th

155 should be taken into account when comparing reactivities of complexes bearing different ligands.

156 utoxide are not, and we explain the relative reactivities of different (hetero)arenes in the silylati

157 The reactivities of these His residues were correlated with

158 nal modes of a coordinated anion and compare reactivities of various iron(IV)-oxo complexes generated

159 Here, we characterized the reactivity of 1-cyano-2,3-epithiopropane under aqueous h

160 Comparison of the reactivity of 2 with that of a more electron-rich, cryst

161 Unexpected and unusual reactivity of 2-methylimidazolium salts toward aryl-N-su

162 report the synthesis, characterization, and reactivity of [LFe3 (PhPz)3 OMn((s) PhIO)][OTf]x (3: x=2

163 The reactivity of [Tism(Pr(i)Benz)]MgMe and [Tism(Pr(i)Benz)

164 synthesis, structural characterization, and reactivity of a series of C-bound arylpalladium fluoroen

165 resonance demonstrate that the photochemical reactivity of a specific carbon atom is modified as a re

166 amines is hard to achieve due to the higher reactivity of amine moiety.

167 and provided additional clarification on the reactivity of anodically generated stilbene cation radic

168 The reactivity of arylamines and the mechanistic study for t

169 The reactivity of beta-aminocarbonates as anisotropic electr

170 se-negative results, inconsistencies and low reactivity of commercially available kits have been obse

171 hrome P450 has been proposed to increase the reactivity of compound I with respect to C-H bond activa

172 However, despite strong cross-reactivity of convalescent antisera between related aren

173 ongly hydrophobic substituents determine the reactivity of Criegee intermediates at the air-water int

174 Reactivity of CU patients' peripheral blood basophils (n

175 The reactivity of cyclic tertiary sulfamidates derived from

176 and the factors controlling the laccase-like reactivity of different manganese oxides nanomaterials,

177 d organic matter (DOM), which influences the reactivity of DOM with trace metals.

178 The reactivity of each system was determined from the degrad

179 To investigate the reactivity of free guanidine and arginine in the formati

180 the factors that influence the light-induced reactivity of His.

181 The reactivity of IgE antibody to the extracted protein did

182 drug-specific IgG subtypes and (iii) assess reactivity of IgG antibodies against proteins modified t

183 lopment of intermolecular aminocarbonylation reactivity of iminoisocyanates with alkenes is presented

184 recent progress in the characterization and reactivity of important iron-oxygen intermediates.

185 rmation of the precursor BODIPY and the high reactivity of its 1,7-bromo groups.

186 d phenomenon in photochemistry that dictates reactivity of maleimide groups in two-photon mode.

187 On the basis of the reactivity of nitrogen Lewis acids, we prepared, for the

188 been limited by the relatively poor chemical reactivity of noble metal surfaces.

189 tral shifts by leveraging the chemoselective reactivity of novel functional groups inserted within fl

190 We exploited the reactivity of novel unsaturated electrophilic functions

191 ion may serve as a demonstration of the high reactivity of phenylborylene.

192 The unique reactivity of plasma deposited polyoxazoline was used to

193 foundation for the discovery of new modes of reactivity of polyunsaturated substrates.

194 xes of redox active ligands and explored the reactivity of reduced species with CO2.

195 rence character is the dramatically enhanced reactivity of SiH2OO, i.e., the calculated barrier for t

196 The reactivity of SMX was markedly different in solutions co

197 The reactivity of soluble Fe(III) toward known benzene photo

198 The strength, prevalence and cross-reactivity of T-cell responses towards Phl p 12 are comp

199 ifficulties due to the significantly reduced reactivity of the 6-position of the beta-d-idopyranoside

200 ses of compounds, the sensitivity and unique reactivity of the aldehyde functionality has typically r

201 We investigated reactivity of the amygdala and cortical areas to repeate

202 of fluorene derivatives is sensitive to the reactivity of the arene and changes from reductive elimi

203 es and it is compared with the structure and reactivity of the Au nanostructures prepared in the pres

204 oordinated anions can drastically affect the reactivity of the complex and should be taken into accou

205 However, the H2S reactivity of the coordinately saturated heme in neurogl

206 After the evaluation of the reactivity of the dimethyl ester derivative with various

207 We have shown that the reactivity of the donor-acceptor cyclopropane increases

208 The 1,3-bielectrophilic reactivity of the MBH bromides has been demonstrated in

209 n particular, the unprecedented nucleophilic reactivity of the symmetric [Ni(III) (mu-O)2 Ni(III) ](2

210 altered thymic selection influences the self-reactivity of the TCR repertoire during ontogeny.

211 ACs, powder, granular, and felt, changed the reactivity of the TCS molecule under hydrothermal condit

212 To investigate the reactivity of these enzymes in relation to this importan

213 cess and the factors controlling the reduced reactivity of this system with respect to the parent C60

214 lowing to overcome the still "unpredictable" reactivity of titanium ions, particularly to afford crys

215 While interest in cooperative reactivity of transition metals and Lewis acids is recei

216 Here, we describe the nature and comparative reactivity of two low-spin heme-peroxo-Cu complexes, LS-

217 The reactivity of two paramagnetic nickel(I) compounds, CpNi

218 Therefore, manipulating the reactivity of two partners to invert the course of this

219 B influenza may differentially affect cross-reactivity of vaccination-induced H3-specific hemaggluti

220 urn shapes the ligand geometry and catalytic reactivity of Zn(2).

221 To address immunological IgE cross-reactivity on molecular level, seven recombinant antigen

222 esence of airflow limitation or airway hyper-reactivity, or both).

223 lt consistent with in silico calculations of reactivity parameters.

224 e that seemingly contradicts the established reactivity pattern of polyketide phenol nucleophiles and

225 as invoked over 40 years ago to help explain reactivity patterns in cytochrome P450, and subsequently

226 and mass spectrometry techniques, and their reactivity patterns with aldehydes was investigated.

227 inherent chemical properties and established reactivity patterns.

228 C and had the highest C- and N-DBP precursor reactivity per unit carbon compared to the unheated mate

229 d threshold from intact to impaired pressure reactivity (pressure reactivity index = 0.3) were denote

230 An alpha-Gal-associated IgE cross-reactivity profile (IgE against CTX, Bos d TG, and HSA-a

231 ented herein provide insight into the facile reactivity profiles of early stage protonated Fe-N2 and

232 d to estimate the relative emergence of test reactivity, referred to here as an inter-test reactivity

233 lly, the insights gained from this structure-reactivity relationship may aid in the development of ne

234 od flow, oxygen delivery, and carbon dioxide reactivity remain unknown.

235 toffs correlating with >/=99% and 100% TP-PA reactivity, respectively.

236 upper" cerebral perfusion pressure limits of reactivity, respectively.

237 ent at low concentrations and antibody cross-reactivity results in unspecific detection that cannot b

238 Analysis of IgE reactivity revealed that ten of thirteen patients were s

239 inding energies with the experiments to give reactivity-selectivity descriptors.

240 cell clones from patients with selective GVL reactivity showed lower reactivity against nonhematopoie

241 k immunotherapy with 170 mug LPP reduced CPT reactivity significantly and increased protective specif

242 Besides initial reactivity studies of 2 toward CO2 and methanol, differe

243 In reactivity studies, 2 was shown to be a competent oxidan

244 The knowledge obtained in this reactivity study was then applied in the construction of

245 es of the mixed-valence mu-alkynyl complex's reactivity suggest that a mixed-valence pathway is less

246 ed to the largest fractions of photochemical reactivity, suggesting the strong influences from indust

247 or 8 days, and underwent an fMRI alcohol cue-reactivity task (day 7; n=81) and a bar lab paradigm (da

248 6 weeks and administered an fMRI alcohol cue reactivity task at baseline and after 2 weeks of treatme

249 ied several hundred residues with heightened reactivity that are enriched at protein functional sites

250 , were tested in ImmunoCAP ISAC((R)) for IgE reactivity to 112 single allergens.

251 r, these results suggest that E2 can augment reactivity to an ordinarily subthreshold relapse trigger

252 il activation tests were used to investigate reactivity to antivenoms in samples from 20 patients wit

253 well as borderline association with low IgE reactivity to any allergen.

254 measuring the prevalence, strength and cross-reactivity to clinically relevant profilins.

255 ociated with the increased prevalence of IgE reactivity to cypress pollen extracts because of CCD int

256 ass pollen-specific IgE, and skin prick test reactivity to grass pollen were all reduced compared to

257 ry bowel diseases vs controls, we found that reactivity to intestinal bacteria is a normal property o

258 bacterial adhesion could regulate thioester reactivity to ligand analogously to such proteolytic gat

259 Preferential loss of T-cell reactivity to Mtb epitopes that are homologous to bacter

260 n brain and blood, greater nucleus accumbens reactivity to positive emotional stimuli and enhanced fe

261 Neutrophils displayed no reactivity to rod cell loss.

262 sed depression severity and reduced amygdala reactivity to salient outcomes.

263 like sensitization of microglia and increase reactivity to secondary challenges.

264 s demonstrating a slight predominance of IgE reactivity to SPP compared to TOT and APE.

265 The cross-reactivity to structurally similar PPI was also observed

266 l impart lipophilicity to the molecule, high reactivity to the nitronyl group, and stability to the s

267 tal complexes in catalysis and compare their reactivity to their cyclopentadienyl analogues, wherever

268 (pH = 7.2), both a cationic and a diradical reactivity took place depending on the phosphonic acid u

269 hat 5-hydroxyindoles exhibit remarkably high reactivity toward aromatic diazonium ions and this react

270 O-O bond but did not lead to O-O cleavage or reactivity toward external substrates.

271 e distal heme ligand in neuroglobin caps its reactivity toward H2S and identifies by cryo-mass spectr

272 that exhibit selective carbohydrate cleavage reactivity toward l-fucose over d-glucose.

273 erpene-derived substrates, similar trends in reactivity toward tertiary and benzylic C-H bonds are ob

274 Under dry conditions, the reactivity towards SO2 uptake was highest on delta-MnO2

275 e's enzymes can lead to the discovery of new reactivity, transformations not known in biology, and re

276 ure of the spectroscopic characteristics and reactivity trends of the copper-oxygen cores discussed.

277 atients with BP without anti-BP180 NC16A IgG reactivity underwent evaluation of the diagnostic import

278 Cross-reactivity was addressed in vivo using 2 different mouse

279 perfusion pressure less than lower limit of reactivity was associated with unfavorable outcome (odds

280 the field strength about iron, odd-electron reactivity was circumvented via increased covalency.

281 fect of anhydrous GaCl3 using 1,2-zwitterion reactivity was elaborated.

282 cant decrease of retinal thickness and glial reactivity was observed without an increase in apoptosis

283 This reactivity was promoted through pre-organization of grou

284 Vascular reactivity was significantly decreased in the occipital

285 m can thus mimic elementary transition metal reactivity, which may lead to the discovery of new f-blo

286 ene analogue showed much reduced 1,2-D-shift reactivity with an estimated half-life of at least 200 s

287 ) of RBD and demonstrated their strong cross-reactivity with anti-EMC-RBD antibodies.

288 is a significant challenge owing to its high reactivity with biological thiols (with rate constants a

289 with improved stability that maintain robust reactivity with bioorthogonal phosphines.

290 uggested that these fruits demonstrate cross-reactivity with each other.

291 cies and further enabled assessment of their reactivity with electrophile.

292 tinins (HAs) were constructed and probed for reactivity with ferret antisera against MN/10 and BJ/92

293 main proteins are a result of antibody cross-reactivity with human and porcine fVIII leading to false

294 lecular mechanisms that control T-cell cross-reactivity with important implications for pathogen surv

295 probe efficacy; an ideal probe exhibits high reactivity with its protein targets (low in alpha) and i

296 lomegaly in the BDG group) or carbon dioxide reactivity with neurological injury.

297 Its structure and its reactivity with organic substrates are demonstrated thro

298 ollen extract, while displaying a weak cross-reactivity with other allergens of the PR-10 family.

299 The aptasensor did not show cross reactivity with other commonly used pesticides such as f

300 proximately 23% of FeTOTAL, exhibits minimal reactivity with TcO4(-) and CrO4(2-) and much slower rea