ライフサイエンスコーパス: reducing condition

1 ad witout severing the disulfide bonds under reducing condition.

2 valin A, and C-reactive protein under charge reducing conditions.

3 ganophosphate and promote the development of reducing conditions.

4 ntrations were associated with geochemically reducing conditions.

5 hich is preferentially lipoylated under less reducing conditions.

6 lide, and a vinyl triflate to epoxides under reducing conditions.

7 presence of octadecyl sulfate inducer under reducing conditions.

8 of EC because of its formation under highly reducing conditions.

9 egradation considerably slower under sulfate-reducing conditions.

10 rrelation of Fe and Cd changes under Fe(III)-reducing conditions.

11 soil is faced with organic carbon input and reducing conditions.

12 lysates were subjected to SDS-PAGE under non-reducing conditions.

13 dry weight basis) under nitrate- and sulfate-reducing conditions.

14 e (As(III)) with Fe(III)-NOM complexes under reducing conditions.

15 synapse of untransformed human T cells under reducing conditions.

16 rcury formation, under iron(III) and sulfate reducing conditions.

17 er facilitates cargo release, but only under reducing conditions.

18 are highly stable under both denaturing and reducing conditions.

19 eral in the redox cycling of U under sulfate reducing conditions.

20 which could be significantly abolished under reducing conditions.

21 bearing colloids that can be released during reducing conditions.

22 e fusion, but bioactivity was restored under reducing conditions.

23 nant population during stimulation for metal-reducing conditions.

24 particles that deshield under intracellular reducing conditions.

25 glutathione, and mercaptoacetic acid, under reducing conditions.

26 tivated by removal of oxygen and exposure to reducing conditions.

27 ntiated, for most of its history, under very reducing conditions.

28 binant human protein, residues 47-152, under reducing conditions.

29 ggregation of zinc-deficient SOD under thiol-reducing conditions.

30 robically isolated RibL is active only under reducing conditions.

31 M and was resistant to heat denaturation and reducing conditions.

32 , could be a source of As to porewater under reducing conditions.

33 d chemical state in response to oxidizing or reducing conditions.

34 consisting of six or more monomers under non-reducing conditions.

35 with appropriate metal salt solutions under reducing conditions.

36 y the ArcAB system, which is activated under reducing conditions.

37 ivation of apo-dinitrogenase under anaerobic-reducing conditions.

38 der certain anaerobic conditions, e.g., TMAO-reducing conditions.

39 del describing the catalytic mechanism under reducing conditions.

40 ulfides with substituted benzaldehydes under reducing conditions.

41 and decameric forms when purified under non-reducing conditions.

42 e in adaptation of this organism under metal-reducing conditions.

43 occurred only under anaerobic (per)chlorate-reducing conditions.

44 elevated transcript levels across all metal-reducing conditions.

45 These interactions were eliminated under reducing conditions.

46 ases in relative mRNA abundances under metal-reducing conditions.

47 y to reduction by this reagent under typical reducing conditions.

48 plex is heat stable and unaffected by SDS or reducing conditions.

49 the deposition of La(0.5)Sr(0.5)FeO(3) under reducing conditions.

50 , whereas C53A binds DNA under oxidizing and reducing conditions.

51 grated as a 90-kDa protein on SDS-PAGE under reducing conditions.

52 ng conditions and a single 25 kDa band under reducing conditions.

53 gative regulator of SigH activity only under reducing conditions.

54 rwise SDS-resistant eNOS dimers occurs under reducing conditions.

55 isolated as a stable covalent species under reducing conditions.

56 and yielded multiple bands in SDS-PAGE under reducing conditions.

57 or even when collagen I was denatured under reducing conditions.

58 c/apyrimidinic sites within duplex DNA under reducing conditions.

59 nder nonreducing conditions and 34 kDa under reducing conditions.

60 ions similarly to the 3-repeat isoform under reducing conditions.

61 ubated with iron and sulfide under anaerobic reducing conditions.

62 e-enriched RELM alpha is a monomer under non-reducing conditions.

63 NA, but forms heterodimers with TB-RBP under reducing conditions.

64 odimer that can be converted to a monomer by reducing conditions.

65 eitol, but multimers sized >40 kDa under non-reducing conditions.

66 vation was reversed rapidly by imposition of reducing conditions.

67 taining granulysin peptides is unaffected by reducing conditions.

68 SDS-polyacrylamide gel electrophoresis using reducing conditions.

69 vefold by treatment with sulfide (HS-) under reducing conditions.

70 he MoFe and Fe proteins of nitrogenase under reducing conditions.

71 24.15 was significantly diminished under non-reducing conditions.

72 or Tc(IV)-sulfides during the development of reducing conditions.

73 us acetate amendment had resulted in sulfate-reducing conditions.

74 phosphate on schwertmannite stability under reducing conditions.

75 on of Cp*2 Ln(BPh4 ) with HAN under strongly reducing conditions.

76 tate, when alternating between oxidizing and reducing conditions.

77 cts with recombinant CD206 when subjected to reducing conditions.

78 or consequences for As/Fe/S speciation under reducing conditions.

79 t pH 6.5 and 8.5, which became soluble under reducing conditions.

80 ultiple reversible redox events under highly reducing conditions.

81 e synthesized and reacted with NpO2(+) under reducing conditions.

82 emarkably similar under aerobic and fumarate-reducing conditions.

83 ity in natural environments under moderately reducing conditions.

84 of (bpy)NiCl2 and a chiral titanocene under reducing conditions.

85 trypsin inhibitory activity (TIA) under non-reducing conditions.

86 jected to successive cycles of oxidizing and reducing conditions.

87 lues obtained using normal (i.e., non-charge-reducing) conditions.

88 c (less reducing) and anaerobic (microbially reducing) conditions.

89 st time, determined in two field sites under reducing conditions (2.1 +/- 0.1 and 2.2 +/- 2.9).

90 d per min/mg of Fe protein) as compared with reducing conditions (80-230 nmol of MgNDP formed per min

91 Mild reducing conditions allowed for selection of the most th

92 The trimers were stable under reducing conditions, although disulfide bonds appear to

93 SDS-polyacrylamide gel electrophoresis under reducing conditions and 95 kDa by chromatography on Supe

94 ted that BST2 formed a stable tetramer under reducing conditions and a dimer when oxidized to form di

95 pendence on Dopa, which is most stable under reducing conditions and acidic pH.

96 w, water-logging and O(2) limitation lead to reducing conditions and an increase in abundance of Fe(I

97 compounds retain substantial activity under reducing conditions and are fully reversible on the 10-m

98 1C mutant proteins migrated at 120 kDa under reducing conditions and displayed a partial mobility shi

99 land may become a source of As under sulfate-reducing conditions and emphasize the pivotal role Fe-ri

100 sembly of tau(297-391) under reduced and non-reducing conditions and for truncated tau carrying a C32

101 The electrodes produce reducing conditions and H(2) at the cathode and oxidizin

102 of purified Hsp70 and Hsc70 is minimal under reducing conditions and increases in environments that m

103 was labeled using sodium pertechnetate under reducing conditions and injected intravenously into CAIX

104 inking followed by Endo Lys-C cleavage under reducing conditions and intramolecular radiolabel transf

105 ) occurs on the pyrite surface under suboxic-reducing conditions and is promoted at low pH.

106 es to protein complex structure under charge reducing conditions and may be used for native mass spec

107 Altogether, we showed that reducing conditions and mutations in the DSB system caus

108 s(III) and precipitated as AsS under sulfate-reducing conditions and remained as As(V) under abiotic

109 cystin ectodomains can be released under non-reducing conditions and resolve at 300 kDa.

110 and ternary complexes survive SDS-PAGE under reducing conditions and take on a compact conformation t

111 drite as a competing mineral adsorbent under reducing conditions and tested their stability against o

112 f precursors, such as oxides, but the highly reducing conditions and the low mobility of N(3-) specie

113 ls were grown from Cys mutant peptides under reducing conditions and then challenged with an alkylati

114 the stability field of Cu(II) to moderately reducing conditions and to reduce the stability field of

115 o low concentrations of SDS and sensitive to reducing conditions and ultracentrifugation.

116 he MYB domain of c-MYB, binds DNA only under reducing conditions, and its binding is significantly af

117 thiol Cys(87) was not alkylated by BES under reducing conditions, and no amino acid residues were mod

118 c environments, but that its stability under reducing conditions, and thus capacity for nutrient and

119 vinosum determined with NMR spectroscopy in reducing conditions, and we describe the redox behavior

120 rates were 20 times higher under dithionite reducing conditions (approximately 4,000 nmol of MgADP f

121 ater interface under the expected anoxic and reducing conditions are a matter of debate.

122 wever, this is a short-lived solution unless reducing conditions are maintained over the hazardous li

123 evious work has suggested that anoxic and/or reducing conditions are needed to synthesize the Fe-rich

124 When reducing conditions are no longer maintained, Mn redox c

125 nd all recognized VCP on Western blots under reducing conditions as well as native-bound VCP in a san

126 polonate (H(2)PoO(3)(aq)) or, under strongly reducing conditions, as a hydrogen-polonide anion (HPo(-

127 DI units in the two cyclic derivatives under reducing conditions, as determined by differential pulse

128 supported nanoparticles under oxidizing and reducing conditions, as well as the transformation from

129 Under reducing conditions at 30 degrees C, E2cd had a concentr

130 ike structures on incubation at pH 6.9 under reducing conditions at 35 degrees C during 90 min.

131 the primary arsenic-bearing phase in sulfate-reducing conditions at concentrations of 1-3 mmol.kg(-1)

132 OD1 destabilization under cellular disulfide-reducing conditions at physiological pH and temperature

133 n approximately 210-kDa antigen which, under reducing conditions, became a 35-kDa antigen.

134 e range of pH values (pH 2.8 to 12.8), under reducing conditions (biological thiols such as glutathio

135 Under reducing conditions, both the predicted PSGL-1 approxima

136 Under reducing conditions, both wild-type GluR2 and the G725C

137 lacement results in T(m) < 0 degrees C under reducing conditions but shows a broad transition (T(m) a

138 Yap1p was purified under reducing conditions, but removal of reducing agents resu

139 ntracellular region is diminished under mild reducing conditions by DTT and enhanced by H(2)O(2) oxid

140 scherichia coli, the cytoplasm is kept under reducing conditions by the thioredoxins with the help of

141 The band was shifted to 41 kDa in the reducing condition, confirming that BAT1 and rBAT are li

142 ectrophoresis shows two fragments only under reducing conditions, confirming the existence of a disul

143 h regulates NRF2 stability only under normal reducing conditions, CRIF1 regulates NRF2 stability and

144 It is interesting that under non-reducing conditions, Cys-49 and Cys-53 form a disulfide

145 analyses of CEACAM16 under reducing and non-reducing conditions demonstrated oligomerization via unp

146 tein lysate from keratinocytes, using strong reducing conditions, demonstrates two KPRP bands of appr

147 SDS-PAGE under reducing and non-reducing conditions did not reveal differences between p

148 onsidered effective arsenic (As) sinks under reducing conditions due to the binding of As(III) to thi

149 the ER is oxidizing and this shifts towards reducing conditions during ageing, whereas in the cytoso

150 A progression from oxidizing to reducing conditions during an eight-month period trigger

151 vity was strongly dependent upon maintaining reducing conditions during purification and storage.

152 honic acid (AMPA) degradation occurred under reducing conditions during the summer.

153 ation, are mixed and subjected to controlled reducing conditions during which they exchange heavy-lig

154 ioarsenates form from arsenite under sulfate-reducing conditions, e.g., in rice paddy soils, and are

155 itions (Eh = +0.28 to -0.64 V) and SWy under reducing conditions (Eh = -0.64 V) was consistent with p

156 Wy) under anoxic (O2 < 0.1 ppm) and strongly reducing conditions (Eh = -0.64 V).

157 abolished the fragmentation, and low pH and reducing conditions enhanced NOTCH3 proteolysis.

158 ated with redox regulator Ref-1 and cellular reducing condition enhances the effect of SCF on gamma-g

159 s of protein extracts under reducing and non-reducing conditions, evidence of intermolecular associat

160 Under non-reducing condition, exposed cysteines form intermolecula

161 Under reducing conditions, exposure to Fe(II) induces mineral

162 Thus, under short-term Fe(III)-reducing conditions facilitating the fast attainment of

163 ecome buried, and eventually be subjected to reducing conditions facilitating trace metal(loid) relea

164 pre-GOE atmospheric aberrations toward more reducing conditions-featuring a methane-derived organic-

165 Under reducing conditions, flocs may become exposed to aqueous

166 We show that the C53S mutation requires reducing conditions for DNA-binding, whereas C53A binds

167 nvestigated continuous As mobilization under reducing conditions for more than 3 months.

168 In one approach, amyloid fibrils grown under reducing conditions from each of three double cysteine m

169 by multistep chromatography under anaerobic, reducing conditions from the hyperthermophilic archaeon

170 biological [2Fe-2S] cluster breakdown under reducing conditions generally releases Fe(2+) from the p

171 Under reducing conditions, goethite commonly coexists with aqu

172 Reducing conditions greatly enhanced PMS uptake by C. al

173 e thiols of hBCATc, which implied that under reducing conditions GSH was operating as a thiol donor w

174 t flow conditions, demonstrated that Fe(III)-reducing conditions had developed by 60 days.

175 emediation via the generation of microbially reducing conditions has the potential to remove aqueous

176 The reducing conditions in a nuclear waste repository render

177 se (up to 9 muM) was strongest under sulfate reducing conditions in areas receiving the highest loadi

178 KDH are exclusively lipoylated under strong reducing conditions in contrast to the H-protein which i

179 s an important sequestration mechanism under reducing conditions in peatlands and other high-organic

180 its of molecular mass of 28 and 30 kDa under reducing conditions in SDS/PAGE.

181 ticularly arsenic-sulfur interactions, under reducing conditions in soils, sediments, and shallow gro

182 bodies are mixed and subjected to controlled reducing conditions in vitro that separate the antibodie

183 In wild-type channels, reducing conditions increase the frequency and decrease

184 but for leaves P-fertilization together with reducing conditions increased the As(V) content compared

185 complex [Fe(cyclohexyl)4 ] from Fe(II) under reducing conditions is best explained by disproportionat

186 This sensitivity to reducing conditions is not a general property of mutants

187 ulfate reducing bacteria (SRB) under sulfate-reducing conditions is probably one of the most importan

188 tivation mediated by rare-earth metals under reducing conditions is reported.

189 se inhibitor cystatin under oxidizing versus reducing conditions is the first experimental case in wh

190 The maintenance of reducing conditions is thus regarded as the primary stra

191 While electron transfer to and from HS under reducing conditions is well investigated, comparatively

192 arison of folding kinetics, in oxidizing and reducing conditions, is used to elucidate the order in w

193 When subjected to reducing conditions, jarosite may undergo reductive diss

194 We find that reducing conditions lead to arsenic release from histori

195 becomes more siderophile than Ta under very reducing conditions, leading the way for the accepted hy

196 o newly formed Fe(III) (oxyhydr)oxides under reducing conditions leads to a transient stabilization o

197 the iron(V) nitrido complex with water under reducing conditions leads to high yields of ammonia with

198 pacities, SRB communities in natural sulfate reducing conditions likely have a significant and specif

199 The precursor is trapped under highly reducing conditions (<-0.5 V vs SHE) that prevent fusion

200 nding sites of humic substances formed under reducing conditions may also act as binding sites for tr

201 formation of sulfide-bearing cumulates under reducing conditions may be a critical step in continent

202 on sulfide precipitates formed under sulfate reducing conditions may buffer U(IV) insoluble solid pha

203 Under reducing conditions, Mel-CAM's Ig domains were found to

204 lic acid fluorides or 2-pyridyl esters under reducing conditions (Mn metal).

205 sults demonstrate that under anoxic, nitrate-reducing conditions, motility can control microbial habi

206 As an alternative to the strongly reducing conditions necessary for the formation of silac

207 Under reducing conditions of SDS-polyacrylamide gel electropho

208 e (Ca0.4Ce0.4TiO3) was stabilized due to the reducing conditions of this technique.

209 ter under non-reducing conditions than under reducing conditions on SDS-PAGE.

210 oximately 120 kDa under both nonreducing and reducing conditions on SDS-polyacrylamide gel electropho

211 imally active when cultures were grown under reducing conditions or when the disulfide bonding system

212 en acetate addition and the onset of sulfate reducing conditions over subsequent amendments, from 20

213 Under reducing conditions, p75-TM-WT is in a monomer-dimer equ

214 ominantly fermentative conditions, and where reducing conditions persisted for several months after i

215 f NOM leads to less mobilization of Cd under reducing condition possibly by inhibiting ferrihydrite t

216 nnealing conditions to 8.0 x 10(8) s(-1) for reducing conditions, presumably due to an enhanced elect

217 t levels drop rapidly as animals mature, and reducing conditions prevail throughout the reproductive

218 oterozoic Eon, pushing it away from the more reducing conditions prevalent during the Archean.

219 nt belief that core formation occurred under reducing conditions, proposes that Earth's magma ocean s

220 eduction across the nanoporous wall required reducing conditions, provided by Escherichia coli, and a

221 the disulfide would form under intracellular reducing conditions, raising the possibility that this u

222 as composed of fibrous elements which, under reducing conditions, rapidly decomposed into individual

223 As, Fe, and Mn speciation under microbially reducing conditions remains largely unknown.

224 ion of metal coordination interactions under reducing conditions, respectively.

225 by applying different Eapp potentials, more reducing conditions resulted in faster Rp.

226 SDS-PAGE in non-reducing and reducing conditions revealed the polypeptide composition

227 lyacrylamide gel electrophoresis of LF under reducing conditions revealed two subunits of 57 and 60 k

228 the native CD3delta segment in oxidizing and reducing conditions reveals numerous spectral difference

229 Switching the electrode potential to reducing conditions reverses the proton translocation an

230 Under reducing conditions, RyR1 and RyR3 activities are inhibi

231 dodecyl sulfate containing medium under non-reducing conditions (SDS-EP-NR) from wheat dough decreas

232 By contrast, mild reducing conditions selectively disrupted the N-terminal

233 subjected to Western blot analysis under non-reducing conditions, several immunoreactive species were

234 Cultures incubated under nitrate-reducing conditions showed significant carbon and highly

235 Electrophoretic analysis under reducing conditions showed that the high molecular weigh

236 Limited proteolysis of BjPutA under reducing conditions shows FAD reduction does not influen

237 Chemical crosslinking in reducing conditions shows that disulfide bridges are inv

238 The anaerobic pre-treatment under iron-reducing conditions significantly enhanced the removal o

239 ed nanowires with metal salt solutions under reducing conditions, site-specific diffusion occurs to c

240 Under Fe(3+)-reducing conditions, soil Fe(2+) oxidation has been show

241 In addition, based on the resistance to mild reducing conditions, structured des species appear to fo

242 alyze the oxidation of MT even under overall reducing conditions such as those prevailing in the cyto

243 -splicing by excluding proteins sensitive to reducing conditions, such as those containing critical d

244 ase in activity and GSS-Ras was labile under reducing conditions, suggesting the essential nature of

245 britin construct was more stable to heat and reducing conditions than the GCN4 construct.

246 and pea thylakoids migrated faster under non-reducing conditions than under reducing conditions on SD

247 erals buffer metamorphic fluids to extremely reducing conditions that are capable of producing hydrog

248 -DNA complexes were detected under different reducing conditions that differed 5-fold in their dissoc

249 ation by o,o'-dityrosine cross-linking under reducing conditions that disrupt disulfide bridges, but

250 ding-site interfaces, but can be restored by reducing conditions that promote disulfide bond breakage

251 ic precursors that are incompatible with the reducing conditions that promote N(2) reactivity(1), whi

252 influenced environments, indicates strongly reducing conditions that were favorable for the abiotic

253 Under reducing conditions that would promote the reductive cle

254 olubilized from the perinuclear matrix under reducing conditions (the SOAF transition) to generate SO

255 on equilibrium studies reveal that under non-reducing conditions, the Bre5 NTF2-like domain is exclus

256 Under reducing conditions, the cysteines do not form disulfide

257 In reducing conditions, the DsrC structure is disordered in

258 Under reducing conditions, the gel band of the 70 kDa polypept

259 However, under reducing conditions, the monomeric receptor species repr

260 denaturation studies demonstrate that, under reducing conditions, the monomeric Tom1 VHS domain switc

261 exhibited, upon treatment with CO and under reducing conditions, the NiFeC EPR signal quantifying to

262 proposed for sulfide oxidation under nitrate reducing conditions, the sulfide:quinone oxidoreductase

263 Under reducing conditions, the WT and all Cys-substituted form

264 zyme activity of BoNT/A revealed that, under reducing conditions, there was a strong correlation in t

265 Molybdenum precipitates preferentially under reducing conditions; therefore, its occurrence in sedime

266 srupt a thumb-fingers salt-bridge and, under reducing conditions, this mutant enzyme shows reduced pr

267 Under non-reducing conditions, threshold concentrations of 3-repea

268 the included paramagnetic moieties in highly reducing conditions through the formation of the supramo

269 nd the 60-kDa fragment were joined under non-reducing conditions, thus confirming Cys-450 participate

270 nerals could be a sink for Cd in soils under reducing conditions, thus decreasing the mobility of Cd

271 re, we report a selective route under highly reducing conditions to monohydrodeaminate the 2,3-di(met

272 h employing the cysteine protease IdeS under reducing conditions to obtain three mAb subunits of appr

273 esent, emphasizing the importance of sulfate-reducing conditions to uranium retention and the essenti

274 ts interaction with system soil/water in the reducing conditions typical of paddy fields and is influ

275 conditions that are much different from the reducing conditions under which the E chondrites formed.

276 and ethanol mixtures under iron- and nitrate-reducing conditions, using in situ push-pull tests.

277 arallel picosecond experiment under strongly reducing conditions was also done as a control experimen

278 rization of tau protein into filaments under reducing conditions was characterized through a combinat

279 gher than on STx, whereas the sorption under reducing conditions was essentially the same.

280 urface facet on Pt-CeO(2) interactions under reducing conditions was revealed.

281 structures and chemistry under oxidizing and reducing conditions was studied with ambient-pressure XP

282 A 100-kDa protein (under non-reducing conditions) was found to bind the radiolabeled

283 the protein and its mutants to oxidizing and reducing conditions, we demonstrated that ssDNA binding

284 Free Ag(+) activities under reducing conditions were controlled by Ag(0) formation r

285 sembly kinetics and extent of assembly under reducing conditions were differentially sensitive to ion

286 ow release and degradation of EVO with time, reducing conditions were sustained for approximately one

287 Under reducing conditions where alpha-lactalbumin (LA) unfolds

288 ovel pathway of tau filament formation under reducing conditions, where oxidation may contribute to f

289 riched protein almost exclusively under iron-reducing conditions whereas the Leptospirillum spp. synt

290 MON persisted under fermentative/sulfate-reducing conditions, whereas SAL was transformed by ferm

291 ong-lived daf-2 mutants transition faster to reducing conditions, whereas short-lived daf-16 mutants

292 corresponding to approximately 120 kDa under reducing conditions, whereas under nonreducing condition

293 the early transition metals especially under reducing conditions which enable the controlled linking

294 anionic radical, seen primarily under weakly reducing conditions, which is present in wild type, and

295 ary conditions, ruling out the need for very reducing conditions, which lead to an overdepletion of N

296 est that U(IV) can be mobilized under deeply reducing conditions, which may contribute to maintenance

297 " bands are recovered, not discernible under reducing conditions, which represent minor species that

298 re of these archaea under anaerobic, nitrate-reducing conditions with a continuous supply of methane.

299 The use of reducing conditions with aryl bromides as coupling partn

300 In environments with high organic carbon, reducing conditions within aggregate cores (microbially)