ライフサイエンスコーパス: alkaline

1 beta-sheet by changing the pH from acidic to alkaline.

2 mary proteases being cysteine proteases, and alkaline (8 to 9) in the saliva and salivary gland with

3 and inexpensive method of purification from alkaline acai extract.

4 imide aminolysis is achieved by using weakly alkaline ammonia containing buffers (pH < 9) in order to

5 ctive sites toward high OER activity in both alkaline and acidic electrolytes.

6 ctrocatalytic production of hydrogen in both alkaline and acidic environments.

7 tion (ORR) compared to Pt/C catalyst in both alkaline and acidic media.

8 h, which is the best OER performance in both alkaline and acidic media.

9 s is usually because the mud, which contains alkaline and ionic species, adheres strongly to the surf

10 d electro-catalysts have been identified for alkaline and neutral medium water electrolysis and fuel

11 ble periods of time and steadily export this alkaline and saline water even during the dry periods of

12 taining "whitening" toothpastes, followed by alkaline and surfactant-rich toothpastes.

13 fied as affected by the isolation procedure (alkaline and/or salt-induced extraction followed by isoe

14 wide pH range covering acidic, neutral, and alkaline) and alcohol media.

15 les were protein solubilization pH (acid vs. alkaline) and blending step (before or after protein pre

16 auxite residue are characteristically highly alkaline, and have elevated concentrations of Na, Al, an

17 system makes it possible to operate a 1.2 V alkaline anthraquinone/ferrocyanide redox battery with a

18 to form phenylboronate ester bonds in mildly alkaline aqueous solution (pH approximately 10).

19 However, incubation of HMW oAbeta in mildly alkaline buffer led to their quantitative dissociation i

20 getable oil before the deodorization step by alkaline carbonates or hydrogen carbonates can completel

21 ch is considerably easier in the presence of alkaline cations for a CO dimer compared to a CO monomer

22 c sponge anodes can be cycled in nickel-zinc alkaline cells hundreds to thousands of times without un

23 ctor elevates the performance of nickel-zinc alkaline cells in three fields of use: (i) >90% theoreti

24 e PARP activation, spontaneous DNA damage by alkaline comet assay, basal micronuclei levels, the numb

25 and a Tafel slope of 78 mV per decade under alkaline conditions (pH 13).

26 t-activated persulfate, transformation under alkaline conditions (pH approximately 12) and reductive

27 unusually high activity and stability under alkaline conditions (pH range 8-11).

28 i substrates with TiO2 nanowires grown under alkaline conditions at 240 degrees C for different times

29 HNQ was treated with hydrogen peroxide under alkaline conditions at pH 10, resembling the conditions

30 accessibility, anthocyanin degradation under alkaline conditions in the gastrointestinal tract domina

31 used as a bifunctional electrocatalyst under alkaline conditions to split water at very low potential

32 an important role in Fe(III) reduction under alkaline conditions with nearly 45% of the observed Fe(I

33 ollowing metabolic traits: (i) SYK-6 prefers alkaline conditions, making it an efficient host for the

34 However, when germinated under stressful alkaline conditions, OcXII-silenced plants exhibited imp

35 n lignin, often using dissolved lignin under alkaline conditions, often generates a wide range of val

36 ed slower growth at germination under ABA or alkaline conditions, while maintaining very high levels

37 iments show that cyclization is faster under alkaline conditions, with an effective molarity up to 29

38 s beads, while influence was more evident at alkaline conditions.

39 homodimers, are activated by both acidic and alkaline conditions.

40 in the presence of Ca(2+), especially under alkaline conditions.

41 fer and sodium cyanide for derivatization in alkaline conditions.

42 In this study, the alkaline CuO oxidation, which liberates a set of lignin-

43 er-like substrate coated with Bi(OH)3 or its alkaline derivatives at pH 11.

44 subsequently characterized under a practical alkaline direct ethanol fuel cell operation condition fo

45 , and TKN was converted to ammonia gas in an alkaline donor stream of the system.

46 ctural and reaction chemistry of the heavier alkaline earth (Ae = Mg, Ca, Sr, Ba) elements.

47 Hypermetallic alkaline earth (M) oxides of formula MOM have been studi

48 ecognition of Ag(+) among 20 various alkali, alkaline earth and transition metal ions.

49 ORR on eight platinum (Pt)-lanthanide and Pt-alkaline earth electrodes, Pt5M, where M is lanthanum, c

50 The use of heavier alkaline earth hydride derivatives as pre-catalysts and

51 gether under ambient conditions, we examined alkaline earth ion substitution for two A, i.e., materia

52 only the primary ion, but also the secondary alkaline earth ion, based on the ion-exchange mechanism,

53 asis for analyzing the binding of alkali and alkaline earth metal atoms over a broad range of systems

54 own SHG active AMCO3F (A = alkali metal, M = alkaline earth metal, Zn, Cd, or Pb) materials indicates

55 Doubly charged molecular ions of alkaline earth metals and argon could be identified as s

56 ither a preferential accumulation of heavier alkaline earth metals nor core-shell structures in the c

57 al contained higher concentrations of salts, alkaline earth metals, and organic chemicals.

58 ite general phenomenon: among the alkali and alkaline earth metals, Na and Mg generally have the weak

59 The calculations also predict that alkaline-earth metal-porphyrin COFs could catalyze the d

60 mA/cm(2) at 300 mV, with high durability in alkaline electrolyte of 1 M KOH even after 10,000 cycles

61 geometric current density 10 mA cm(-2) in an alkaline electrolyte, with the Tafel slope of 32 mV dec(

62 yst makes it a very promising air cathode in alkaline electrolyte.

63 retained ORR activity after 10 h running) in alkaline electrolyte.

64 performance for oxygen reduction reaction in alkaline electrolyte.

65 activity similar to platinum-group metals in alkaline electrolyte.

66 Pt/C and Ir/C catalyst for an air cathode in alkaline electrolyte.

67 s for the oxygen evolution reaction (OER) in alkaline electrolytes and are therefore of great scienti

68 ed proton is very stable even in neutral and alkaline electrolytes.

69 preference for the four-electron pathway in alkaline electrolytes.

70 cheap, active, and stable, particularly for alkaline electrolyzers, where the cathodic hydrogen evol

71 promise as efficient, low-cost catalysts for alkaline electrolyzers.

72 A local alkaline environment near the electrode surface, caused

73 n reaction, often needs to be implemented in alkaline environment.

74 TMC-1 is required for worms to avoid noxious alkaline environment.

75 action as well as overall water splitting in alkaline environment.

76 talysts must be developed in order to enable alkaline exchange membrane fuel cells (AEMFCs).

77 y to this destruction is the virally encoded alkaline exonuclease SOX.

78 was reduced down to 39.6% in presence of the alkaline extract and down to 4.4% in the presence of the

79 cold pressed RPC, RPC fiber isolate and RPC alkaline extract on the formation of acrylamide and 5-hy

80 g the transformation of COPR minerals in the alkaline extraction and improving extraction of Cr(VI) f

81 n alpha and conglutin gamma decreased during alkaline extraction compared to salt-induced extraction.

82 ed during the processing of soybean milk, by alkaline extraction following isoelectric precipitation.

83 o intriguing resistance of DTM-bound PEX5 to alkaline extraction reflects its direct contact with the

84 Proteins present in the alkaline extraction wastewater were recovered at pH 3, 4

85 em of the pancreas secretes large volumes of alkaline fluid containing HCO3(-) concentrations as high

86 d are thus promising new anode catalysts for alkaline fuel cell applications.

87 treatment of enzyme hydrolysates by means of alkaline-hydroalcoholic saline solutions (NaOH: 0.54 M,

88 nts, which cooperate synergistically towards alkaline hydrogen evolution reaction.

89 before conversion to NO2(-) and NO3(-) in an alkaline hydrogen peroxide (H2O2) solution.

90 Following alkaline hydrolysis (120 degrees C for 12h), hydrolysate

91 dation by thermally activated persulfate and alkaline hydrolysis (17 +/- 2 and 13.0 +/- 0.8, respecti

92 r thousand and -4.4 +/- 0.4 per thousand for alkaline hydrolysis (pH 11.84 +/- 0.03), and -33 +/- 11

93 treatment with proteases and carbohydrases, alkaline hydrolysis and PLE with ethanol:water as extrac

94 To expand the applicability of the probe, an alkaline hydrolysis and solvent extraction procedure was

95 at 37 degrees C during 15min followed by an alkaline hydrolysis at 37 degrees C was the best treatme

96 calculations show that the mechanism for the alkaline hydrolysis of squaramic acids is quite similar

97 Extraction was carried out with or without alkaline hydrolysis to determine if these molecules accu

98 determined as a function of enzymatic and/or alkaline hydrolysis treatment of the rice residue obtain

99 nation and E1CB elimination mechanism during alkaline hydrolysis) where a secondary AKIECl (1.00045 +

100 d reaction pathways for HMX decomposition by alkaline hydrolysis, the kinetics of the entire process

101 Porous mineral formations near subsea alkaline hydrothermal vents embed microenvironments that

102 and Cu(polycrystalline) electrodes in 0.1 M alkaline hydroxide electrolytes (LiOH, NaOH, KOH, RbOH,

103 ation of Na(+)-loading, and recovery from an alkaline load) that have been proposed for its physiolog

104 stant during pHi recovery from intracellular alkaline loads imposed by reducing [CO2 ].

105 n in melts may be used as a geobarometer for alkaline magmas.

106 in retarding the degradation of curcumin in alkaline media (only 25-28 40% degraded in 10h at pH 13)

107 This carbide is chemically stable in alkaline media and over the potential range of an air ca

108 H2 oxidation kinetics on Pt in alkaline media are very sluggish, being over 100 times s

109 red in the gas phase for oxygen evolution in alkaline media at an Inconel 625 alloy electrocatalyst d

110 ion was complemented using weakly acidic and alkaline media for the oil extraction.

111 volution and oxidation reaction (HER/HOR) in alkaline media limits many practical applications involv

112 e best electrocatalysts for this reaction in alkaline media so far.

113 s worse catalytic performance in neutral and alkaline media than in acidic environment may be problem

114 amine N-oxide when nitroxyls are oxidized in alkaline media.

115 ctive for oxygen reduction reaction (ORR) in alkaline media.

116 y exploited for methanol electrooxidation in alkaline media.

117 ious metal benchmarks for the ORR and OER in alkaline media.

118 u nanoparticles-as H2 oxidation catalysts in alkaline media.

119 e HOR on representative catalytic systems in alkaline media.

120 y previously reported OER electrocatalyst in alkaline medium and energy efficiency of an electrolyzer

121 he luminol - N-bromosuccinimide system in an alkaline medium was used for the CL determination of phe

122 CP<1) and towards the cathode in ME samples (alkaline medium, pH/LCP>1).

123 is strongly quenched upon addition of DA in alkaline medium.

124 ty of 10 mA cm(-2) and high durability in an alkaline medium.

125 ability towards oxygen reduction reaction in alkaline medium.

126 etyltrimethylammonium Bromide (CTAB) Method, Alkaline Method, Urea Method, Salt Method, Guanidinium I

127 d carbonate mineral ikaite, present a unique alkaline microbial habitat only found in Ikka Fjord (SW-

128 Therefore, the alkaline microwaving pretreatment could become an altern

129 (RSM) was used to investigate the effect of alkaline microwaving process for manure pretreatment at

130 Microwave assisted with alkaline (MW-A) condition was applied in the pretreatmen

131 The herpes simplex virus (HSV) type I alkaline nuclease, UL12, has 5'-to-3' exonuclease activi

132 dox chemistry of the most important class of alkaline OER catalysts.

133 adsorption onto sediment minerals in acidic, alkaline or high ionic-strength aqueous media that often

134 ive sorbents for sequestering U from acidic, alkaline or high ionic-strength contaminated aqueous med

135 ruses, the CNV capsid swells when exposed to alkaline pH and EDTA.

136 genus, the CNV capsid swells when exposed to alkaline pH and EDTA.

137 The autoxidation of dihydropyoverdine at alkaline pH and the presence of high copper concentratio

138 zed, little is known about how animals sense alkaline pH in the environment.

139 Transcriptomic responses to alkaline pH or calcium excess exhibited minimal similari

140 ed temperatures (45-55 degrees C) and in the alkaline pH region (6-10.5).

141 High pressure (in the kbar range) and alkaline pH were used to disassemble fibrils to collect

142 s environmental cues, such as bile salts and alkaline pH, but how these factors influence ToxR is not

143 soluble protein at pH 3 and 7 and 50-90% at alkaline pH, compared with the control.

144 tant roles for BbpacC in mediating growth at alkaline pH, regulating secondary metabolite production,

145 oxidative maturation in vitro occurs only at alkaline pH, suggesting a proton-coupled electron transf

146 OSM-9, which is sensitive to both acidic and alkaline pH, TMC-1 is only required for alkali-activated

147 In contrast, alkaline pH, which is one of the factors that leads to T

148 nic fungus Beauveria bassiana resulted in an alkaline pH-dependent decrease in growth and pH-dependen

149 hese bases by employing high temperatures or alkaline pH.

150 wders was higher at elevated temperature and alkaline pH.

151 atures ( approximately 140 degrees C) and/or alkaline pH.

152 ng is observed until LacY is destabilized at alkaline pH.

153 withstand harsh conditions like drought and alkaline pH.

154 rogenic acid induced greening that occurs at alkaline pH.

155 cidic (pH 6-7) and oxic conditions to mildly alkaline (pH 7-8.5) and anoxic conditions.

156 the organic exudate under acidic (pH 4) and alkaline (pH 8) conditions.

157 vestigated here under both acidic (pH 4) and alkaline (pH 8) conditions.

158 nthesized by a facile hydrothermal method in alkaline phase at low temperature to detect the melamine

159 synthesized using the hydrothermal method in alkaline phase.

160 f KIT D816V EAB >/=25%, tryptase >/=50%, and alkaline phosphatase >/=50% were significantly associate

161 , and 2.5% to 10% of PRP gradually increased alkaline phosphatase (ALP) activity in the cells in a do

162 platform for biokits and biosensors based on alkaline phosphatase (ALP) activity/inhibition in the pr

163 ver enzymes, alanine aminotransferase (ALT), alkaline phosphatase (ALP) and gamma glutamyltransferase

164 ase (ALT), aspartate aminotransferase (AST), alkaline phosphatase (ALP) and gamma-glutamytransferase

165 Alkaline phosphatase (ALP) catalyzes the hydrolisis of s

166 e ALPL gene, encoding the tissue-nonspecific alkaline phosphatase (ALP) enzyme.

167 racteristics to be identified, the levels of alkaline phosphatase (ALP), a marker commonly used in cl

168 mined by prostate-specific antigen (PSA) and alkaline phosphatase (ALP), as well as the correlation o

169 T63 increased the alkaline phosphatase (ALPL) activity and mineralization

170 DHT treatment increased tissue non-specific alkaline phosphatase (Alpl) mRNA expression.

171 of dissolved inorganic phosphorus (DIP), and alkaline phosphatase (AP) has been the major research fo

172 a superfamily, we turned to the well-studied alkaline phosphatase (AP) superfamily, comparing three o

173 e we have studied the catalytic mechanism of alkaline phosphatase (AP), which is one of the most cata

174 accessed by microbes employing a variety of alkaline phosphatase (APase) enzymes.

175 educed serum alanine aminotransferase (ALT), alkaline phosphatase (AST), total bilirubin (TBIL) and d

176 ta, osteoprotegerin (OPG), and bone-specific alkaline phosphatase (BALP) serum levels were determined

177 liver and kidney enzymes, and bone-specific alkaline phosphatase (BALP) serum levels were evaluated.

178 easured reaction kinetics of calf intestinal alkaline phosphatase (CIAP) immobilized in benzophenone-

179 molecular aging and clearance of intestinal alkaline phosphatase (IAP).

180 of 102 patients), increased concentration of alkaline phosphatase (nine [4%] vs two [2%]), fatigue (s

181 Fgf23 is a suppressor of tissue nonspecific alkaline phosphatase (Tnap) transcription via FGF recept

182 ons of Pi and PPi include tissue-nonspecific alkaline phosphatase (TNAP), progressive ankylosis prote

183 ponse to ursodeoxycholic acid therapy (i.e., alkaline phosphatase [ALP] >1.67x upper limit of normal

184 r time, resulting in significantly increased alkaline phosphatase activity and calcium deposition of

185 Wnt10b protein levels and induced increased alkaline phosphatase activity and mineralization in oste

186 n, the number of committed osteoprogenitors, alkaline phosphatase activity and mineralization.

187 ibited enhanced differentiation indicated by alkaline phosphatase activity, mineral deposition, and t

188 n, and reduced type 1 collagen secretion and alkaline phosphatase activity.

189 d the majority of them stained intensely for alkaline phosphatase activity.

190 Alkaline phosphatase and bilirubin levels correlate with

191 strong antifolding activity, in complex with alkaline phosphatase and maltose-binding protein capture

192 Elevated alkaline phosphatase and the presence of visceral metast

193 rent concentrations of antibody labeled with alkaline phosphatase are immobilized on the pin-heads an

194 ride content and elevated ALT, bilirubin and alkaline phosphatase due to three hepatic defects: 1.6-f

195 edication and had at least one post-baseline alkaline phosphatase evaluation).

196 Plasma alkaline phosphatase for both cKO models at 24 wk was re

197 New albumin, bilirubin, and alkaline phosphatase grade 3/4 toxicities were, respecti

198 s were fatigue (eight [2%] of 370 patients), alkaline phosphatase increase (five [1%]), colitis, and

199 e dehydrogenase level (r = 0.534, P < .001), alkaline phosphatase level (r = 0.572, P < .001), circul

200 rgest diameter of the largest metastasis and alkaline phosphatase level at the time of diagnosis of m

201 nge, 10-50 U/L [0.17-0.83 mukat/L]), a serum alkaline phosphatase level of 157 U/L (2.62 mukat/L) (no

202 L (reference range, [158-424] x 10(9)/L), an alkaline phosphatase level of 85 U/L (1.42 mukat/L) (nor

203 The primary end point was an alkaline phosphatase level of less than 1.67 times the u

204 INTERPRETATION: Seladelpar normalised alkaline phosphatase levels in patients who completed 12

205 low from the significantly lower activity of alkaline phosphatase measured in MCF7 cells and their su

206 onally, PgPE treatment caused an increase in alkaline phosphatase mRNA expression in PDL-CD105(+) cel

207 tment, based on a central laboratory ULN for alkaline phosphatase of 116 U/L.

208 o-controlled, phase 2 trial of patients with alkaline phosphatase of at least 1.67 times the upper li

209 e was the percentage change from baseline in alkaline phosphatase over 12 weeks, analysed in the modi

210 The crystal structure of tungstate-bound alkaline phosphatase provides evidence for a covalent ad

211 were measured by Griess method and secretory alkaline phosphatase reporter activity assay, respective

212 Alkaline phosphatase shifted the Fpassive-sarcomere leng

213 ed OPN and DMP1 associated with an increased alkaline phosphatase staining in the XLH cultures.

214 Here, we explore TS structure in the enzyme alkaline phosphatase using hybrid Quantum Mechanics/Mole

215 received seladelpar for 12 weeks had normal alkaline phosphatase values at the end of treatment, bas

216 Mean changes from baseline in alkaline phosphatase were -2% (SD 16) in the placebo gro

217 lytic mechanisms underlying Escherichia coli alkaline phosphatase's (AP) remarkable rate enhancement

218 ALPL encodes tissue-nonspecific alkaline phosphatase, an enzyme expressed in bone, teeth

219 keleton, Ki67, expression of osteopontin and alkaline phosphatase, and formation of mineralized nodul

220 minotransferase, aspartate aminotransferase, alkaline phosphatase, and gamma-glutamyltransferase leve

221 ignificant laboratory variables (hemoglobin, alkaline phosphatase, and international normalized ratio

222 cantly (P < 0.05) enhanced the expression of alkaline phosphatase, as well as the rate and volume of

223 t and showed elevation of serum liver tests (alkaline phosphatase, aspartate aminotransferase, alanin

224 e lactone quorum sensing signals, as well as alkaline phosphatase, lipase and chitinase activities.

225 The osteogenic markers, alkaline phosphatase, secreted phosphoprotein 1 (osteopo

226 Cardiomyocytes were incubated with alkaline phosphatase, subsequently reassessed after a pe

227 luding albumin, fetuin-A, apolipoprotein-A1, alkaline phosphatase, TNFR1 and CD63.

228 oups were globally reduced using nonspecific alkaline phosphatase, Triton X-100-solubilized membranes

229 ver, a significant increase in bone-specific alkaline phosphatase, which is a bone-formation marker,

230 pe was associated with reduced expression of alkaline phosphatase.

231 ibrils and increased expression of Runx2 and alkaline phosphatase.

232 1C, cholesterol, hemoglobin, creatinine, and alkaline phosphatase.

233 c domain to be a zinc metalloprotein with an alkaline phosphatase/sulphatase fold containing three di

234 consumption was associated with lower serum alkaline phosphatase; alanine aminotransferase; aspartat

235 patic autoimmune disorders 46%; normal serum alkaline phosphatases (ALP) 74%; ALP above 1.5 times the

236 strates of both carboxylesterases (CESs) and alkaline phosphatases (ALPs).

237 riencing constant slow percolation of highly alkaline phosphate-enriched spring water mixing with col

238 ificantly enhanced as indicated by increased alkaline phosphates (ALP) activity and calcium depositio

239 l content over 2h incubation at the slightly alkaline pHs simulating the small intestine environment,

240 dative flux and static concentrations of the alkaline Pi-pool and glycero-phosphocholine, suggesting

241 plied and by up to 86% and 91% when acid and alkaline pretreatments were used.

242 tatin, leupeptin, elastatinal, and microbial alkaline protease inhibitor, which have been widely used

243 Fish skin gelatin was hydrolysed by visceral alkaline-proteases from Giant catfish, commercial trypsi

244 in all kinds of environments from acidic to alkaline, proton intercalation.

245 crustal lithologies is confined to a mildly alkaline range, modulated by rock volatile and chlorine

246 Expression of a highly conserved, alkaline-regulated, sodium ATPase was tolerant of geneti

247 , which needed to be mutated to a neutral or alkaline residue to confer anion selectivity to CCRs, is

248 Functional coupling of calcium- and alkaline responsive signalling occurs in multiple fungi

249 e bioreactors containing bauxite residue (an alkaline, saline tailings material generated as a byprod

250 ee extraction periods of 20 min, followed by alkaline saponification and purification of the extracts

251 tivated current, revealing a specificity for alkaline sensation.

252 to control microbial activity in hot and/or alkaline shales, and may return along with its aqueous t

253 their use as anti-infectives, abrogation of alkaline signalling has, therefore, been postulated as a

254 ferent environments, microbial mats from two alkaline soda lakes, and saliva from multiple individual

255 howing that the CaP species present in these alkaline soils are soluble with decreases of pH in the r

256 ion could be mitigated by adopting NT within alkaline soils, for long-term duration, and with less N

257 In alkaline soils, nitrification and nitrifier-induced deni

258 comprise the main phosphorus (P) reserve in alkaline soils, with solubility dependent on pH and the

259 , Cu, Cd) chronic toxicity to Lemna minor in alkaline solution (pH 8.3).

260 ein recovered from chitosan processing waste alkaline solution can be a potential source of bioactive

261 we electrodeposit magnetite (Fe3O4) from an alkaline solution of Fe(III)-triethanolamine as a robust

262 he high activity of anomalous Ru catalyst in alkaline solution originates from its suitable adsorptio

263 eptionally capable to catalyze the 4e-ORR in alkaline solution, though limited within a narrow potent

264 tunable oxygen reduction electrocatalyst in alkaline solution.

265 utilized to construct the base of LDHs in an alkaline solution.

266 in acidic solution and another operating in alkaline solution.

267 = 30.1 was observed for hydrolysis of EDB in alkaline solution; LambdaC/Br between 4.2 and 5.3 were d

268 deprotonation and to their stabilization in alkaline solutions leading to polymerization reaction.

269 free acetaldehyde is difficult to detect in alkaline solutions using NMR spectroscopy, requiring alt

270 cet- and potential-dependent 4e-ORR on Au in alkaline solutions.

271 were mostly solubilized in strong acidic and alkaline solutions.

272 es different reactive oxidants in acidic and alkaline solutions.

273 for the hydrogen evolution reaction (HER) in alkaline solutions.

274 active HER electrocatalysts yet reported in alkaline solutions.

275 a process catalyzed by the intestinal enzyme alkaline sphingomyelinase (alk-SMase, NPP7, ENPP7).

276 or anion-exchange membranes (AEMs) with high alkaline stability and conductivity is a considerable ch

277 polyelectrolytes show excellent thermal and alkaline stability with no degradation detected by NMR s

278 rees C, the spiro-ionenes display reasonable alkaline stability.

279 lic anaerobic digestion, pasteurization, and alkaline stabilization) on the fate of ARGs and class 1

280 cosms, but thermophilic anaerobic digestion, alkaline stabilization, and pasteurization led to the mo

281 An alkaline starch suspension was charged with citric acid

282 Charging of the well-dissolved alkaline starch suspension with citric acid decreased at

283 Host microenvironments exert alkaline stress and potentially toxic concentrations of

284 Furthermore, the alkaline subunits of conglutin alpha and conglutin gamma

285 In this study, a representative alkaline sulfide-rich hot spring, Zimeiquan in the Tengc

286 city is currently accessible in rechargeable alkaline systems.

287 driven pH neutralization (bioremediation) in alkaline tailings.

288 show that there is an abrupt transition from alkaline to acid soil pH that occurs at the point where

289 water balance cause a steep transition from alkaline to acid soils across natural climate gradients.

290 neurin, or its client CrzA, displayed normal alkaline tolerance and nuclear translocation of CrzA was

291 fumigatus the regulatory hierarchy governing alkaline tolerance circumvents calcineurin signalling.

292 Quinoa seed protein was extracted by alkaline treatment at various pH values (pH 8 (E8), 9 (E

293 them prone to further modifications upon the alkaline treatment.

294 Strong acidic or alkaline treatments bear the danger of degrading sensiti

295 Mutant mice have alkaline urine but do not exhibit overt metabolic acidos

296 heterotrophic denitrification in six soils (alkaline vs. acid soils).

297 activities produce an estimated 680 GL/yr of alkaline wastewater.

298 ing pH neutralization and element removal in alkaline wastewaters by fermentation of organic carbon,

299 After drying followed by a treatment with alkaline water, this intermediate polymer became a pH-se

300 Ephydra hians, deliberately crawls into the alkaline waters of Mono Lake to feed and lay eggs.