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1 sing tris(2-carboxyethyl)phosphine (TCEP) as reducing agent).
2 he conventional method (trisodium citrate as reducing agent).
3 , temperature, deactivator, added salts, and reducing agents).
4 e the presence of a catalyst to activate the reducing agent.
5 of the aminophosphine as both precursor and reducing agent.
6 this reaction is chemically mediated by the reducing agent.
7 arsenic precursor and aminophosphine as the reducing agent.
8 zed dichlorosilylene to be the most probable reducing agent.
9 alkaline-ethanol solution in the presence of reducing agent.
10 d surface attached redox-active polymer as a reducing agent.
11 pes were still somewhat sensitive to heat or reducing agent.
12 ncentrated NaOH solution with NaBH4 added as reducing agent.
13 icles (AuNPs), without the use of additional reducing agent.
14 oxylate acting as both the carbon source and reducing agent.
15 either methane or methanol, depending on the reducing agent.
16 silylium ion (R3Si(+)) and a hydride (H(-)) reducing agent.
17 using a binuclear copper complex and a mild reducing agent.
18 vely, in the presence of Cys, with AB as the reducing agent.
19 cross-linked mutant was treated with a thiol-reducing agent.
20 ethylene glycol), is validated as the actual reducing agent.
21 presence of glutathione as a stoichiometric reducing agent.
22 of viral particles with membrane-impermeable reducing agent.
23 nitroepoxides with primary amines and then a reducing agent.
24 eductive amination employing hydrogen as the reducing agent.
25 200 muM) of inhibitory activity with another reducing agent.
26 th introduced cysteines and was sensitive to reducing agent.
27 ll molecule mycothiol (MSH) as their primary reducing agent.
28 ls, and this effect was recapitulated with a reducing agent.
29 mpounds utilizing dimethylethylsilane as the reducing agent.
30 a radical pathway with dimsyl potassium as a reducing agent.
31 bismuthinidene catalysts, aided by HBpin as reducing agent.
32 ng the precursor by an electron beam without reducing agent.
33 he utility of alkali metal salts as a charge-reducing agent.
34 phosphine source and diphenyldisiloxane as a reducing agent.
35 n-situ, one-step method without the use of a reducing agent.
36 d as a precatalyst and trimethoxysilane as a reducing agent.
37 aliphatic aldehydes using zinc metal as the reducing agent.
38 l-glycine) that can function as a reversible reducing agent.
39 i, the latter of which acts as a sacrificial reducing agent.
40 tent superoxide anion radical scavengers and reducing agents.
41 using aged tissue in the presence of excess reducing agents.
42 ny potassium tartrate are added and serve as reducing agents.
43 e channels with thiol-oxidizing or disulfide-reducing agents.
44 concentration of guanidine hydrochloride and reducing agents.
45 e complexes might be accessible using strong reducing agents.
46 d inter-disulphide bond by using appropriate reducing agents.
47 -5-MTHF can be controlled by the presence of reducing agents.
48 uman topoisomerase IIalpha in the absence of reducing agents.
49 uced blocking was reversed by disulfide bond-reducing agents.
50 breast cancer cells with increased levels of reducing agents.
51 t a denaturation step, and in the absence of reducing agents.
52 IDO1 activity through the supply of heme and reducing agents.
53 yet it readily disassembles upon exposure to reducing agents.
54 gain can be eliminated by adding appropriate reducing agents.
55 ffect was fully reversible by treatment with reducing agents.
56 amenable to therapeutic intervention by GSL reducing agents.
58 rried out in the presence and absence of the reducing agent 2-ME indicated that the predicted affinit
60 support the formation of a second, stronger reducing agent: a hydrogen-bonded complex between BH* an
66 features the use of 2-picoline borane as the reducing agent and a protic solvent for the reaction med
71 esonance appears only in the presence of the reducing agent and disappears readily upon exposure to a
72 ll molecule mycothiol (MSH) as their primary reducing agent and for the detoxification of xenobiotics
73 py using sodium napthalenide (NaNpth) as the reducing agent and found that Mo-bpy undergoes anionic p
75 es were characterized after treatment with a reducing agent and heavy ion probes to reveal the occurr
78 a novel biocomposite, using ascorbic acid as reducing agent and microfibrillated cellulose as a cappi
79 ith ammonia or an amine in the presence of a reducing agent and often a catalyst, is an important ami
80 solvent (ethylene glycol) is considered the reducing agent and poly(N-vinylpyrrolidone) (PVP) the sh
81 n-resistant S. aureus (MRSA) was used as the reducing agent and protective group to generate DD-immob
86 alyst both in the presence of a one-electron reducing agent and under electrochemically assisted cond
87 -nitrosocyclohexyl acetate are reversible by reducing agents and distinct from those of another HNO d
88 is indeed oxygen tolerant in the absence of reducing agents and sulfides by means of reaching an O(2
89 reaction occurred in the absence of O(2) and reducing agents and was not inhibited by superoxide dism
90 to dissociation by boiling, denaturants, or reducing agents and was not observed in vitro unless bot
91 lyst, no dependence upon the amount of zinc (reducing agent), and an inverse dependence upon aryl hal
95 yde reductive coupling reactions with silane reducing agents are investigated using density functiona
98 ing electrochemical exfoliation, a series of reducing agents as additives (e.g., (2,2,6,6-tetramethyl
99 rbic acid and antimony potassium tartrate as reducing agents (as used in the colorimetric method).
100 t CH4 was a highly efficient and a versatile reducing agent, as the total reducing power of CH4 origi
101 h of incubation after addition of biological reducing agent ascorbate at the physiological concentrat
104 fect on the degradation in the presence of a reducing agent (ascorbic acid), while in the mere presen
105 silver nitrate solution in the presence of a reducing agent, ascorbic acid, using in situ liquid-cell
109 mediated ATRP and supplemental activator and reducing agent ATRP up to high conversion (>90%), in t <
110 anoparticles synthesized using amino acid as reducing agent (average diameter-20 nm), incorporate the
111 For the irradiation of CO(2) using H(2)O as reducing agent, basic solids (K(+)-exchanged Y zeolite o
112 le DIBAL-H appeared to be the most efficient reducing agent because it exhibited high diastereoselect
113 Metallic aluminum (Al) is of interest as a reducing agent because of its low standard reduction pot
116 potassium-competitive acid blockers, reflux-reducing agents, bile acid binders, injection of inert s
119 actions, involving molecular hydrogen as the reducing agent, can be promoted by heterogeneous and hom
120 ed during acute hypoxia and both hypoxia and reducing agents caused functional inhibition of Complex
122 es and aminoborohydrides are mild, selective reducing agents complementary to the commonly utilized a
123 er with tris(2-carboxyethyl)phosphine as the reducing agent, conditions under which palmitoylation wa
127 evels of silencing by addition of a chemical reducing agent, demonstrating a basis for external contr
128 fer additives, including dimethyl sulfoxide, reducing agents, detergents, and bovine serum albumin.
131 sic levels of reactive oxygen species (ROS); reducing agents dissociate NS into monomers and dimers.
132 Deoxygenation of Hb was initiated using the reducing agent dithiothreitol (DTT) in an assay that all
134 ontracted airways were mimicked by the thiol-reducing agent dithiothreitol (DTT, 10 mm) and inhibited
135 tion, current inhibition was reversed by the reducing agent dithiothreitol and unaffected by 1H-[1,2,
141 tered redox state as bath application of the reducing agent, dithiothreitol, increased the NMDAR comp
142 s precursor, N-acetylcysteine, or adding the reducing agent, dithiothreitol, lessened the response.
145 of neurons responding to OA-NO2; however, a reducing agent DTT (50 mm) or La(3+) (50 mum) completely
146 he exogenous application of GSH or the thiol-reducing agent DTT can rescue the root phenotype of miao
147 en identified; these states are sensitive to reducing agents due to the formation of nonnative disulf
148 ch act both as a source of catalyst and as a reducing agent during surface-initiated atom transfer ra
149 er amino acid-depleted conditions and that a reducing agent effectively suppresses amino acid-induced
150 rochemical methods use electrons directly as reducing agents, eliminating the need for harmful chemic
151 sing 9-borabicyclo[3.3.1]nonane (9-BBN) as a reducing agent enabled a time-dependent investigation ba
152 cessible and hydrogen is the most attractive reducing agent, especially if large-scale product format
154 ith amines utilizing iron pentacarbonyl as a reducing agent followed by subsequent oxidation leads to
155 meation column chromatography, and used as a reducing agent for the synthesis of silver-betanin core-
156 here for the first time to activate Al as a reducing agent for wet-chemical synthesis of a diverse a
158 atform to understand the efficiency of these reducing agents for the reduction of graphene oxide.
159 Aminoborohydrides are powerful and selective reducing agents for the reduction of tertiary amides.
160 anowires respectively, indicating the faster reducing agent formed kinetically preferred nanowires.
161 rization via initial reduction by biological reducing agent glutathione (GSH), followed by binding of
164 trong P horizontal lineO bond by BH3, a mild reducing agent, has been achieved through an intramolecu
166 nical trials for symptomatic AD with amyloid-reducing agents have succeeded at target engagement but
167 ies showed that the addition of detergent or reducing agent improved extraction efficiency of peanut
168 gestion protocol using dithiothreitol as the reducing agent in ammonium bicarbonate buffer could resu
174 ay have therapeutic potential as an arginine-reducing agent in patients with arginase deficiency.
175 It is also shown to act as a two-electron reducing agent in reactions with unsaturated substrates.
179 Using tetramethyldisiloxane (TMDS) as a mild reducing agent in the presence of copper complexes, PO b
180 ives NH(3) partly from its desired role as a reducing agent in the SCR and diminishes NO conversion a
183 active and potentially useful stoichiometric reducing agents in nonpolar, nonprotonated solvents.
185 tes, and in the presence of growth media and reducing agents, in addition to preserving their optical
187 as reversed upon exposure to the thiol-based reducing agents, including physiologically relevant conc
188 discovered that macromolecular crowding and reducing agents increase overall iSAT protein synthesis;
189 e iSAT yields by enhancing translation while reducing agents increase rRNA transcription and ribosome
191 is altered by changing redox balance using a reducing agent-indicating gap junction nexus stability i
192 t temperature and pressure in the absence of reducing agent is exploited which resulted good-to-high
193 ATRP of alkyne-terminated polymers because a reducing agent is present during polymerization, however
195 ) spectroscopic studies show that the active reducing agent is the free radicals produced by benzoins
197 , ascorbic acid (vitamin C, a potent natural reducing agent) is a common additive to cell culture med
198 with aqueous, buffered sodium formate as the reducing agent, is catalyzed by a cyclometallated iridiu
199 to the general understanding of NaBH(4) as a reducing agent, it has also been found to act as a cappi
200 (water), (ii) SiGe alloy composition, (iii) reducing agent, (iv) metal redox potential, and (v) addi
202 f [Rh2(OAc)4] as catalyst and formic acid as reducing agent, leading to the high yield synthesis of c
203 is new approach involves the use of a strong reducing agent, LiAlH(4), to completely reduce both HAT
205 have suggested that ivabradine, a heart-rate-reducing agent, may improve outcomes in patients with st
207 o-occlusion was blocked by the methemoglobin reducing agent methylene blue, haptoglobin, or the heme-
208 t releases luciferin in the presence of mild reducing agents, molecular oxygen, and no additional cof
210 line Pd nanoparticles synthesized by another reducing agent (N2H4) and commercial Pt-loaded carbon (P
211 n be controlled by varying the amount of the reducing agent NaBH4 in the synthesis, and the prepared
212 peroxide that acted as the measurand and the reducing agent of the Au(III)/citrate system in the flow
214 vior of mEos3.2 and mMaple3 is modified by a reducing agent, offering the possibility to adjust blink
215 agents such as Trolox, a combined oxidizing-reducing agent often used in single-molecule studies for
216 ulfide bond is demonstrated by the effect of reducing agents on the precursor, mutagenesis, and liqui
217 molecular electron transfer from an external reducing agent or mediated intramolecularly by internal
218 d to the monovalent cation PQ(+) by either a reducing agent or NADPH oxidase on microglia, it becomes
219 its pores without the need for any external reducing agent or photochemical reactions, and the resul
220 own via a colloidal approach with a chemical reducing agent or synthesized with an applied current on
224 ate (SDS, surfactant), beta-mercaptoethanol (reducing agent) or ethylenediaminetetraacetic acid (EDTA
227 e of metal precursor and the strength of the reducing agent play a key role in achieving the desired
228 emoval of copper catalyst; (2) adding excess reducing agents post-ATRP which prevent the oxidation of
229 LsAA9A activity is less sensitive to the reducing agent potential when cleaving xylan, suggesting
231 roups of cellulose nanofibers, acting as the reducing agent producing a bionanocomposite "embedded si
232 nthesis through the addition of crowding and reducing agents, provides a thorough understanding of th
234 taining DNA 6-TG induces extensive heat- and reducing agent-resistant covalent DNA-protein crosslinks
235 n is accelerated by H(2)O(2) and hindered by reducing agents, resulting in faster and slower aggregat
236 cellular uptake and were less susceptible to reducing agents, resulting in greater transfection effic
238 oncomitant exposure of the fused proteins to reducing agents severely limits the scope of protein tra
239 ion without the need for ionic surfactant or reducing agents, simplifying device design and operation
241 ed for 10 s into two separate solutions of a reducing agent (sodium hypophosphite (NaH2PO2)) and Pd i
246 yet most synthesis recipes require hazardous reducing agents such as hydrazine or sodium borohydride.
247 ein splicing, and splicing can be induced by reducing agents such as tris(2-carboxyethyl)phosphine (T
251 . coli SufS that is partially protected from reducing agents, such as dithiothreitol and glutathione,
253 complementary to the commonly utilized amide reducing agents, such as lithium aluminum hydride (LiAlH
254 ing compounds (~560 compounds) with the four reducing agents surprisingly produced many nonoverlappin
255 y more resistant to chemical denaturants and reducing agents than nepenthesin I, and it possesses a s
256 ganic radical great potential as a versatile reducing agent that can be generalized in other metallic
257 when the system is continuously fueled by a reducing agent that keeps it far from equilibrium, and o
259 e inhibitors such as statins are cholesterol-reducing agents that may provide a new therapeutic optio
264 recursor and potassium graphite (KC(8)) as a reducing agent, the naphthalene and anthracene complexes
267 5 to DNA, and this binding was reversed by a reducing agent, thus suggesting a role for the cysteine
268 uses potassium hydride as a redox-controlled reducing agent to access the PAH dianions, and so enable
269 ccess relies on the introduction of a strong reducing agent to compete with and thereby block the gal
270 (IC(50)) from approximately 10 muM with one reducing agent to complete loss (IC(50)>200 muM) of inhi
271 nanopores of Zn-MOF using acetic acid as the reducing agent to fabricate Au-NP@Zn-MOF nanocomposites.
272 ontaining active site and use dioxygen and a reducing agent to oxidatively cleave glycosidic linkages
273 from Tagetespatula was used as a capping and reducing agent to synthesize in one pot gold nanoparticl
274 olloidal growth solution by tailoring a weak reducing agent to the measured potential profile of the
275 onds are reduced chemically by addition of a reducing agent to the quench solution (e.g., tris(2-carb
276 acceptor, we used iron(II) and glucose as co-reducing agents to reduce GO under mild reaction conditi
278 k reaction, now performed in the presence of reducing agent, to generate cross-linked DNA or a pyrene
279 (2)O(2) production enhanced by addition of a reducing agent, to simulate availability of reducible su
280 luoride anion does not act as a one-electron reducing agent toward the NDI investigated in this work.
281 high concentration (>200 mM) of the chemical reducing agent Tris(2-carboxyethyl)phosphine (TCEP) as i
284 ce in the HTS results based on the choice of reducing agent used and potency comparisons of selected
285 as hydride source as well as glucose as the reducing agent used in stoichiometric amounts for in sit
286 mperature, solvent, substituent, and type of reducing agent using a synergistic experimental-computat
287 nanoparticles mediated by stainless steel as reducing agent was monitored via infrared attenuated tot
290 lipophilic naphthyridinol with water-soluble reducing agents was also studied in liposomes using H(2)
292 phosphatidylcholine lipids can act as charge-reducing agents when dissociated from native membrane pr
293 out in the presence of significant levels of reducing agents (which should reduce etoposide quinone t
294 is facilitated by visible light and a silane reducing agent, which trigger a distinct radical initiat
297 ewis basic fragment allows activation of the reducing agent while moderate Lewis acidity/basicity at
298 duction, consisting of more than 50 types of reducing agent, will be reviewed from a synthetic chemis
299 eaction of the electrogenerated Pt phases as reducing agent with phenyl diazonium salts was performed