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1 was evidenced from the electron transfer to methyl viologen.
2 d caffeyl-CoA-dependent oxidation of reduced methyl viologen.
3 persensitive to the oxidative stress reagent methyl viologen.
4 stress sensitivity of this E. coli mutant to methyl viologen.
5 achieved by using a surfactant derivative of methyl viologen.
6 xtreme sensitivity to the redox-active agent methyl viologen.
7 reduction of BSO by either NADPH or reduced methyl viologen.
8 nd the activity required Ti(III) citrate and methyl viologen.
9 as photocathodes in contact with an aqueous methyl viologen(2+/+) electrolyte, energy-conversion eff
10 en the enzyme was assayed in the presence of methyl viologen (4 mM) and inhibited by 70% when the enz
11 tiated electron transfer to generate reduced methyl viologen, a species that persists in the presence
12 ferent redox behavior was also observed when methyl viologen and benzyl viologen were used as reducta
13 nd Km values of 29 and 15 microM for reduced methyl viologen and biotin sulfoxide reductase, respecti
14 affinity for the heteroternary complex with methyl viologen and CB[8] (MVCB[8]) within a vast pool o
15 uced Fe(II) cores (Fe(II)-HoSF), prepared by methyl viologen and CO, also reduces M-HoSF and M-AvBF s
16 t all mutants were completely devoid of both methyl viologen and formate-linked thiosulfate reductase
18 type, fib4 KD apples were more sensitive to methyl viologen and had higher superoxide levels during
20 e fraction of chloroplasts were increased by methyl viologen and ozone, but not by high-light treatme
21 lementation line C1 rescued the tolerance to methyl viologen and salinity and recovered the growth an
24 ayed a soxS-dependent induction by paraquat (methyl viologen), and the fldB gene is preceded by two o
26 Upon partial reduction with dithionite using methyl viologen as a mediator, a signal at g(ave) = 1.9
27 alyzed the reduction of NADP(+) with reduced methyl viologen as electron donor at a rate of 385 U/mg.
28 uction with Ti(III)-citrate as reductant and methyl viologen as mediator were similar to those obtain
32 urthermore, a newly designed high-throughput methyl viologen-based photometric microtiter plate assay
33 e herbicides fosmidomycin, phosphonothrixin, methyl viologen, benzyl viologen, clomazone, 2-(dimethyl
34 ngsten-grown cells yielded decreased reduced methyl viologen:BSO reductase, NADPH:BSO reductase, and
35 rosative stress and the superoxide generator methyl viologen but remarkably resistant to hydrogen per
36 itive to an oxidative stress-inducing agent, methyl viologen, but the sarA sodA double mutant was mor
37 de or the reactive oxidative species inducer methyl viologen can induce macroautophagy in Arabidopsis
38 mical characterization of these Hg tips with methyl viologen, cobalt sepulchrate trichloride, and hex
39 SDS-PAGE for covalently bound haem, but the methyl-viologen-dependent nitrite reductase activities a
41 uniquely different binding pocket wherein a methyl viologen dication is stabilized by interacting wi
42 (CN)6(3-/4-), Ru(NH3)6(3+/2+), IrCl6(2-/3-), methyl viologen, dopamine, ascorbic acid, Fe(3+/2+), and
44 henol plus ascorbate as an electron donor to methyl viologen, however, was the same as observed in th
45 ent pi-radicals such as MV(+*) (MV refers to methyl viologen, i.e., N,N'-dimethyl-4,4'-bipyridinum) e
50 d with the WT, gr3 was sensitive to salt and methyl viologen; it showed inhibited growth, decreased m
52 ond hydrogenase gene cluster, hyd, exhibited methyl viologen-linked hydrogenase enzymatic activity, b
53 e to transcribe nar and subsequently express methyl viologen-linked nitrate reductase activity under
54 und to catalyze the reduction of NO(2)(-) by methyl viologen monocation radical (MV(red)), displaying
57 of a 1:1 inclusion complex between the guest methyl viologen (MV(2+)) and the host cucurbit[7]uril (C
58 ometric reduction of nitrate to nitrite used methyl viologen (MV(2+)) as the electron transfer mediat
62 der oxidative stress conditions generated by methyl viologen (MV) added during the early exponential
65 es was measured by three electron acceptors, methyl viologen (MV), potassium ferricyanide, or dichlor
66 lasts resulted in an increased resistance to methyl viologen (MV)-induced oxidative stress, documente
67 re essential for superoxide stress response, methyl viologen (MV)-sensitive mutants of S. mutans were
69 n by a photosystem I (duraquinol [DQH(2)] to methyl viologen [MV]) proton pumping partial reaction wa
70 s (ruthenium bipyridine [Ru-(bipy)3(2+)] and methyl viologen [MV2+]) was quantified in a U-tube perme
73 y was observed on recombinant CbR module and methyl viologen nitrate reduction by holo-NaR, suggestin
74 ties NADH:cytochrome c reductase and reduced methyl viologen:NR, closely paralleled the appearance an
75 ron-sulfur component oxidized CO and reduced methyl viologen or a ferredoxin isolated from M. thermop
78 n sulfoxide reductase activity using reduced methyl viologen or reduced benzyl viologen as artificial
79 re selectively sensitive to peroxide but not methyl viologen or Rose Bengal, and GPXs, APX, and MSRA2
80 sed to different oxidative stress conditions-methyl viologen, ozone, and high light-differences were
81 the antioxidant depletion in the presence of methyl viologen (paraquat), a known agent of oxidative s
82 ethal levels of the ROS-generating herbicide methyl viologen (paraquat), suggesting a common protecti
85 1,1'-Dimethyl-4,4'-bipyridinium dichloride (methyl viologen; paraquat), an herbicide that causes dep
86 valuated using both aqueous (Fe(CN)(6)3-/4-, methyl viologen, Ru(NH3)(6)3+/2+, and IrCl(6)2-/3-) and
87 ccurs in the sarA background, can rescue the methyl viologen-sensitive phenotype observed in the abse
90 uests simultaneously and, in the presence of methyl viologen, to recognize N-terminal tryptophan over
92 G18a transgenic plants are more sensitive to methyl viologen treatment than wild-type plants and accu
94 n (MOP) 3 which bears 24 covalently attached methyl viologen units on its external surface, as eviden
96 of Q8 to aromatic peptides in the absence of methyl viologen was studied by isothermal titration calo
97 g time as well as its resistance to H2O2 and methyl viologen were indistinguishable from those of the
98 with Mito-Bodipy-TOH in cells stressed with methyl viologen, whereas no enhancement was observed in
99 trary to 4,4'-dipyridinium (i.e., archetypal methyl viologen), which is reduced by two single-electro
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