ライフサイエンスコーパス: tungstate

1 ough the binding of a heavy atom derivative, tungstate.

2 rids and negatively stained with methylamine tungstate.

3 aorta occlusion group pretreated with sodium tungstate.

4 ransition state analogs (TSAs), vanadate and tungstate.

5 monofluorophosphate, vanadate, molydate, and tungstate.

6 activation was diminished in the presence of tungstate.

7 sphate transition state analogs vanadate and tungstate.

8 aorta occlusion group pretreated with sodium tungstate.

9 iked soil containing monomeric and polymeric tungstates.

10 lent bond between the serine nucleophile and tungstate, a model that we test herein.

11 rom pH dependencies of the binding of Pi and tungstate, a P(i) analog lacking titratable protons over

12 ve site Cys is replaced, and is displaced by tungstate, a transition state analog known to bind in th

13 er than valine) were more likely to increase tungstate affinity (but not more likely to impact cataly

14 mpact on TSA binding and many even increased tungstate affinity.

15 en the leaves were supplied cycloheximide or tungstate along with NO2-, about 60% more NO3- accumulat

16 or extreme cold shock and exposure to sodium tungstate and "molsin".

17 ine the toxicological implications of sodium tungstate and an aged tungsten powder-spiked soil contai

18 Lys53 is positioned on the cap domain while tungstate and Mg(II) are bound to the core domain.

19 f bacterial transcriptional factors controls tungstate and molybdate homeostasis in sulfate-reducing

20 lator (TunR), controlling the homeostasis of tungstate and molybdate in sulfate-reducing deltaproteob

21 operties such as luminescence, of rare earth tungstate and molybdate materials.

22 The use of rare earth tungstate and molybdate nano- and micromaterials as sing

23 yrosine phosphatase (PTPase) in complex with tungstate and nitrate have been solved to 2.4-A resoluti

24 The guanidinium group of Arg160 binds tungstate and the proposed nucleophile Asp12, which is s

25 between catalytic activity and affinity for tungstate and vanadate for a series of 20 AP variants.

26 F YopH in the absence and in the presence of tungstate and vanadate.

27 The inhibitors tungstate and vinyl sulfonate, which are known to bind t

28 f identical substrate specificity (molybdate/tungstate), and find that their interactions with their

29 r antagonism between several inhibitors with tungstate, and found synergism between WO(4)(2-) and NO(

30 Because high levels of molybdate, tungstate, and selenite restored growth to wild-type lev

31 In Cdc25B, both sulfate and tungstate anions are shown to bind in the catalytic site

32 vanadate (r(2) = 0.23), indicating that the tungstate*AP complex may better mimic this enzyme's tran

33 ropolyvanadates, -niobates, -molybdates and -tungstates aqueous solutions and covers their stability

34 Molybdate and tungstate are strong inhibitors of the purple acid phosp

35 ion metal oxoanions vanadate, molybdate, and tungstate are widely used inhibitors for phosphatase enz

36 Using a complex with tungstate as a marker for the position of the phosphate

37 Overall, we demonstrate the effectiveness of tungstate as a potent SRM inhibitor, particularly at hig

38 Here, we present an assessment of tungstate as a selective and potent inhibitor of SRM.

39 s a chemical modifier in solution and sodium tungstate as permanent modifier, we were able to attain

40 pectroscopy indicated that when molybdate or tungstate bind to ModE there is little change in its alp

41 els the product phosphate, another oxyanion, tungstate, binds more strongly in the presence of Ser102

42 s of catalysis, including the product analog tungstate bound to the active site, and an inactive stat

43 liganded form and with the product analogue, tungstate, bound to the active site.

44 The crystal structure of tungstate-bound alkaline phosphatase provides evidence f

45 The structure of the tungstate-bound enzyme suggests that Asp64 is the nucleo

46 ls is provided by the structures of the apo, tungstate-bound, and phosphate-bound enzyme.

47 Thus, molybdate and tungstate bridge the FeZn active site like phosphate, bu

48 elenate, chromate ("chromium VI"), arsenate, tungstate, chlorate, and perchlorate bind to the ATP sul

49 ngstate nor vanadate replaced molybdate, and tungstate competitively inhibited growth stimulation by

50 ws that the iron sites of both molybdate and tungstate complexes are best simulated by a shell of thr

51 A tungstate derivative confirmed the initial molecular rep

52 sion was established in rabbits (standard or tungstate diet) for 40 min by 2 h reperfusion.

53 Sham operated rabbits (standard or tungstate diet) served as controls.

54 rolysis of a phosphodiester bond, while Tdp1-tungstate displays unusual octahedral coordination.

55 work, we report that delamination of cobalt tungstate enables high activity and durability through t

56 Finally, binding of tungstate enhances the fluorescence of the wild-type Yer

57 on of modA by ModE, but the affinity of ModE-tungstate for modABCD operator DNA was 6 times lower tha

58 temperatures, and propose a novel carbonate-tungstate formulation for application to soured oil rese

59 of mixed metal oxide heteropolyoxo vanadium tungstate (H(3+x)PW(12-x)V(x)O(40) with x = 0, 1, 2, and

60 complex it forms with the substrate analogue tungstate have been determined and refined to crystallog

61 ric bidentate bridging mode of molybdate and tungstate helps explain the effect of these anions on th

62 inactivation of circulating and tissue XO by tungstate, implicating an XO-dependent mechanism.

63 We also evaluated SRM inhibition by tungstate in advective upflow oil-sand-packed columns.

64 geometry, which is infrequently observed for tungstate in small molecules and other active sites but

65 Remarkably, the tungstate in the complex determined to 1.03 A resolution

66 e against the manifestation of symptoms in a tungstate-induced MoCD mouse model.

67 res of recombinant P4 in the ligand-free and tungstate-inhibited forms, which are the first structure

68 Tungstate inhibition of the NO-generating enzyme nitrate

69 solution became liganded to the vanadate or tungstate inhibitor molecules in a bidentate 1,2-diol fa

70 structures in the presence and absence of a tungstate inhibitor), as well as several other signfican

71 Tungstate interference of molybdate acquisition by the c

72 e substrate binding pocket after binding the tungstate ion.

73 rane modification with RBS using yttrium and tungstate ions (Y(3+) and WO4(2-)) as ion probes.

74 ) via an in-situ reaction between Pb(2+) and tungstate ions, which passivate defects due to the stron

75 unable to discriminate between molybdate and tungstate (K(D) values for both ligands of 4-8 nM), Cj15

76 plexed with the phosphate (product) analogue tungstate (K(i) = 50 microM) and the Mg(II) cofactor was

77 inhibition of XOD by allopurinol and sodium tungstate led to an increase in intracellular AMP levels

78 Mg(II) ligands include two oxygens of the tungstate ligand, one oxygen of the carboxylates of Asp1

79 The presence of low-occupancy tungstate molecules along the narrow groove of the subst

80 te and the oxoanion analogues orthovanadate, tungstate, molybdate, arsenate, and sulfate were shown t

81 nt study advocates the utilization of copper tungstate nanoparticles to enhance the sensitivity, sele

82 Neither tungstate nor vanadate replaced molybdate, and tungstate

83 arent Kd values of binding for molybdate and tungstate of 3 and 7 microM, respectively.

84 Tungstate or auranofin addition also blocked this enhanc

85 tase, another fructose-responsive gene, with tungstate or vanadate nonspecifically inhibited NaPi-2b

86 ded to the cofactor Mg(2+)and complexed with tungstate or VO(3)(-)/Neu5Ac were determined to 1.1, 1.8

87 cteria, high concentrations of molybdate and tungstate oxyanions inhibit growth, thus requiring the t

88 rein, for the first time, we constructed the tungstate/perovskite heterointerface via a "two step" in

89 aphs were made with low-kilovoltage, calcium tungstate phosphors and relatively large focal spots.

90 }{(MoCp)(3)S(4)}] (2), and the corresponding tungstate [(PhSn)(3)SnS(6){(WCp)(3)S(4)}] (3) were obtai

91 A polypyrrole-bismuth tungstate (Ppy-Bi(2)WO(6)) core-shell nanocomposite (n-t

92 Nanoparticulate zirconium tungstate prepared through hydrothermal methods was foun

93 Sodium tungstate pretreatment significantly (p < .05) reduced c

94 Tungstate pretreatment significantly (p < 0.05) reduced

95 e with a Kd of 55 microM, whereas binding of tungstate quenches the fluorescence of the C403S mutant

96 nity and activity were highly correlated for tungstate (r(2) = 0.89) but not vanadate (r(2) = 0.23),

97 E. limosum growing on lactate takes up added tungstate rather than molybdate and produces the SCFAs a

98 Among the various oxyanions tested, only tungstate replaced molybdate in the repression of modA b

99 ues, we identified a novel regulator family, tungstate-responsive regulator (TunR), controlling the h

100 structure of the D10A mutant complexed with tungstate shows the tungstate to be in a typical "phosph

101 Xanthine oxidase inactivation by sodium tungstate significantly decreased circulating creatine k

102 nd supplementation of the growth medium with tungstate significantly increased FDH activity in the wi

103 ith the 2 mM tungstate was enough to promote tungstate solubility to reach inhibitory concentrations,

104 Surprisingly, WORs, along with the tungstate-specific transporter Tup, are abundant in the

105 ociated with genes for various molybdate and tungstate-specific transporting systems as well as molyb

106 tions in the two-dimensional layered niobium tungstate (TBA)(+)(NbWO(6))(-) for on-demand hydrogen ev

107 0A mutant complexed with tungstate shows the tungstate to be in a typical "phosphate-like" tetrahedra

108 Addition of molybdate or tungstate to the protein results in almost 50% quenching

109 ays showed that ModE requires molybdenum, or tungstate, to bind with high affinity (approximate Kd of

110 ne other characterized transport system, the tungstate transport genes of Eubacterium acidaminophilum

111 al molybdate (ModABC) uptake systems and the tungstate transporter (TupABC) of Eubacterium acidaminop

112 ni possesses a specific, ultra-high affinity tungstate transporter that supplies tungsten for incorpo

113 es C and an increase in the effectiveness of tungstate treatment at higher temperatures was observed.

114 2)W(30)O(105))(2)} (11) by addition of extra tungstate under similar conditions.

115 ,1,4] for 2 were isolated by the reaction of tungstate(VI) and vanadium(V) with triethanolammonium io

116 zimidazole)-modified vanadium dioxide-cupric tungstate (VO(2)-CuWO(4)) as an efficient photosensitive

117 Mixing 4 mM sodium carbonate with the 2 mM tungstate was enough to promote tungstate solubility to

118 Although 2 mM tungstate was initially sufficient to inhibit sulfidogen

119 In a dermal exposure, sodium tungstate was more toxic to the snail, with a lethal med

120 Whereas molybdate and tungstate were bound with high affinity (approximately 5

121 The results herein suggest that tungstate will be a valuable tool for further dissecting

122 es for both ligands of 4-8 nM), Cj1540 binds tungstate with a K(D) of 1.0 +/- 0.2 pM; 50 000-fold mor

123 Tetrahedral tungstate, WO42-, is a competitive inhibitor of the enzy

124 a sham-operated group pretreated with sodium tungstate (xanthine oxidase inactivator); c) an aorta oc

125 ) sham-operated group pretreated with sodium tungstate (xanthine oxidase inactivator); c) aorta occlu

126 Tungstated zirconia is a robust solid acid catalyst for

127 molecular platform for modeling catalysis by tungstated zirconia surfaces.

128 Here, a robust and zincophilic zinc tungstate (ZnWO(4)) layer has been in situ constructed o

129 pressures above 2 kilobars, cubic zirconium tungstate (ZrW2O8) undergoes a quenchable phase transiti