ライフサイエンスコーパス: elemental sulfur

1 ganometallic nucleophile, and quenching with elemental sulfur.

2 -phosphonothioate synthon and oxidation with elemental sulfur.

3 s as well as by electrochemical reduction of elemental sulfur.

4 coumarins, phenacylpyridinium bromides, and elemental sulfur.

5 ester and store large amounts of crystalline elemental sulfur.

6 ed in a single catabolic reaction to produce elemental sulfur.

7 eaction of 3-acetylcoumarins with amines and elemental sulfur.

8 noculum volumes in a 9 K culture medium with elemental sulfur.

9 tent when compared to soybean lines with low elemental sulfur.

10 onyl compounds, activated acetonitriles, and elemental sulfur.

11 olymeric materials as a consequence of using elemental sulfur.

12 ein compartment able to accumulate and store elemental sulfur.

13 plex ring-opening polymerization dynamics of elemental sulfur.

14 sation reaction between 1,2-dihaloarenes and elemental sulfur.

15 enes through a formal [4 + 1] reaction using elemental sulfur.

16 eaction of a-cyanoacetate with chalcones and elemental sulfur.

17 S (61 mM d(-1)) was biologically oxidized to elemental sulfur.

18 have been reported to produce extracellular elemental sulfur.

19 redominance of disulfide (S2(2-)(surf)), and elemental sulfur.

20 tion of fatty amine as activation reagent of elemental sulfur.

21 substantially more active as a reductant for elemental sulfur.

22 not sulfate reducers but instead metabolized elemental sulfur.

23 imination of the bridging sulfide ligands as elemental sulfur.

24 In the presence of elemental sulfur, 3-oxoesters are converted to dithiolet

25 With elemental sulfur, 5 results in the S(2)- and S(3)-bridge

26 Elemental sulfur aerosols are ubiquitous in the atmosphe

27 engage in a heterocyclization reaction with elemental sulfur, affording benzo[5,1-b]imidazothiazoles

28 generating functional polymers directly from elemental sulfur, an industrial by-product.

29 has allowed stable polymers to be made from elemental sulfur, an unwanted by-product of the petroche

30 sulfur polymers (PSPs) were synthesized from elemental sulfur and 1,3-diisopropenylbenzene, with poro

31 trochemical techniques suggested presence of elemental sulfur and a metal-deficient layer on the surf

32 ch (with octadecene (ODE) as the solvent and elemental sulfur and cadmium carboxylate as the precurso

33 bit comparable electrochemical properties to elemental sulfur and could serve as the active material

34 Elemental sulfur and DABCO were found to be an excellent

35 ial reactivity studies of the dications with elemental sulfur and diphenyldiselenide are presented.

36 By simply heating phenylacetonitriles 1 with elemental sulfur and DMSO in the presence of a catalytic

37 generated difluorocarbene in the presence of elemental sulfur and external (radioactive) fluoride ion

38 Benzyne is shown to add elemental sulfur and give rise to a series of polysulfan

39 ed imidazo[1,2-a]pyridines and indoles using elemental sulfur and haloarenes through one-pot, three c

40 We investigated disparities in elemental sulfur and inorganic sulfate concentrations in

41 Iron sulfide generated in situ from elemental sulfur and iron was found to be highly efficie

42 alyzes the formation of equimolar amounts of elemental sulfur and L-alanine from the substrate L-cyst

43 d reversible reduction and oxidation between elemental sulfur and Li-ions in the electrolyte to produ

44 the presence of Isu1 and the availability of elemental sulfur and reducing equivalents.

45 anes with amines directly in the presence of elemental sulfur and sodium sulfide to form a diverse ra

46 linethiones were obtained in the presence of elemental sulfur and suitable mediators.

47 phenes, and stable sulfur isotope ratios for elemental sulfur and sulfate in formation waters were in

48 The largest discrepancies between elemental sulfur and sulfate were most frequently observ

49 of thiosulfate oxidation were extracellular elemental sulfur and sulfate.

50 2)S mole ratio of 1, sulfide was oxidized to elemental sulfur and sulfate.

51 in and chymotrypsin inhibitor activities and elemental sulfur and sulfur amino acid content of the se

52 eaction conditions were also compatible with elemental sulfur and tellurium, which led to construct 3

53 ing class of compounds that are sourced from elemental sulfur and white phosphorus and are prepared f

54 molybdenum carbonyl, dicobalt octacarbonyl, elemental sulfur, and Al(2)O(3) or Ni-Al(2)O(3) under Ar

55 direct thiocyanate conversion into cyanate, elemental sulfur, and two reducing equivalents without i

56 ssociations between residential proximity to elemental sulfur applications and respiratory symptoms a

57 g System were used to estimate the amount of elemental sulfur applied within 0.5, 1, and 3km of a chi

58 ly available and inexpensive pyrrolidine and elemental sulfur are deployed as catalysts to achieve th

59 osulfur polymers, such as those derived from elemental sulfur, are an important new class of macromol

60 We report here on elemental sulfur as a promising 'soft' oxidant for selec

61 ctron donor, CO(2) as the carbon source, and elemental sulfur as the electron acceptor.

62 e or glycerol as electron/carbon sources and elemental sulfur as the terminal electron acceptor.

63 ed by an ionic mechanism with the release of elemental sulfur based on our control experiments and de

64 Reduction of elemental sulfur by a monovalent nickel precursor leads

65 ein shell allows the storage of redox-labile elemental sulfur by excluding cellular reducing agents,

66 to be kinetically dependent on reduction of elemental sulfur by ODE, which possessed a critical temp

67 opportunity to increase the valorization of elemental sulfur by the creation of high-performance sul

68 opportunity to increase the valorization of elemental sulfur by the synthesis of high-performance su

69 y 28% of the observations from 2005 to 2012, elemental sulfur by X-ray fluorescence (XRF) spectroscop

70 The oxidation product, elemental sulfur, can be further oxidized to sulfate by

71 rate that those soybean lines which had high elemental sulfur content also had a higher cysteine and

72 Thus, elemental sulfur content and/or protease inhibitor activ

73 y, we have examined the feasibility of using elemental sulfur content of soybean seeds as a proxy for

74 Elemental sulfur crystals can be formed inside the encap

75 the concentrations of sulfate, sulfide, and elemental sulfur during growth to learn whether they are

76 The elemental sulfur electrode with Cu(2+) as the charge car

77 Elemental sulfur, especially when combined with CuSO(4),

78 in vitro by incubation of purified SOD1 with elemental sulfur, even under anaerobic conditions and in

79 stic cysteine desulfurase CpNifS can release elemental sulfur from cysteine for Fe-S cluster biogenes

80 The production of elemental sulfur from petroleum refining has created a t

81 The production of elemental sulfur from petroleum refining has created a t

82 neole, has been synthesized in one step from elemental sulfur, gamma-terpinene, and limonene in 61% y

83 The elemental sulfur glass, made up from one of the simplest

84 at oxidize sulfide and deposit extracellular elemental sulfur globules [S(0)].

85 the reaction of o-benzoquinone with reduced elemental sulfur, H2Sx.

86 Elemental sulfur has shown to be a promising alternative

87 Like elemental sulfur, however, a successful lithium sulfide

88 reaction of the metals' amino complexes with elemental sulfur in a continuous-flow reactor at moderat

89 the different sulfur species in addition to elemental sulfur in coals.

90 chieved by the reaction of dithioesters with elemental sulfur in the presence of InCl3 under solvent-

91 Further reaction of 3 with 2 equiv of elemental sulfur in THF affords 4(*) via unexpected C-H

92 , [:C{[N(2,6-Pr(i)2C6H3)]2CHCLi}]n (2), with elemental sulfur (in a 1:2 ratio) in Et2O at low tempera

93 alent or monovalent negative states, such as elemental sulfur, inorganic polysulfides, and organic po

94 When using elemental sulfur instead of thioacetamide as the sulfur

95 t of synthetic methods capable of converting elemental sulfur into conjugated porous sulfur-rich poly

96 synthetic and processing methods to convert elemental sulfur into useful chemical substances has not

97 archaeon whose metabolism depends on whether elemental sulfur is (+S(0)) or is not (-S(0)) included i

98 ation by sulfuration of difluorocarbene with elemental sulfur is described for the first time, which

99 An excess of elemental sulfur is generated annually from hydrodesulfu

100 the capture of carbon from the atmosphere as elemental sulfur is oxidised to sulfate.

101 5-bis-nucleophilic N-heterocycle mediated by elemental sulfur is presented to illuminate the [5+1] ca

102 75 to 1.86) via the inverse vulcanization of elemental sulfur is reported.

103 and the other pool (atmospherically derived elemental sulfur) is suggested to be largely insoluble a

104 ation of sulfide and reduction of sulfate to elemental sulfur, is a heretofore undiscovered microbial

105 n living in proximity to fields treated with elemental sulfur, is not known.

106 energy lithium ion batteries because, unlike elemental sulfur, it obviates the need for metallic lith

107 f a-cyanoacetates and carbonyl compounds and elemental sulfur, its application to dibenzoylmethanes a

108 ope condensation, followed by opening of the elemental sulfur, leading to polysulfide formation.

109 s may only be marginally correlated with the elemental sulfur levels.

110 rospira species, production of extracellular elemental sulfur may be biogeochemically important in ma

111 Reactions progressed in the presence of elemental sulfur, N-methylmorpholine base, and DMSO solv

112 usted slags revealed considerable amounts of elemental sulfur on the surface of the particles.

113 Employing NaHMDS and related bases and elemental sulfur or bis[bis(trimethylsilyl)amino]trisulf

114 a and Chardonnay juice treated with CuSO(4), elemental sulfur or both were fermented, and subsequentl

115 riosus and a significant regulatory role for elemental sulfur or its metabolites.

116 om the marine sulfur cycle allow that either elemental sulfur or organosulfur compounds (or both) car

117 tadiene 7b undergoes 1,4-chalcogenation with elemental sulfur or selenium, and it gives the six-membe

118 id decrease in expression of thiosulfate and elemental sulfur oxidation genes.

119 ctivity, 100 units/mg) and is termed NAD(P)H elemental sulfur oxidoreductase (NSR).

120 c chains of various sizes and configuration, elemental sulfur possesses more allotropes and polymorph

121 sulfur species could condense as sulfide and elemental sulfur, potentially yielding the sulfate depos

122 catalytic sulfurization of isocyanides with elemental sulfur, preventing the exposure and handling o

123 re, we present multiisotopic measurements of elemental sulfur produced during the VUV photolysis of H

124 composition and polymerization mechanism of elemental sulfur remains a decades long unresolved quest

125 t, peptone, tryptone) and was able to reduce elemental sulfur (S degrees ), Fe(3+) and Mn(4+) .

126 when the organism is grown in the absence of elemental sulfur (S(0) ) and H2 S is produced when grown

127 Formation of elemental sulfur (S(0) ) and high expression of sulfide

128 oes a metabolic shift to produce H(2) S when elemental sulfur (S(0) ) becomes available.

129 rved as electron donors for the reduction of elemental sulfur (S(0)) and polysulfide by hydrogenase I

130 ound the world, including the application of elemental sulfur (S(0)) as a quick-reacting fungicide to

131 e oxidation is an efficient means to recover elemental sulfur (S(0)) as a valuable resource from sulf

132 Elemental sulfur (S(0)) is an important intermediate of

133 aracterized, major processes include aerobic elemental sulfur (S(0)) oxidation, anaerobic S(0) reduct

134 piration when provided with hydrogen (H(2)), elemental sulfur (S(0)), and O(2).

135 bohydrates as carbon sources, and it reduces elemental sulfur (S(0)), if present, to H(2)S.

136 The rest was attributed to the oxidation of elemental sulfur (S(0)), present as a residue from pyrit

137 ined counter fluxes of sulfide and oxidants, elemental sulfur (S(0))-a key intermediate in the sulfur

138 ancestor in the evolution of complex I, the elemental sulfur (S(0))-reducing reductase MBS.

139 the carbon source(s), each with and without elemental sulfur (S(0)).

140 ive electron acceptors to survive, including elemental sulfur (S(0)).

141 ated during growth of Pyrococcus furiosus on elemental sulfur (S(0)).

142 proteins play key roles in the metabolism of elemental sulfur (S(0)): a membrane-bound oxidoreductase

143 Elemental sulfur (S(8) (0))-oxidising Sulfolobales (Arch

144 )S) is removed from sour gas and oxidized to elemental sulfur (S(8)) by sulfide-oxidizing bacteria.

145 The role of the enzyme in the reduction of elemental sulfur (S(8)) in situ is not, however, ruled o

146 m-dichloroacetamides with various amines and elemental sulfur (S(8)) under ambient conditions in an o

147 They were used to investigate the effects of elemental sulfur (S(primary)) on the levels of gene expr

148 NifS-like proteins catalyze the formation of elemental sulfur (S) and alanine from cysteine (Cys) or

149 s, in particular metal sulfides (MS(x) ) and elemental sulfur (S), are currently regarded as promisin

150 disulfide-like species, the precipitation of elemental sulfur, S-S dimerization, and especially throu

151 the conversion of cysteine into alanine and elemental sulfur (S0) and of selenocysteine into alanine

152 ganism also generates H2S in the presence of elemental sulfur (S0).

153 isocyantes, and nitriles, as well as CO2 and elemental sulfur (S8 ).

154 Elemental sulfur (S8) reacts reversibly with the copper(

155 On reaction with elemental sulfur, the highly reduced P=N ligand, formall

156 Elemental sulfur, "the oldest of all pesticides," is the

157 thesis of alpha-iminonitriles facilitated by elemental sulfur through the dehydrogenative transformat

158 all compounds 4a-c were readily oxidized by elemental sulfur to afford the [5,5']bicyclopentadienyli

159 We report a method for using elemental sulfur to facilitate the cyclization of aryl h

160 The inverse vulcanization (IV) of elemental sulfur to generate sulfur-rich functional poly

161 es both H(2) production and the reduction of elemental sulfur to H(2)S.

162 The reaction of 3-arylbenzo[b]thiophenes and elemental sulfur to obtain [1]benzothieno[2,3-b][1]benzo

163 The Thermococcus strain PK could reduce elemental sulfur to sulfide, produce fatty acids and red

164 und to undergo sulfurative dimerization with elemental sulfur to tetrasubstituted 1,3-dithioles.

165 This study suggests that elemental sulfur use, allowed in both organic and conven

166 -adenosyl-l-methionine were synthesized from elemental sulfur using a chemoenzymatic approach with >9

167 ed imidazoheterocycles from aryl halides and elemental sulfur using copper(I) iodide as a catalyst ha

168 ization process, where H(2)S is converted to elemental sulfur using sulfide-oxidizing bacteria (SOB).

169 II) citrate, solid Fe(III)-oxyhydroxide, and elemental sulfur, using acetate as the electron donor.

170 Elemental sulfur was about 2% and 7% in black and brown

171 After elemental sulfur was activated by ODE, the formation rea

172 typically biotic isotope signature and (ii) elemental sulfur was detected, which indicates the oxida

173 nes with 2-chloroacetic acid derivatives and elemental sulfur was developed for the practical synthes

174 When elemental sulfur was included with the grapes at crushin

175 ed, including nitrate, nitrite, sulfate, and elemental sulfur, were added to digester sludge in batch

176 kely the main route for oxidizing sulfide to elemental sulfur which is subsequently oxidized to sulfa

177 This enzyme oxidizes elemental sulfur, which is abundant in the hydrothermal

178 was achieved in the inverse vulcanization of elemental sulfur with both these polycyclic dienyl comon

179 er, nor did either catalyze the reduction of elemental sulfur with H(2) as the electron donor.

180 ric S MIF in the marine pools of sulfate and elemental sulfur with inputs from SO2 and H2S, respectiv

181 ical properties via inverse vulcanization of elemental sulfur with new organic co-monomers.

182 the inverse vulcanization polymerization of elemental sulfur with organic comonomers.

183 rials through the direct copolymerization of elemental sulfur with vinylic monomers.

184 anomalies suggest that disproportionation of elemental sulfur would have been a prominent microbial p

185 detected S(w)C(x)H(y) (organo-sulfides) and elemental sulfur; XPS also indicated the presence of red