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Sulfur Compounds (sulfur + compound)

Distribution by Scientific Domains
Chemistry55%
Life Sciences26%
Medical Sciences8%
Polymers and Materials Science6%
2 Other Domains5%
Distribution within Chemistry
Chemical Engineering32%
Organic Chemistry25%

Kinds of Sulfur Compounds

  • organic sulfur compound
  • reduced sulfur compound
    		•
  • volatile organic sulfur compound
  • volatile sulfur compound
    		•

    Selected Abstracts

    Novel Model Sulfur Compounds as Mechanistic Probes for Enzymatic and Biomimetic Oxidations

    EUROPEAN JOURNAL OF ORGANIC CHEMISTRY, Issue 1 2005
    Alicia B. Peñéñory
    Abstract To test for the intermediacy of sulfide radical cations in biomimetic and enzymatic oxidations, the sulfides PhSCH3 (1a), PhSCH2Ph (1b), PhSCHPh2 (1c), PhSCPh3 (1d), CH3SCHPh2 (2), PhSCH2CH=CH2 (3), PhSCH2CH=CHPh (4) and CH3SCH2CH=CHPh (5) were studied, and their results were compared to those obtained for the corresponding chemical electron transfer (CET) and photoinduced electron transfer (PET) oxidations. The radical cations generated from 3,5 by CET in the presence of cerium(IV) ammonium nitrate (CAN) yielded only fragmentation products from the alkyl cations and the thiyl radicals (RS·), whereas 2·+ afforded both fragmentation and mainly ,-deprotonation products. Photochemical treatment of the sulfides 1a and 1b with C(NO2)4 gave only the corresponding sulfoxides, while fragmentation was the main pathway for the photoreactions of 1c, 2 and 5, and for 1d only this latter process was observed. These results support our selection of the sulfides RSCHPh2, RSCH2CH=CHPh (R = Me, Ph) and PhSCPh3 as models for the biomimetic and enzymatic studies. As evidenced by the sulfoxides and sulfones detected as unique products both in protic and in aprotic solvents, it is proposed that the mechanism of the biomimetic sulfoxidations of sulfides 1c and 2,5 by TPPFeIIICl is direct oxygen transfer. Three enzymes , Coprinus cinereus peroxidase (CiP), horseradish peroxidase (HRP) and chloroperoxidase (CPO) , were studied in the oxidation of sulfides 1a, 2, 4 and 5. The use of a racemic alkyl hydroperoxide in the CiP enzymatic oxidation of sulfides 5 and 2 yielded the corresponding sulfoxides (23 and 29%) and the aldehyde or benzophenone (5%), respectively. These results suggest the involvement of an ET process for the CiP-catalysed oxidation. Fragmentation products were observed in the enzymatic oxidation of sulfide 4 with HRP, which confirms the previously proposed ET mechanism. On the other hand, the CPO-enzymatic oxidation of sulfide 5 yielded only the corresponding sulfoxide, as would be expected for a direct oxygen-transfer or oxene mechanism. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2005) [source]

    Use of Topological Indices of Organic Sulfur Compounds in Quantitative Structure-Retention Relationship Study

    MOLECULAR INFORMATICS, Issue 9 2005
    F. Safa
    Abstract Structure-gas chromatographic retention index models were developed for some organic sulfur compounds at four different temperatures (60, 80, 100 and 120,°C) using only topological descriptors. At first, regression models were generated for each temperature separately with high values of multiple correlation coefficient and Fisher-ratio statistics. The results of cross validation test using leave-one-out (Q2,0.956) and leave-two-out (Q2,0.953) methods showed good predictive ability of the models developed. Then, a single combined quantitative structure-retention relationship model, added temperature as a parameter, was also developed for all the temperatures, showing good statistical parameters (R=0.991 and F=728.474). The stability and validity of the combined model were verified by both internal (Q2>0.970) and external validation (Q=0.993) techniques. The results of the study indicated the efficiency of the classical topological descriptors in simultaneous prediction of retention index values of sulfur compounds at different temperatures. The topological descriptors well covered the molecular properties known to be relevant for gas chromatographic retention data, such as molecular size and degree of branching. [source]

    ChemInform Abstract: Sulfur Compounds.

    CHEMINFORM, Issue 6 2002
    Part 218.
    Abstract ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a "Full Text" option. The original article is trackable via the "References" option. [source]

    ChemInform Abstract: Sulfur Compounds.

    CHEMINFORM, Issue 2 2002
    Part 220.
    Abstract ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a "Full Text" option. The original article is trackable via the "References" option. [source]

    ChemInform Abstract: Sulfur Compounds.

    CHEMINFORM, Issue 48 2001
    Part 217.
    Abstract ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a "Full Text" option. The original article is trackable via the "References" option. [source]

    Color inhibition of phenolic antioxidants in Ziegler-Natta polyethylene.

    JOURNAL OF VINYL & ADDITIVE TECHNOLOGY, Issue 1 2009

    Although the level of transition-metal catalyst residues in polyethylene (PE) has been drastically reduced over the years, they can still give rise to discoloration, particularly when associated with other additives such as antioxidants. This first of this series of papers screens a variety of candidate color suppressants featuring a range of functional groups, including alcohols, amine/sulfur compounds, and acid-containing species. These candidate color suppressants were melt-blended into a Ziegler-Natta linear low-density PE in combination with 2,2,-isobutylidenebis(4,6-dimethylphenol) (a highly discoloring hindered bisphenol antioxidant) and zinc stearate antacid. Yellowness index measurements made after multiple extruder passes indicated that dipentaerythritol (DPE) and triisopropylamine (TIPA) gave good color inhibition and, in some cases, outperformed established phosphites. The DPE and TIPA were found (via melt flow rate measurement) not to affect melt stability, and hydroperoxide determination revealed that DPE had no peroxide decomposition activity. The latter results indicate that the color-suppression mechanism of DPE and TIPA is different from that associated with phosphites. J. VINYL ADDIT. TECHNOL., 2009. © 2009 Society of Plastics Engineers [source]

    Ultra-deep desulfurization adsorbents for hydrotreated diesel with magnetic mesoporous aluminosilicates

    AICHE JOURNAL, Issue 5 2010
    Wangliang Li
    Abstract Magnetic mesoporous aluminosilicates (MMAS) were synthesized by hydrothermal method and applied as ultra-deep desulfurization adsorbents for hydrotreated diesel. The size of oleic-coated magnetic Fe3O4 nanoparticles prepared by coprecipitation method was about 20 nm. MMAS shows better desulfurization properties for removal of sulfur compounds than NaY and MCM-41. The amount of Fe3O4 nanoparticles has significant effects on specific surface area/pore volume and acidic properties, thus, can affect the desulfurization properties of MMAS. Desulfurization properties of MMAS can be improved with the increase of temperature from 30,70°C and decrease the oil to adsorbent ratio. With the increase of Fe3O4 content, adsorption capacity first increased and then decreased. The sulfur adsorption of MMAS was due to the synergetic effect of strong molecular affinity of the magnetite to the sulfur compound and large surface area/pore volume of the mesoporous aluminosilicates. © 2009 American Institute of Chemical Engineers AIChE J, 2010 [source]

    Erosion-corrosion of Q235 and 5Cr1/2Mo steels in oil with naphthenic acid and/or sulfur compound at high temperature

    MATERIALS AND CORROSION/WERKSTOFFE UND KORROSION, Issue 8 2005
    D. R. Qu
    Abstract The erosion-corrosion behaviors of Q235 steel and 5Cr1/2Mo steel in oil with naphthenic acid and/or sulfur compound at high temperature were studied in a hot oil loop simulating oil refining environments. The effects of impinging flow rate, incidence angle, and total acid number (TAN), and sulfur content on erosion-corrosion behavior were assessed. The eroded surfaces were characterized by scanning electron microscopy (SEM) and XPS. The results showed that both corrosion resistance and hardness of steels play an important role in combating erosion-corrosion. Sulfide films formed on the surface were significant in understanding the erosion-corrosion behavior when both naphthenic acid and sulfur compound were present. Erosion-corrosion regimes were determined on the basis of mechanism analysis of the damage process. [source]

    Die vielen Seiten des Sulfids.

    BIOLOGIE IN UNSERER ZEIT (BIUZ), Issue 5 2009
    Tödlich und doch lebensnotwendig
    Abstract Schwefelwasserstoff ist äußerst giftig und hat dennoch zahlreiche physiologische Funktionen. Tiere aus sulfidhaltigen Lebensräumen können sich effektiv vor einer Sulfidvergiftung schützen und nutzen diese reduzierte Schwefelverbindung sogar als Energielieferant. Das reichhaltige Leben an den Hydrothermalquellen der Tiefsee basiert vollständig auf der Oxidation anorganischer Substanzen, wobei Sulfid eines der Hauptsubstrate ist. Für den Menschen spielt Sulfid als gasförmiges Signalmolekül eine wichtige Rolle. Es wird in vielen Geweben produziert und ist an einigen entscheidenden Stoffwechselvorgängen, wie beispielsweise der Regulation des Blutdrucks und der Insulinsekretion beteiligt. Störungen des Schwefelstoffwechsels führen zu verschiedenen Erkrankungen, so dass die genaue Kenntnis der Umsetzung und Wirkungsweisen von Sulfid medizinisch von großem Interesse ist. Hydrogen sulfide is highly toxic, but nevertheless it has several physiological functions. Animals from sulfide containing habitats are able to protect themselves from sulfide poisoning and furthermore use this reduced sulfur compound for ATP production. Life at the deep-sea hydrothermal vents entirely depends on the oxidation of inorganic substrates, mainly sulfide. In humans sulfide acts as a gaseous signalling molecule. It is produced in many tissues and takes part in a number of important metabolic processes such as the regulation of blood pressure and insulin secretion. Several severe diseases are caused by dysfunctions in sulfur metabolism. Thus, a detailed knowledge of the reactions and effects of hydrogen sulfide is of considerable clinical relevance. [source]

    Development of a novel process for the biological conversion of H2S and methanethiol to elemental sulfur

    BIOTECHNOLOGY & BIOENGINEERING, Issue 1 2003
    Jan Sipma
    Abstract The feasibility of anaerobic treatment of wastewater containing methanethiol (MT), an extremely volatile and malodorous sulfur compound, was investigated in lab-scale bioreactors. Inoculum biomass originating from full-scale anaerobic wastewater treatment facilities was used. Several sludges, tested for their ability to degrade MT, revealed the presence of organisms capable of metabolizing MT as their sole source of energy. Furthermore, batch tests were executed to gain a better understanding of the inhibition potential of MT. It was found that increasing MT concentrations affected acetotrophic organisms more dramatically than methylotrophic organisms. Continuous reactor experiments, using two lab-scale upflow anaerobic sludge bed (UASB) reactors (R1 and R2), aimed to determine the maximal MT load and the effect of elevated sulfide concentrations on MT conversion. Both reactors were operated at a hydraulic retention time (HRT) of about 7 hours, a temperature of 30°C, and a pH of between 7.3 and 7.6. At the highest influent MT concentration applied, 14 mM in R1, corresponding to a volumetric loading rate of about 50 mM MT per day, 87% of the organic sulfur was recovered as hydrogen sulfide (12.2 mM) and the remainder as volatile organic sulfur compounds (VOSCs). Upon decreasing the HRT to 3.5 to 4.0 h at a constant MT loading rate, the sulfide concentration in the reactor decreased to 8 mM and MT conversion efficiency increased to values near 100%. MT conversion was apparently inhibited by the high sulfide concentrations in the reactor. The specific MT degradation rate, as determined after 120 days of operation in R1, was 2.83 ± 0.27 mmol MT g VSS,1 day,1. During biological desulfurization of liquid hydrocarbon phases, such as with liquefied petroleum gas (LPG), the combined removal of hydrogen sulfide and MT is desired. In R2, the simultaneous addition of sodium sulfide and MT was therefore studied and the effect of elevated sulfide concentrations was investigated. The addition of sodium sulfide resulted in enhanced disintegration of sludge granules, causing significant washout of biomass. Additional acetate, added to stimulate growth of methanogenic bacteria to promote granulation, was hardly converted at the termination of the experimental period. © 2003 Wiley Periodicals, Inc. Biotechnol Bioeng 82: 1,11, 2003. [source]

    Multiple bacterial symbionts in two species of co-occurring gutless oligochaete worms from Mediterranean sea grass sediments

    ENVIRONMENTAL MICROBIOLOGY, Issue 12 2008
    Caroline Ruehland
    Summary Gutless oligochaete worms are found worldwide in the pore waters of marine sediments and live in symbiosis with chemoautotrophic sulfur-oxidizing bacteria. In the Mediterranean, two species of gutless oligochaete worms, Olavius algarvensis and O. ilvae, co-occur in sediments around sea grass beds. These sediments have extremely low sulfide concentrations (< 1 ,M), raising the question if O. ilvae, as shown previously for O. algarvensis, also harbours sulfate-reducing symbionts that provide its sulfur-oxidizing symbionts with reduced sulfur compounds. In this study, we used fluorescence in situ hybridization (FISH) and comparative sequence analysis of genes for 16S rRNA, sulfur metabolism (aprA and dsrAB), and autotrophic carbon fixation (cbbL) to examine the microbial community of O. ilvae and re-examine the O. algarvensis symbiosis. In addition to the four previously described symbionts of O. algarvensis, in this study a fifth symbiont belonging to the Spirochaetes was found in these hosts. The symbiotic community of O. ilvae was similar to that of O. algarvensis and also included two gammaproteobacterial sulfur oxidizers and two deltaproteobacterial sulfate reducers, but not a spirochete. The phylogenetic and metabolic similarity of the symbiotic communities in these two co-occurring host species that are not closely related to each other indicates that syntrophic sulfur cycling provides a strong selective advantage to these worms in their sulfide-poor environment. [source]

    Molecular and morphological characterization of the association between bacterial endosymbionts and the marine nematode Astomonema sp. from the Bahamas

    ENVIRONMENTAL MICROBIOLOGY, Issue 5 2007
    Niculina Musat
    Summary Marine nematode worms without a mouth or functional gut are found worldwide in intertidal sandflats, deep-sea muds and methane-rich pock marks, and morphological studies show that they are associated with endosymbiotic bacteria. While it has been hypothesized that the symbionts are chemoautotrophic sulfur oxidizers, to date nothing is known about the phylogeny or function of endosymbionts from marine nematodes. In this study, we characterized the association between bacterial endosymbionts and the marine nematode Astomonema sp. from coral reef sediments in the Bahamas. Phylogenetic analysis of the host based on its 18S rRNA gene showed that Astomonema sp. is most closely related to non-symbiotic nematodes of the families Linhomoeidae and Axonolaimidae and is not closely related to marine stilbonematinid nematodes with ectosymbiotic sulfur-oxidizing bacteria. In contrast, phylogenetic analyses of the symbionts of Astomonema sp. using comparative 16S rRNA gene sequence analysis revealed that these are closely related to the stilbonematinid ectosymbionts (95,96% sequence similarity) as well as to the sulfur-oxidizing endosymbionts from gutless marine oligochaetes. The closest free-living relatives of these gammaproteobacterial symbionts are sulfur-oxidizing bacteria from the family Chromatiaceae. Transmission electron microscopy and fluorescence in situ hybridization showed that the bacterial symbionts completely fill the gut lumen of Astomonema sp., suggesting that these are their main source of nutrition. The close phylogenetic relationship of the Astomonema sp. symbionts to known sulfur-oxidizing bacteria as well as the presence of the aprA gene, typically found in sulfur-oxidizing bacteria, indicates that the Astomonema sp. symbionts use reduced sulfur compounds as an energy source to provide their hosts with nutrition. [source]

    Isolation and properties of methanesulfonate-degrading Afipia felis from Antarctica and comparison with other strains of A. felis

    ENVIRONMENTAL MICROBIOLOGY, Issue 1 2005
    S. Azra Moosvi
    Summary Three novel strains of methylotrophic Afipia felis were isolated from several locations on Signy Island, Antarctica, and a fourth from estuary sediment from the River Douro, Portugal. They were identified as strains of the ,-2 proteobacterium A. felis by 16S rRNA gene sequence, analysis., Two, strains, tested, were, shown to contain the fdxA gene, diagnostic for A. felis. All strains grew with methanesulfonate (and two strains with dimethylsulfone) as sole carbon substrate. Growth on methanesulfonate required methanesulfonate monooxygenase (MSAMO), using NADH as the reductant and stimulated by reduced flavin nucleotides and Fe(II). Polymerase chain reaction amplification of DNA from an Antarctic strain showed a typical msmA gene for the ,-hydroxylase of MSAMO, and both Antarctic and Portuguese strains contained mxaF, the methanol dehydrogenase large subunit gene. This is the first report of methanesulfonate-degrading bacteria from the Antarctic and of methylotrophy in Afipia, and the first description of any bacterium able to use both methanesulfonate and dimethylsulfone. In contrast, the type strain of A. felis DSM 7326T was not methylotrophic, but grew in defined mineral medium with a wide range of single simple organic substrates. Free-living Afipia strains occurring widely in the natural environment may be significant as methylotrophs, degrading C1 -sulfur compounds, including the recalcitrant organosulfur compound methanesulfonate. [source]

    Performance of a full-scale biotrickling filter treating H2S at a gas contact time of 1.6 to 2.2 seconds

    ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY, Issue 2 2003
    David Gabriel
    Emission of objectionable odors is a major problem for wastewater treatment and other processing facilities. Biological treatment is a promising alternative to conventional control methods, such as chemical scrubbing, but historically, biotreatment has always required significantly larger reactor volumes than chemical scrubbers. In this paper, we present several aspects of the operation and performance of a chemical scrubber, retrofitted to operate as a biotrickling filter treating 16,000 m3 h,1 of foul air with the original gas contact time of 1.6 to 2.2 seconds. In continuous operation for more than a year, the biotrickling filter has shown stable performance and robust behavior for H2S treatment, with pollutant removal performance comparable to using a chemical scrubber. Reclaimed water was used as a nutrient source for the process, and to maintain the pH in the biotrickling filter between 1.5 and 2.2. At a gas contact time of 1.6 seconds, H2S removal was in excess of 95% for sustained inlet H2S concentrations as high as 30 ppmv. This corresponds to volumetric elimination rates of 95 to 105 g H2S m,3 h,1. Efficiencies of about 90% were observed under transient conditions at 2.2 seconds gas contact time for inlet concentration peaks up to 60 ppmv. The biotrickling filter also removed significant amounts of reduced sulfur compounds, ammonia, and volatile organic compounds present in traces in the air, which is important in practical applications. Selected experiments, such as intermittent trickling operation and a one-month operation period at neutral pH, are also presented. Results indicate that the intermittent trickling operation does not have a significant effect on H2S removal. However, when operated at neutral pH, biotrickling filter performance clearly decreased, probably due to an excessive chlorine supply to the reactor through the make-up water. The study demonstrates that biotrickling filters can replace chemical scrubbers as a safer, more economical technique for odor control. [source]

    Volatile organic sulfur compounds in anaerobic sludge and sediments: Biodegradation and toxicity

    ENVIRONMENTAL TOXICOLOGY & CHEMISTRY, Issue 12 2006
    Robin C. van Leerdam
    Abstract A variety of environmental samples was screened for anaerobic degradation of methanethiol, ethanethiol, propanethiol, dimethylsulfide, and dimethyldisulfide. All sludge and sediment samples degraded methanethiol, dimethylsulfide, and dimethyldisulfide anaerobically. In contrast, ethanethiol and propanethiol were not degraded by the samples investigated under any of the conditions tested. Methanethiol, dimethylsulfide, and dimethyldisulfide were mainly degraded by methanogenic archaea. In the presence of sulfate and the methanogenic inhibitor bromoethane sulfonate, degradation of these compounds coupled to sulfate reduction occurred as well, but at much lower rates. Besides their biodegradability, also the toxicity of methanethiol, ethanethiol, and propanethiol to methanogenesis with methanol, acetate, and H2/CO2 as the substrates was assessed. The 50% inhibition concentration of methanethiol on the methane production from these substrates ranged between 7 and 10 mM. The 50% inhibition concentration values of ethanethiol and propanethiol for the degradation of methanol and acetate were between 6 and 8 mM, whereas hydrogen consumers were less affected by ethanethiol and propanethiol, as indicated by their higher 50% inhibition concentration (14 mM). Sulfide inhibited methanethiol degradation already at relatively low concentrations: methanethioldegradation was almost completely inhibited at an initial sulfide concentration of 8 mM. These results define the operational limits of anaerobic technologies for the treatment of volatile organic sulfur compounds in sulfide-containing wastewater streams. [source]

    Chemical speciation and cellular deposition of lead in Sesbania drummondii

    ENVIRONMENTAL TOXICOLOGY & CHEMISTRY, Issue 9 2004
    Nilesh C. Sharma
    Abstract The internalized speciation of lead in roots and leaves of Sesbania drummondii, a lead hyperaccumulator, grown in lead nitrate solution was studied using x-ray absorption near-edge structure and extended x-ray absorption fine structure. Lead was predominantly present as lead acetate in both plant tissues. The other dominant forms of accumulation were lead,sulfur compounds. Whereas lead sulfate and sulfide were found in leaves, only lead sulfide was detected in root samples. These observations indicate that S. drummondii is able to biotransform lead nitrate in the nutrient solution to lead acetate and sulfate in its tissues. Complexation with acetate and sulfate may be a lead detoxification strategy in this plant. Transmission-electron microscopy revealed the pattern of lead distribution in and around the cells. Dense distributions of lead grains were detected in root cell walls and plasma membranes, whereas evidence for vacuolar transport of lead was noticed in the stem cells. [source]

    Microbial desulfurization of gasoline by free whole-cells of Rhodococcus erythropolis XP

    FEMS MICROBIOLOGY LETTERS, Issue 2 2006
    Bo Yu
    Abstract Rhodococcus erythropolis XP could grow well with condensed thiophenes, mono-thiophenic compounds and mercaptans present in gasoline. Rhodococcus erythropolis XP was also capable of efficiently degrading the condensed thiophenes in resting cell as well as biphasic reactions in which n -octane served as a model oil phase. Free whole cells of R. erythropolis XP were adopted to desulfurize fluid catalytic cracking (FCC) and straight-run (SR) gasoline oils. About 30% of the sulfur content of FCC gasoline and 85% of sulfur in SR gasoline were reduced, respectively. Gas chromatography analysis with atomic emission detection also showed depletion of sulfur compounds in SR gasoline. Rhodococcus erythropolis XP could partly resist the toxicity of gasoline and had an application potential to biodesulfurization of gasoline. [source]

    Enzymology and molecular biology of prokaryotic sulfite oxidation,

    FEMS MICROBIOLOGY LETTERS, Issue 1 2001
    Ulrike Kappler
    Abstract Despite its toxicity, sulfite plays a key role in oxidative sulfur metabolism and there are even some microorganisms which can use it as sole electron source. Sulfite is the main intermediate in the oxidation of sulfur compounds to sulfate, the major product of most dissimilatory sulfur-oxidizing prokaryotes. Two pathways of sulfite oxidation are known: (1) direct oxidation to sulfate catalyzed by a sulfite:acceptor oxidoreductase, which is thought to be a molybdenum-containing enzyme; (2) indirect oxidation under the involvement of the enzymes adenylylsulfate (APS) reductase and ATP sulfurylase and/or adenylylsulfate:phosphate adenylyltransferase with APS as an intermediate. The latter pathway allows substrate phosphorylation and occurs in the bacterial cytoplasm. Direct oxidation appears to have a wider distribution; however, a redundancy of pathways has been described for diverse photo- or chemotrophic, sulfite-oxidizing prokaryotes. In many pro- and also eukaryotes sulfite is formed as a degradative product from molecules containing sulfur as a heteroatom. In these organisms detoxification of sulfite is generally achieved by direct oxidation to sulfate. [source]

    Biochemistry and molecular biology of lithotrophic sulfur oxidation by taxonomically and ecologically diverse bacteria and archaea

    FEMS MICROBIOLOGY REVIEWS, Issue 6 2009
    Wriddhiman Ghosh
    Abstract Lithotrophic sulfur oxidation is an ancient metabolic process. Ecologically and taxonomically diverged prokaryotes have differential abilities to utilize different reduced sulfur compounds as lithotrophic substrates. Different phototrophic or chemotrophic species use different enzymes, pathways and mechanisms of electron transport and energy conservation for the oxidation of any given substrate. While the mechanisms of sulfur oxidation in obligately chemolithotrophic bacteria, predominantly belonging to Beta - (e.g. Thiobacillus) and Gammaproteobacteria (e.g. Thiomicrospira), are not well established, the Sox system is the central pathway in the facultative bacteria from Alphaproteobacteria (e.g. Paracoccus). Interestingly, photolithotrophs such as Rhodovulum belonging to Alphaproteobacteria also use the Sox system, whereas those from Chromatiaceae and Chlorobi use a truncated Sox complex alongside reverse-acting sulfate-reducing systems. Certain chemotrophic magnetotactic Alphaproteobacteria allegedly utilize such a combined mechanism. Sulfur-chemolithotrophic metabolism in Archaea, largely restricted to Sulfolobales, is distinct from those in Bacteria. Phylogenetic and biomolecular fossil data suggest that the ubiquity of sox genes could be due to horizontal transfer, and coupled sulfate reduction/sulfide oxidation pathways, originating in planktonic ancestors of Chromatiaceae or Chlorobi, could be ancestral to all sulfur-lithotrophic processes. However, the possibility that chemolithotrophy, originating in deep sea, is the actual ancestral form of sulfur oxidation cannot be ruled out. [source]

    Quantitative Recovery of Elemental Sulfur and Improved Selectivity in a Chromium-Reducible Sulfur Distillation

    GEOSTANDARDS & GEOANALYTICAL RESEARCH, Issue 1 2009
    Jens Gröger
    soufre réductible par le chrome; CRS; soufre élémentaire; selectivité; efficacité de distillation Chromium-reducible sulfur (CRS) distillations are intended to recover only reduced inorganic sulfur compounds (RIS) including elemental sulfur. However, the quantitative recovery of elemental sulfur is not ensured in common CRS-distillations. The new method presented here was designed to remedy this deficiency. An increase in ethanol concentration assured the quantitative recovery of elemental sulfur in various forms and, in addition, all other RIS-compounds were quantitatively recovered. Furthermore, the selectivity of the procedure was improved by an additional filtration step to eliminate zinc particles from the Cr(II)-solution. Thus, the recovery of sulfates and organic sulfur compounds was significantly decreased by a factor of up to 35, depending on the compound analysed. Exhaustive testing with a variety of pure phases, rock and soil samples demonstrated the precision and accuracy of the new method. The new protocol eliminated the constraints of previous procedures. The improved distillation efficiency for elemental sulfur ensured the quantitative recovery of all RIS-compounds in a single-step distillation. Des distillations du soufre réductible par le chrome (CRS) ont été effectuées afin de récupérer uniquement les composés soufrés inorganiques (RIS: reduced inorganic sulfures) dont le soufre élémentaire. La procédure classique de distillation CRS ne permet pas néanmoins la récupération totale du soufre élémentaire. Une nouvelle méthode, présentée ici, a été développée pour remédier à ce problème. L'augmentation de la concentration en éthanol assure la récupération totale du soufre élémentaire sous différentes formes et, de plus, celle de tous les autres composés RIS. La sélectivité de la procédure a été améliorée par l'ajout d'une étape de filtration, qui élimine des particules de zinc provenant de la solution Cr(II). Ceci a entraîné une diminution jusqu'à un facteur 35 du taux d'extraction des sulfates et des composés soufrés organiques, selon les composés analysés. Des tests extensifs sur différentes phases pures et des échantillons de roches et de sols ont montré la précision et la justesse de cette nouvelle méthode. Le nouveau protocole élimine les contraintes des procédures passées. L'amélioration de l'efficacité de cette distillation concernant le soufre élémentaire garantit une récupération fiable de tous les composés RIS par une distillation en une seule étape. [source]

    5-Chloro-3-methylthio-1,2,4-thiadiazol-2-ium chlorides as useful synthetic precursors to a variety of 6a,4 -thiapentalene systems

    HETEROATOM CHEMISTRY, Issue 1 2003
    Georges Morel
    Title salts 3 were easily obtained by treatment of formimidoyl isothiocyanates 1 with a twofold excess of methanesulfenyl chloride. They showed interesting chemical behavior toward several nitrogen and carbon nucleophiles. Substitution reactions with isothioureas and acetamide in the presence of triethylamine gave the 1H, 6H -6a,4 -thia-1,3,4,6-tetraazapentalenes 7 and 6H -6a,4 -thia-1-oxa-3,4,6-triazapentalene 9, respectively. Addition of p -toluidine furnished the 5-imino-thiadiazole derivatives 10, which reacted further with diverse heterocumulenes to yield the corresponding thiatriaza- and tetraazapentalene species 11. The N,N,-bis(1,2,4-thiadiazol-5-ylidene)diaminobenzenes 13 were also prepared and reacted with phenyl isothiocyanate. Two stable rotational isomers were separated for the 1,2-phenylene product 14b. Other ,-hypervalent sulfur compounds 16 were synthesized under similar conditions from salts 3 and methyl cyanoacetate or dimethyl malonate. The structural assignments were discussed on the basis of IR and NMR spectroscopic data and received additional support from X-ray analysis of substrate 16a. © 2003 Wiley Periodicals, Inc. Heteroatom Chem 14:95,105, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/hc.10106 [source]

    The Pummerer-like reaction of 2,5-bis(trimethylsilyl)thiophene S -oxide with trifluoroacetic anhydride: intermediary formation of sulfurane [10- S -4(C2O2)] (,4 -sulfane)

    HETEROATOM CHEMISTRY, Issue 5 2001
    Soichi Sato
    On treatment of a 2,5-bissilylsubstituted thiophene S-oxide or dibenzothiophene S-oxide with trifluoroacetic anhydride, the equillibria between the corresponding substrates and hypervalent sulfur compounds (sulfurane or ,4 -sulfane) have now been first detected by low temperature NMR experiments. By elevating the temperature to room temperature, in the case of the thiophene S-oxide, the sulfurane detected was converted to 3-thiolene-2-one quantitatively via a Pummerer-like reaction. © 2001 John Wiley & Sons, Inc. Heteroatom Chem 12:444,450, 2001 [source]

    Studies on low-coordinated nitrogen, phosphorus, sulfur, and selenium compounds

    HETEROATOM CHEMISTRY, Issue 4 2001
    Naoki Inamoto
    The major studies of my laboratory on heteroatom chemistry are briefly outlined and include the following topics: (1) novel radical reactions to kinetic stabilization of organosulfur and selenium compounds, (2) novel reactions of organophosphorus compounds, (3) reaction of the S atom to stabilization of o-thioquinonemethides, (4) N-nitrosoimines stabilized by heterocycles to hypervalent sulfur compounds, and (5) phosphinidenes (R-P) to kinetic stabilization of low-coordinated organophosphorus compounds. © 2001 John Wiley & Sons, Inc. Heteroatom Chem 12:183,194, 2001 [source]

    Removal of H2S and volatile organic sulfur compounds by silicone membrane extraction

    JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 1 2009
    I. Manconi
    Abstract BACKGROUND: This study explores an alternative process for the abatement and/or desulfurization of H2S and volatile organic sulfur compounds (VOSC) containing waste streams, which employs a silicone-based membrane to simultaneously remove H2S and VOSC. An extractive membrane reactor allows the selective withdrawal of VOSC and H2S simultaneously from the waste stream, while preventing direct contact between the waste stream and the absorbing solution and/or the biological treatment system. The influence of the sulfur compounds, membrane characteristics, extractant and pH was studied. RESULTS: Sulfide and the VOCS studied, i.e. methanethiol (MT), ethanethiol (ET) and dimethylsulfide (DMS) were removed from the synthetic wastewater using a silicone rubber membrane. Methanethiol showed the highest (8.72 × 10,6 m s,1) overall mass transfer coefficient (kov) and sulfide the lowest kov value (1.23 × 10,6 m s,1). Adsorption of the VOCS into the silicone membrane reduced the overall mass transfer coefficient. The kov when using Fe(III)EDTA, as extractant (5.81 × 10,7 m s,1) for sulfide extraction was one order of magnitude lower than with anaerobic water (2.54 × 10,6 m s,1). On the other hand, the sulfide removal efficiency with Fe(III)EDTA, was higher (84%) compared with anaerobic water (60%) as extractant. An additional mass transfer resistance was formed by elemental sulfur which remained attached to the membrane surface. CONCLUSIONS: Extraction of sulfide and VOCS from a synthetic wastewater solution through a silicone rubber membrane is a feasible process as alternative to the techniques developed to treat VOSC emissions. Optimizing the aqueous absorption liquid can increase the efficiency of extraction based processes. Copyright © 2008 Society of Chemical Industry [source]

    Anaerobic biodegradation of phenol in sulfide-rich media

    JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 6 2004
    Patricia Olguín-Lora
    Abstract In the refinery industry, the washing processes of middle-distillates using caustic solutions generate phenol- and sulfide-containing waste streams. The spent caustic liquors generated contain phenols at concentrations higher than 60 g dm,3(638.3 mmol dm,3). For sulfur compounds, the average sulfide concentration was 48 g dm,3(1500 mmol dm,3) in these streams. The goal of this study was to evaluate the specific impact of phenol and sulfide concentrations towards the phenol-biodegradation activity of a phenol-acclimated anaerobic granular sludge. An inhibition model was used to calculate the phenol and sulfide inhibitory concentrations that completely stopped the phenol-biodegradation activity (IC100). A maximum phenol-biodegradation activity of 83 µmol g,1 VSS h,1 was assessed and the IC100 values were 21.8 mmol dm,3 and 13.4 mmol dm,3 for phenol and sulfide respectively. The limitation of the phenol biodegradation flow by phenol inhibition seemed to be related to the more important sensitivity of phenol-degrading bacteria. The up-flow anaerobic sludge bed reactor operating in a non-phenol-dependent inhibition condition did not present any sensitivity to sulfide concentrations below 9.6 mmol dm,3. At this residual concentration, the pH and bisulfide ions' concentration might be responsible for the general collapsing of the reactor activity. Copyright © 2004 Society of Chemical Industry [source]

    Biofiltration of nuisance sulfur gaseous odors from a meat rendering plant

    JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 12 2002
    Zarook Shareefdeen
    Abstract This paper presents a case study of a commercial biofilter, treating air streams contaminated with several odorous compounds including dimethyl sulfide, ammonia, methanethiol, hydrogen sulfide and ethylamine. The biofilter is packed with a proprietary wood-based (BIOMIXÔ) medium which is designed to provide a good biological environment, pH buffer capacity, low pressure drop and resistance to compaction. This commercial biofilter treats a contaminated air volume of 15,000 actual cubic feet per minute (acfm) from a meat rendering and wastewater treatment operation with a 30-s empty bed residence time. The case study includes a novel gas sampling procedure and characterization of biofilter air streams through a mobile Fourier transform infrared system and olfactometer analysis. The results confirmed the good distribution of air, moisture and bacterial population across the medium. Four years of consistent performance of this commercial biofilter with >99% removal of 24,500 odor units demonstrates that biofilters can be successfully applied for the removal of highly odorous gaseous sulfur compounds. © 2002 Society of Chemical Industry [source]

    Relationship between periodontal pocket sulfide levels and subgingival species

    JOURNAL OF CLINICAL PERIODONTOLOGY, Issue 11 2003
    G. Torresyap
    Abstract Background: Many species implicated in the pathogenesis of periodontal disease produce volatile sulfur compounds (VSC). This investigation examined the relationship between levels of sulfide and subgingival bacterial species in the same periodontal pockets. Material and Methods: Twenty chronic periodontitis subjects were measured clinically at six sites per tooth for plaque, gingivitis, bleeding on probing, suppuration, pocket depth and attachment level. Subgingival plaque samples, taken from the mesial aspect of each tooth, were individually analyzed for their content of 40 bacterial species using checkerboard DNA,DNA hybridization. Sulfide levels were measured at the same sites using a Diamond Probe/Perio 2000 system. Clinical and microbiological data were averaged for sulfide-positive and -negative sites separately in each subject and then averaged across subjects. Significance differences in clinical and microbial parameters between sulfide-positive and -negative sites were sought using the Wilcoxon signed ranks test. Results: Mean total DNA probe counts (×105, ±SEM) at sulfide-negative and -positive sites were 44.0±9.9 and 65.0±13.3, respectively (p<0.01). Seventeen species were found at significantly higher levels in sulfide-positive than -negative sites. These included abundant producers of VSC such as members of the genera Fusobacterium, Campylobacter, Prevotella, Treponema and Eubacterium, and Bacteriodes forsythus, Selenomonas noxia and Propionibacterium acnes. Prevotella intermedia, Bacteriodes forsythus, Prevotella nigrescens, Fusobacterium nucleatum ss vincentii and Treponema denticola exhibited the greatest difference in mean counts between sulfide-negative and -positive sites. Orange and red complex species were at higher counts at shallow (<4 mm) sulfide-positive than shallow sulfide-negative sites. Although not statistically significant, mean clinical parameters were somewhat higher at sulfide-positive than sulfide-negative sites. Conclusions: Intra-pocket sulfide levels reflect the levels of sulfide-producing species and may provide useful diagnostic information. Zusammenfassung Grundlagen: Viele Spezies, die mit der Pathogenese der Parodontalerkrankung verbunden sind produzieren flüchtige Schwefelkomponenten (VSC). Diese Studie untersuchte die Verbindung zwischen dem Sulfid-Niveau und subgingivalen Spezies in den gleichen parodontalen Taschen. Methode: 20 Patienten mit chronischer Parodontitis wurden an 6 Stellen pro Zahn klinisch befundet hinsichtlich Plaque, Gingivitis, BOP, Eiterentleerung, Taschentiefe und Attachmentniveau. Unter Verwendung der Schachbrett-DNA,DNA-Hybridisierung wurden subgingivale Plaqueproben von der mesialen Stelle eines jeden Zahns individuell hinsichtlich des Vorkommens von 40 bakteriellen Spezies untersucht. An der gleichen Stelle wurde mittels des Diamond Probe/Perio 2000 Systems das Niveau des Sulfids gemessen. Von den klinischen und mikrobiologischen Daten wurden bei jedem Patienten getrennt für Sulfid-positiv und Sulfid-negativ ein Durchschnitt gebildet und anschließend der Durchschnitt für alle Patienten berechnet. Nach signifikanten Unterschieden in den klinischen und mikrobiologischen Parametern zwischen Sulfid-positiven und Sulfid-negativen Stellen wurde unter Verwendung des Wilcoxon signed ranks Test gesucht. Ergebnisse: Die mittlere Bakterienanzahl mit Gesamt-DNA-Sonden (× 105, ±SEM) betrug an den Sulfid-negativen Stellen und Sulfid-positiven Stellen 44.0±9.9 bzw. 65.0±13.3 (p<0.01). Bei 17 Spezies wurde ein signifikant höheres Niveau in den Sulfid-positiven Stellen vorgefunden. Die umfasste Bakterien die reichlich VSC produzieren, wie Mitglieder der Genera Fusobacterium, Campylobacter, Prevotella, Treponema und Eubacterium und B. forsythus, S. noxia und P. acnes. P. intermedia, B. forsythus, P. nigrescens, F. nucleatum ssvincentii und T. denticola zeigten den größten Unterschied zwischen Sulfid-positiven und Sulfid-negativen Stellen in der durchschnittlichen Bakterienanzahl. Spezies des orangen und roten Komplexes lagen in höherer Anzahl in flachen (<4 mm) Sulfid-positiven, als in flachen Sulfid-negativen Taschen vor. Obwohl statistisch nicht signifikant, lagen die durchschnittlichen klinischen Parameter bei den Sulfid-positiven etwas höher als bei den Sulfid-negativen Taschen Schlussfolgerungen: Die innerhalb der Taschen gemessenen Sufiid-Niveaus spiegeln das Niveau der Sulfid-produzierenden Spezies wieder und könnten eine nützliche diagnostische Information liefern. Résumé Plusieurs espèces impliquées dans la pathogenèse de la maladie parodontale produisent des composés de sulfate volatiles (VSC). Cette étude examine la relation entre les niveaux de sulfate et les espèces bactériennes sous-gingivales dans les mêmes poches parodontales. Vingt sujets avec parodontite chronique ont subi un examen clinique au niveau de six sites par dent pour la plaque dentaire, la gingivite, la profondeur de poche au sondage (BOP), la suppuration, la profondeur de poche et le niveau d'attache. Des échantillons de plaque sous-gingivale prélevés en mésial de chaque dent ont été analysés individuellement pour leur contenu de 40 espèces bactériennes à l'aide de l'hybridisation ADN-ADN croisée. Les niveaux de sulfate ont été mesurés au niveau des mêmes sites par le système de sonde Diamond/Perio 2000. Les moyennes des données cliniques et microbiologiques ont étéétablies pour les sites sulfate positif et négatif chez chaque sujet et par sujet. Des différences significatives dans les paramètres cliniques et microbiologiques entre les sites sulfate positif et négatif ont été observées via le test de Wilcoxon. Les moyennes totales des comptes de la sonde ADN (x105,+/,ES) au niveau des sites sulfate négatif et positif étaient respectivement de 44,0 +/,9,9 et 65,0+/,13,3 (p<0,01). Dix sept espèces ont été trouvées à des niveaux hautement plus significatifs dans des sites sulfate positif que négatif. Ceux-ci comprennaient d'abondants producteurs de VSC tels que les Fusobacterium, Catnpylobacter, Prevotella, Treponema, Eubacterium, B. forsythus, S. noxia etP. acnes, P. intermedia, B. forsythus, P. nigrescens, F. nucleatum ss vincentii et T. denticola qui montraient la plus grande différence dans la moyenne des comptes entre les sites sulfate négatif et positif. Les espèces complexe orange et rouge étaient plus nombreuses dans les sites de faible profondeur (<4 mm) sulfate positif que dans les sites peu profonds sulfate négatif. Bien que statistiquement non significative la moyenne des paramètres cliniques a été quelque peu plus élevée au niveau des sites sulfate positif qu'au niveau des négatifs. Les niveaux de sulfate intrapoche reflètent les niveaux des espèces produisant du sulfate et pourraient apporter une information de diagnostic pratique. [source]

    Clinical effects of a new mouthrinse containing chlorhexidine, cetylpyridinium chloride and zinc-lactate on oral halitosis

    JOURNAL OF CLINICAL PERIODONTOLOGY, Issue 4 2003
    A dual-center, double-blind placebo-controlled study
    Abstract Objectives:, The aim of this double-blind, parallel study was to test the clinical efficacy of a newly developed mouthrinse in the treatment of oral halitosis in patients without periodontitis. Material and methods:, Forty volunteers, recruited in two centers, participated in this study. Patients were selected on the basis of (1) halitosis of oral origin, (2) full-mouth organoleptic score>1, using an arbitrary 0,5 scale, (3) level of volatile sulfur compounds (VSC)>170 parts per billion (ppb) and (4) Winkel tongue coating index (WTCI)>4 (0,12). Intervention included gargling with a mouthrinse containing chlorhexidine (0.05%), cetylpyridinium chloride (0.05%) and zinc-lactate (0.14%) or with a placebo mouthrinse without active ingredients. At days 0 and 14 clinical variables were assessed in order of performance: (1) organoleptic assessments, (2) levels of VSC, and (3) WTCI. Results:, Treatment with the active mouthrinse resulted in a significant mean reduction in the organoleptic score from 2.8 to 1.5 (p<0.005). In the placebo group, no significant reduction in the mean organoleptic score occurred. Consequently, this resulted, after 2 weeks, in a greater change of the organoleptic scores in the test group in comparison to the placebo group (p<0.005). The mean VSC scores were reduced from 292 to 172 ppb in the test group (p<0.005), whereas no reduction was observed in the placebo group. At the 2-week examination, the mean change of the VSC scores in the test group was significantly greater than the mean change in the placebo group (p<0.005). Neither in the test nor in the placebo group a significant reduction in tongue coating was observed. Conclusions:, In conclusion, the tested mouthrinse is effective in the treatment of oral halitosis. Zusammenfassung Klinischer Effekt einer neuartigen Chlorhexidin, Cetylpyridiniumchlorid und Zinklaktat enthaltenden Mundspüllösung auf Mundgeruch. Eine bizentrische plazebokontrollierte Doppelblindstudie Zielsetzung: Untersuchung der klinischen Wirksamkeit einer neu entwickelten Mundspüllösung für die Behandlung von Mundgeruch bei Patienten, die keine Parodontitis haben, mittels einer parallelarmigen Doppelblindstudie. Material und Methoden: 40 Freiwillige, die an 2 Zentren rekrutiert wurden, nahmen an dieser Studie teil. Die Patienten wurden nach folgenden Kriterien ausgewählt: 1) Mundgeruch, 2) organoleptischer Wert der gesamten Mundhöhle > 1 auf einer arbiträren Skala von 0 bis 5, 3) Spiegel flüchtiger Schwefelverbindungen (VSC) > 170 parts per billion (ppb), 4) Winkel Zungenbelagsindex (WTCI) > 4 (0-12). Die Therapie umfasste Gurgeln mit einer Mundspüllösung, die Chlorhexidin (0,05%), Cetylpyridiniumchlorid (0,05%) und Zinklaktat (0.14%) enthielt oder mit einer Plazebospüllösung, die keine aktiven Bestandteile aufwies. Am Tag 0 und 14 wurden klinische Parameter in folgender Reihenfolge erhoben: 1) organoleptische Messungen, 2) VSC-Spiegel, 3) WTCI. Ergebnisse: Die Behandlung mit der aktiven Spüllösung resultierte in einer signifikanten mittleren Reduktion des organoleptischen Werts von 2,8 auf 1,5 (p<0,005), während in der Plazebogruppe keine signifikante Verringerung des mittleren organoleptischen Werts beobachtet wurde. Konsequenterweise ergab sich nach 2 Wochen in der Testgruppe eine stärkere Veränderung des organoleptischen Werts als in der Plazebogruppe (p<0,005). Der mittlere VSC-Wert wurde in der Testgruppe von 292 auf 172 ppb reduziert (p<0,005), während in der Plazebogruppe keine Veränderung auftrat. Nach 2 Wochen wurde in der Testgruppe eine signifikant stärkere Veränderung des VSC-Werts beobachtet als in der Kontrollgruppe (p<0,005). Weder in der Test- noch in der Plazebogruppe wurde eine signifikante Reduktion des Zungenbelags beobachtet. Schlussfolgerung: Die untersuchte Mundspüllösung ist wirksam zur Behandlung von Mundgeruch. Résumé Effets cliniques d'un nouveau bain de bouche contenant de la chlorhexidine, du chlorure de cetylpyridinium et du lactate de zinc sur l'halitose buccale. Une étude bi-centrique contrôlée par placebo en double aveugle. Objectifs: Le but de cette étude bi-centrique en double aveugle en parallèle était de tester l'efficacité clinique d'un bain de bouche récemment développé pour le traitement de l'halitose buccale sans parodontite. Matériel & Méthodes: 40 volontaires recrutés dans deux centres ont participéà cette étude. Les patients ont été sélectionnés sur les critères suivants : 1) halitose d'origine buccale, 2) score organoleptique de la bouche complète > 1, en utilisant une échelle arbitraire allant de 0 à 5, 3) un niveau de composés volatiles sulfurés (VSC) > 170 portions par billion (ppb) 4) un indice de recouvrement de la langue de Winkel (WTCI) > 4 (0,12). L'intervention comprenait un gargarisme avec un bain de bouche contenant de la chlorhexidine (0.05%), du chlorure de cetylpyridinium (0.05%) et du lactate de zinc (0.14%) ou avec un placebo sans ingrédients actifs. Au jours 0 et 14 les paramètres cliniques furent relevés pour l'ordre d'exécution 1) estimation organoleptique 2)niveaux de VSC, 3) WTCI. Résultats: le traitement avec le bain de bouche actif résultait en une réduction moyenne significative du score organoleptique de 2.8 à 1.5 (p < 0.005). Dans le groupe placebo, aucune réduction significative du score moyen organoleptique n'était par contre relevée. En consequence, ceci impliquait après 2 semaines un changement plus grand des scores organoleptiques dans le groupe test par rapport par rapport au groupe placebo (p < 0.005). Les scores moyens de VSC étaient réduits de 292 à 172 ppb dans le groupe test (p < 0.005), alors qu'aucune diminution n'était observée dans le groupe placebo. Lors de l'examen à 2 semaines, le changement moyen des scores de VSC dans le groupe test était significativement plus importants que le changement moyen dans le groupe placebo. (p < 0.005). Aucune réduction significative du recouvrement de la langue n'était par contre observée, ni dans le groupe test, ni dans le groupe placebo. Conclusions: En conclusion, Le bain de bouche testé est efficace pour le traitement de l'halitose. [source]

    Characterization by Volatile Compounds of Microbial Deep Spoilage in Iberian Dry-Cured Ham

    JOURNAL OF FOOD SCIENCE, Issue 6 2010
    Alberto Martín
    Abstract:, In the present study, volatile compounds of spoiled dry-cured Iberian ham with deep spoilage or "bone taint" were analyzed and correlated with level of spoilage and the microorganisms detected. Volatile compounds extracted by a solid phase micro-extraction technique were assayed by gas chromatography/mass spectrometry. The spoiled hams were evaluated sensorially, and the correlations among volatile compounds, spoilage level, and microbial counts were studied. The spoiled hams had higher concentrations of hydrocarbons, alcohols, acids, esters, pyrazines, sulfur compounds, and other minor volatile compounds than unspoiled hams. The sensorial analysis showed that the spoilage level of hams correlated with several volatile compounds, most of them associated with Gram-positive catalase positive cocci and,Enterobacteriaceae,counts. Cyclic compounds such as cyclohexanone, some ethers, and pyrazines should be considered as indicators to monitor incipient microbial deep spoilage in the elaboration of this meat product. [source]

    Changes of Volatile Compounds, Lactic Acid Bacteria, pH, and Headspace Gases in Kimchi, a Traditional Korean Fermented Vegetable Product

    JOURNAL OF FOOD SCIENCE, Issue 3 2003
    J.H. Kang
    ABSTRACT Headspace volatiles of Kimchi stored at 5 °C increased over a 7 d period by 20.0% and then decreased from 7 to 27 d by 8.3%. Forty volatile compounds including 18 sulfur compounds were identified in Kimchi. Lactic acid bacteria in Kimchi increased from 3.1 to 4.5 (1 × 108cfu/mL) over a 17-d period and decreased by 40% from 17 to 27 d. As the storage time increased from 2 to 27 d, pH decreased from 4.3 to 3.8, headspace oxygen decreased from 14.3 to 1.3%, and headspace carbon dioxide increased from 27.7 to 45.3%. Enzymatic reactions and chemical oxidations in Kimchi explained the changes of volatile compounds, lactic acid bacteria, pH, headspace oxygen and carbon dioxide. [source]