記事
微生物による硫化カルボニルの生成と分解
Digital data available(科学技術振興機構)
Begin reading now
J-STAGE
微生物による硫化カルボニルの生成と分解
- Material type
- 記事
- Author
- 飯塚 瑠翔ほか
- Publisher
- Japan Society for Bioscience, Biotechnology, and Agrochemistry
- Publication date
- 2024-11-01
- Material Format
- Digital
- Journal name
- 化学と生物 62 11
- Publication Page
- p.550-558
Detailed bibliographic record
Summary, etc.:
- <p>大気の微量成分である硫化カルボニル(COS)の対流圏の濃度は500 pptv前後である.この濃度は大気の硫黄化合物の中で最大であり,COSの酸化物も含め硫黄循環及び大気環境に影響を及ぼす.硫黄酸化細菌や真菌で発見されたCOS加水分解酵素(COSase)はCOSをH<sub>2</sub>SとC...
Holdings of Libraries in Japan
This page shows libraries in Japan other than the National Diet Library that hold the material.
Please contact your local library for information on how to use materials or whether it is possible to request materials from the holding libraries.
other
J-STAGE
DigitalCiNii Research
Search ServiceDigitalYou can check the holdings of institutions and databases with which CiNii Research is linked at the site of CiNii Research.
Bibliographic Record
You can check the details of this material, its authority (keywords that refer to materials on the same subject, author's name, etc.), etc.
Digital
- Material Type
- 記事
- Title
- Publication Date
- 2024-11-01
- Publication Date (W3CDTF)
- 2024-11-01
- Alternative Title
- 大気の硫黄化合物の中で最も豊富に存在する含硫ガスThe Most Abundant Gaseous Sulfur Compound in the Atmosphere
- Periodical title
- 化学と生物
- No. or year of volume/issue
- 62 11
- Volume
- 62
- Issue
- 11
- Pages
- 550-558
- Publication date of volume/issue (W3CDTF)
- 2024-11-01
- ISSN (Periodical Title)
- 0453073X
- ISSN-L (Periodical Title)
- 0453073X
- Publication (Periodical Title)
- Japan Society for Bioscience, Biotechnology, and Agrochemistry
- Text Language Code
- ja
- Subject Heading
- Target Audience
- 一般
- DOI
- 10.1271/kagakutoseibutsu.62.550
- Related Material (URI)
- References
- Characterization of a novel type of carbonic anhydrase that acts without metal cofactorsCloning and expression of a gene encoding a novel thermostable thiocyanate-degrading enzyme from a mesophilic alphaproteobacteria strain THI201Consumption of carbonyl sulphide (COS) by higher plant carbonic anhydrase (CA)Characteristics of turnover of carbonyl sulfide in four different soilsThe rise of oxygen in Earth’s early ocean and atmosphereStructure and function of carbonic anhydrasesCarbonic anhydrase metabolism is a key factor in the toxicity of CO2 and COS but not CS2 toward the flour beetle Tribolium castaneum [Coleoptera: Tenebrionidae]On the global distribution, seasonality, and budget of atmospheric carbonyl sulfide (COS) and some similarities to CO<sub>2</sub>A new widespread subclass of carbonic anhydrase in marine phytoplanktonThe many types of carbonic anhydrases in photosynthetic organismsPhysiology and taxonomy of Thiobacillus strain TJ330, which oxidizes carbon disulphide (CS2)Vertical Distribution of Carbonyl Sulfide at Mt. Fuji, JapanVolatilization of carbonyl sulfide from paddy soils treated with sulfur-containing substancesOxidation of Elemental Sulfur by Fusarium solani Strain THIF01 Harboring Endobacterium Bradyrhizobium sp.Rhodanese (Thiosulfate:Cyanide Sulfurtransferase) Distribution in the Digestive Tract of ChickenCarbonyl Sulfide Hydrolase from <i>Thiobacillus thioparus</i> Strain THI115 Is One of the β-Carbonic Anhydrase Family EnzymesDetection of carbonyl sulfide among gases produced by the decomposition of cystine in paddy soilsMycobacteria Isolated from Angkor Monument Sandstones Grow Chemolithoautotrophically by Oxidizing Elemental SulfurReviews and syntheses: Carbonyl sulfide as a multi-scale tracer for carbon and water cyclesEffect of growth conditions on thiocyanate degradation and emission of carbonyl sulfide by Thiobacillus thioparus THI115Photosynthetic Control of Atmospheric Carbonyl Sulfide During the Growing SeasonPlant gross primary production, plant respiration and carbonyl sulfide emissions over the globe inferred by atmospheric inverse modellingThe flux of sulfur-containing gases to vegetationThiocyanate utilization by an <i>Arthrobacter</i>The Utilization of Thiocyanate by a Heterotrophic BacteriumDegradation and emission of carbonyl sulfide, an atmospheric trace gas, by fungi isolated from forest soilA new mechanistic framework to predict OCS fluxes from soilsEnzymatic consumption of carbonyl sulfide (COS) by marine algaeAutotrophic growth on carbon disulfide is a property of novel strains of Paracoccus denitrificansSulfur assimilation using gaseous carbonyl sulfide by the soil fungus <i>Trichoderma harzianum</i>Genome-scale phylogenetic analyses confirm Olpidium as the closest living zoosporic fungus to the non-flagellated, terrestrial fungi4-Amino-4-cyanobutyric Acid as an Intermediate in Glutamate BiosynthesisThe Missing Link in COS Metabolism: A Model Study on the Reactivation of Carbonic Anhydrase from its Hydrosulfide AnalogueA novel pink-pigmented facultative methylotroph, Methylobacterium thiocyanatum sp. nov., capable of growth on thiocyanate or cyanate as sole nitrogen sourcesEvolution of a new enzyme for carbon disulphide conversion by an acidothermophilic archaeonStructure of Thiocyanate Hydrolase: A New Nitrile Hydratase Family Protein with a Novel Five-coordinate Cobalt(III) CenterCloning of Genes Coding for the Three Subunits of Thiocyanate Hydrolase of <i>Thiobacillus thioparus</i> THI 115 and Their Evolutionary Relationships to Nitrile HydrataseThiocyanate hydrolase, the primary enzyme initiating thiocyanate degradation in the novel obligately chemolithoautotrophic halophilic sulfur-oxidizing bacterium Thiohalophilus thiocyanoxidansA thiocyanate hydrolase of Thiobacillus thioparus. A novel enzyme catalyzing the formation of carbonyl sulfide from thiocyanate.Role of Microorganisms in the Atmospheric Sulfur CycleA kinetic analysis of leaf uptake of COS and its relation to transpiration, photosynthesis and carbon isotope fractionationCarbonyl sulfide and carbon dioxide as new substrates, and carbon disulfide as a new inhibitor, of nitrogenaseSoil exchange rates of COS and CO18O differ with the diversity of microbial communities and their carbonic anhydrase enzymesOxidation of Carbon Disulphide as the Sole Source of Energy for the Autotrophic Growth of Thiobacillus thioparus Strain TK-mIdentification of Sulfur Gases Evolved from Animal ManuresCos degradation by selected co-utilizing bacteriaGenetic and Immunochemical Characterization of Thiocyanate-Degrading Bacteria in Lake WaterCarbonyl sulfide: an alternate substrate for but not an activator of ribulose-1,5-bisphosphate carboxylaseA 350‐year atmospheric history for carbonyl sulfide inferred from Antarctic firn air and air trapped in iceContemporaneous radiations of fungi and plants linked to symbiosisRelationships between carbonyl sulfide (COS) and CO<sub>2</sub> during leaf gas exchangeCyanogenic Glycosides: Synthesis, Physiology, and Phenotypic PlasticityThe role of carbonyl sulphide as a source of stratospheric sulphate aerosol and its impact on climateGlobal sources and sinks of OCS and CS<sub>2</sub>and their distributionsExchange of reduced sulfur gases between lichens and the atmosphereHepatic carbonyl sulfide metabolismConsumption of Carbonyl Sulphide by <i>Chlamydomonas reinhardtii</i> with Different Activities of Carbonic Anhydrase (CA) Induced by Different CO<sub>2</sub> Growing RegimesA reanalysis of carbonyl sulfide as a source of stratospheric background sulfur aerosolA new model of the global biogeochemical cycle of carbonyl sulfide – Part 2: Use of carbonyl sulfide to constrain gross primary productivity in current vegetation modelsDegradation of ambient carbonyl sulfide by Mycobacterium spp. in soilControlling variables for the uptake of atmospheric carbonyl sulfide by soilEnzymatic Pathways for the Consumption of Carbonyl Sulphide (COS) by Higher Plants*Functional expression of thiocyanate hydrolase is promoted by its activator protein, P15KSoil atmosphere exchange of carbonyl sulfide (COS) regulated by diffusivity depending on water-filled pore spaceThiocyanate Hydrolase Is a Cobalt-Containing Metalloenzyme with a Cysteine-Sulfinic Acid LigandReactivity of Carbon Monoxide Dehydrogenase from Rhodospirillum rubrum with Carbon Dioxide, Carbonyl Sulfide, and Carbon DisulfideThe Genome Portal of the Department of Energy Joint Genome InstituteA three‐dimensional study of the tropospheric sulfur cycleUse of Carbon Oxysulfide, a Structural Analog of CO<sub>2</sub>, to Study Active CO<sub>2</sub> Transport in the Cyanobacterium <i>Synechococcus</i> UTEX 625Microbial Degradation of Carbonyl Sulfide in Soils.Glucosinolate metabolism, functionality and breeding for the improvement of Brassicaceae vegetablesFungal Carbonyl Sulfide Hydrolase of Trichoderma harzianum Strain THIF08 and Its Relationship with Clade D β-Carbonic Anhydrases
- Data Provider (Database)
- 国立情報学研究所 : CiNii Research
- Original Data Provider (Database)
- Japan Link CenterCrossref科学研究費助成事業データベース