A novel lineage of sulfate-reducing microorganisms: Thermodesulfobiaceae fam. nov., Thermodesulfobium narugense, gen. nov., sp. nov., a new thermophilic isolate from a hot spring.
about
Exploited application of sulfate-reducing bacteria for concomitant treatment of metallic and non-metallic wastes: a mini reviewDesulfosporosinus acididurans sp. nov.: an acidophilic sulfate-reducing bacterium isolated from acidic sediments.Molecular analysis of the diversity of sulfate-reducing and sulfur-oxidizing prokaryotes in the environment, using aprA as functional marker geneSorting out the mix in microbial genomics.Lateral gene transfer of dissimilatory (bi)sulfite reductase revisited.Microbial diversity in anaerobic sediments at Rio Tinto, a naturally acidic environment with a high heavy metal content.Comparative geochemical and microbiological characterization of two thermal pools in the Uzon Caldera, Kamchatka, Russia.Analysis of alkane-dependent methanogenic community derived from production water of a high-temperature petroleum reservoir.Phylogeny of bacterial and archaeal genomes using conserved genes: supertrees and supermatrices.Diversity of thermophiles in a Malaysian hot spring determined using 16S rRNA and shotgun metagenome sequencingCarbon source preference in chemosynthetic hot spring communities.A single exposure of sediment sulphate-reducing bacteria to oxytetracycline concentrations relevant to aquaculture enduringly disturbed their activity, abundance and community structure.Comparative genomic analysis of phylogenetically closely related Hydrogenobaculum sp. isolates from Yellowstone National ParkFirst cultivation and ecological investigation of a bacterium affiliated with the candidate phylum OP5 from hot springs.Microbiome Dynamics of a Polychlorobiphenyl (PCB) Historically Contaminated Marine Sediment under Conditions Promoting Reductive Dechlorination.Strain-level genomic variation in natural populations of Lebetimonas from an erupting deep-sea volcano.Genomic insights into a new acidophilic, copper-resistant Desulfosporosinus isolate from the oxidized tailings area of an abandoned gold mine.Genomics Analysis of Replicative Helicase DnaB Sequences in ProteobacteriaMolecular characterization of sulfate-reducing bacteria in a New England salt marsh.Ferredoxin:thioredoxin reductase (FTR) links the regulation of oxygenic photosynthesis to deeply rooted bacteria.Enrichment and isolation of acidophilic sulfate-reducing bacteria from Tinto River sediments.Phylogenomic evaluation of members above the species level within the phylum Firmicutes based on conserved proteins.Recent Developments for Remediating Acidic Mine Waters Using Sulfidogenic Bacteria.Microbiological studies of hot springs in India: a review.Selection for novel, acid-tolerant Desulfovibrio spp. from a closed Transbaikal mine site in a temporal pH-gradient bioreactor.Abundance of microbial genes associated with nitrogen cycling as indices of biogeochemical process rates across a vegetation gradient in Alaska.The effect of electron competition on chromate reduction using methane as electron donor.[Nitrogen Fixation in Thermophilic Chemosynthetic Microbial Communities Depending on Hydrogen, Sulfate, and Carbon Dioxide].Sulfate Transporters in Dissimilatory Sulfate Reducing Microorganisms: A Comparative Genomics Analysis.ThermodesulfobiumDesulfotomaculum varum sp. nov., a moderately thermophilic sulfate-reducing bacterium isolated from a microbial mat colonizing a Great Artesian Basin bore well runoff channel
P2860
Q28601371-53ED411F-32E9-47EE-B609-AA08D98F7FE1Q30867531-2136CF57-863E-4022-BEC9-AB33284A6E08Q33301872-84F073BF-8F48-4050-9B51-83E165EA7904Q33386201-8EC65CCC-29DA-4484-B975-467A64EB4680Q33714564-7AB53D74-FC9E-4F71-806D-DBC6132378D6Q33949377-5CD7E739-D76C-46BB-ABF3-82601F9A49A2Q34085314-05BD7FF6-B670-45CF-950A-DC32A0DEC2B1Q34129025-24A44435-67FC-4CAE-8902-6ECB9BD558EAQ34701661-776AEB40-F304-4DD1-B562-89F00B504E39Q35149836-3C34C0A6-036C-466E-A0D1-6459F8AF7D0BQ35573464-5E42ADB0-F7AC-4CFF-A85A-39AFE93A51E2Q35631467-5D904F41-D3AE-4D91-9CB3-E43A09AFDC87Q36757203-888F61DB-8150-44E1-A2C5-E4EFA053016AQ36943416-E3CFA4C0-31AE-487F-95FC-1DCFEF0B2B09Q37270656-50B04F65-A085-4B09-A3BA-1B70C8DB5D78Q37650443-414AA90A-42A2-443F-B8FF-A03E0FDE6E24Q39193854-57F82A3F-CA04-4236-8761-3438305D157BQ41852443-95210BE2-6FC5-490E-A0BB-A81FC05FCF42Q43017831-15FE83F2-11FA-418E-824C-B74110AC3CEFQ45892014-C5AB4D49-4519-4B08-BCAB-A2C14E091540Q45941995-1B4BEDC5-F4C4-4BC6-AB70-C87F459C85C0Q46073950-DF3D96A9-E4E0-428F-9C97-6D25DD7E0DBCQ46273936-769ED3ED-D9CB-4B8B-93DC-C7CFEBC73532Q46309849-8460C644-C171-4C10-8EB9-CDF703881C06Q46330189-47F894AC-274A-4091-B1A7-531358633379Q46744998-78086925-74E7-4745-BDF5-54B88F4CD307Q47236094-D7D442F1-CEF7-4931-ADFF-7F7EFCBFC33DQ49788081-684BD128-4A5B-4160-AE0E-EA462411CFCDQ51738733-AC879FFD-10AC-4C61-BC80-9F1037929223Q56566617-42E224A8-A671-4B03-9D1D-46ED88F06FF0Q59268339-5F7E4998-89AF-45CB-910D-FE2353A1AAD0
P2860
A novel lineage of sulfate-reducing microorganisms: Thermodesulfobiaceae fam. nov., Thermodesulfobium narugense, gen. nov., sp. nov., a new thermophilic isolate from a hot spring.
description
2003 nî lūn-bûn
@nan
2003 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի մարտին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@ast
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@en
type
label
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@ast
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@en
prefLabel
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@ast
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@en
P2093
P921
P1433
P1476
A novel lineage of sulfate-red ...... lic isolate from a hot spring.
@en
P2093
Hongik Kim
Satoshi Hanada
Takeshi Kakegawa
P2888
P304
P356
10.1007/S00792-003-0320-0
P50
P577
2003-03-28T00:00:00Z