about
Genome of Rice Cluster I Archaea--the Key Methane Producers in the Rice RhizosphereDiversity and structure of the methanogenic community in anoxic rice paddy soil microcosms as examined by cultivation and direct 16S rRNA gene sequence retrieval.Complete genome sequence of the aerobic facultative methanotroph Methylocella silvestris BL2Differential assemblage of functional units in paddy soil microbiomesGammaproteobacterial methanotrophs dominate cold methane seeps in floodplains of West Siberian riversGeovibrio thiophilus sp. nov., a novel sulfur-reducing bacterium belonging to the phylum DeferribacteresRetrieval of first genome data for rice cluster I methanogens by a combination of cultivation and molecular techniques.Methane oxidation by an extremely acidophilic bacterium of the phylum Verrucomicrobia.Phylogenetic analysis and in situ identification of bacteria community composition in an acidic Sphagnum peat bogTranscriptional activity of paddy soil bacterial communities.Methanocella arvoryzae sp. nov., a hydrogenotrophic methanogen isolated from rice field soil.Phylogenetic diversity and metagenomics of candidate division OP3.Unexpected Dominance of Elusive Acidobacteria in Early Industrial Soft Coal SlagsNovel bacterial lineages at the (sub)division level as detected by signature nucleotide-targeted recovery of 16S rRNA genes from bulk soil and rice roots of flooded rice microcosms.Detection and enumeration of methanotrophs in acidic Sphagnum peat by 16S rRNA fluorescence in situ hybridization, including the use of newly developed oligonucleotide probes for Methylocella palustris.Complete genome sequence of Beijerinckia indica subsp. indica.Genome analysis coupled with physiological studies reveals a diverse nitrogen metabolism in Methylocystis sp. strain SC2.DAFGA: diversity analysis of functional gene amplicons.Wide distribution of a novel pmoA-like gene copy among type II methanotrophs, and its expression in Methylocystis strain SC2Evidence for unlinked rrn operons in the Planctomycete Pirellula marina.Rice Cluster I methanogens, an important group of Archaea producing greenhouse gas in soil.Bacterial diversity in a soil sample from a subtropical Australian environment as determined by 16S rDNA analysis.Pyrosequencing-based assessment of the bacteria diversity in surface and subsurface peat layers of a northern wetland, with focus on poorly studied phyla and candidate divisions.Identification of microbial populations driving biopolymer degradation in acidic peatlands by metatranscriptomic analysis.High-affinity methane oxidation by a soil enrichment culture containing a type II methanotroph.Characterization and identification of numerically abundant culturable bacteria from the anoxic bulk soil of rice paddy microcosms.Detection of methanotroph diversity on roots of submerged rice plants by molecular retrieval of pmoA, mmoX, mxaF, and 16S rRNA and ribosomal DNA, including pmoA-based terminal restriction fragment length polymorphism profilingComplete genome sequence of Methylocystis sp. strain SC2, an aerobic methanotroph with high-affinity methane oxidation potential.Linking activity, composition and seasonal dynamics of atmospheric methane oxidizers in a meadow soil.Complete sequence analysis of two methanotroph-specific repABC-containing plasmids from Methylocystis sp. strain SC2.Comparative Genomics of Four Isosphaeraceae Planctomycetes: A Common Pool of Plasmids and Glycoside Hydrolase Genes Shared by Paludisphaera borealis PX4T, Isosphaera pallida IS1BT, Singulisphaera acidiphila DSM 18658T, and Strain SH-PL62.Short-Term Exposure of Paddy Soil Microbial Communities to Salt Stress Triggers Different Transcriptional Responses of Key Taxonomic Groups.Extraction of mRNA from soilAmmonium induces differential expression of methane and nitrogen metabolism-related genes in Methylocystis sp. strain SC2.A novel pmoA lineage represented by the acidophilic methanotrophic bacterium Methylocapsa acidiphila [correction of acidophila] B2.Effects of temperature and fertilizer on activity and community structure of soil ammonia oxidizers.Bacterial populations and environmental factors controlling cellulose degradation in an acidic Sphagnum peat.Substrate-induced growth and isolation of Acidobacteria from acidic Sphagnum peat.NifH and NifD phylogenies: an evolutionary basis for understanding nitrogen fixation capabilities of methanotrophic bacteria.Phylogenetic identity, growth-response time and rRNA operon copy number of soil bacteria indicate different stages of community succession.
P50
Q22065884-025DF2A3-15B7-4D35-AD52-ADD2836E16FEQ24519312-FE32474C-36CE-4026-B956-072C7EFE4E2DQ24620043-97C43BA6-09CC-4ADB-B619-179DFFD071A8Q28546619-350CF348-CB50-4A34-AF09-2F44947BCE1BQ28655296-43D85FE7-8E9B-45CD-B473-30E3746CB8C2Q30708927-3B62CEF9-B2FE-43EF-9CD4-18CA9A3CD812Q30804174-63D929CC-438B-4FC7-A06A-89D8EFB16453Q31136501-47BF3BDB-9BB0-4108-BCAD-E0A47E19F1C6Q33235517-72F29207-634D-496B-9AD1-DFC66A36CCA3Q33403023-1B1064A1-B8F3-4EF5-879D-D93F9343A37FQ33526187-D01913EA-694D-4F68-A456-0101120CF837Q33531501-42CE1603-3543-49DF-A607-FC9E79B7570EQ33774730-8C37CA52-003E-416F-9BED-D9A9EC8B1344Q33988811-9C2A6FD4-CB52-434C-8C04-37CDC224DC2DQ33990534-3CE00EA2-2A5D-4592-841A-6EC45011B8A2Q34119210-A69B04F0-7073-4FA5-B313-0C55BEF4A2CDQ35018160-54373FE7-CCC6-4FF5-ADA6-50EB3277BF5EQ35189999-AB199D06-0A25-4B33-A932-31279D2876A6Q35942695-A9781E42-BC7E-4A17-9596-6E629F03F31FQ36147165-0922228D-8EEE-4F19-A344-EA3B5D889CC1Q36452223-6F9423F3-CCCC-4952-8A15-57689FF0CA6EQ36775200-8D08EE77-74F2-4E48-9CBD-021B846E781FQ36863638-10F17C0A-4595-41CF-AABF-4E9BB6F8C45FQ39469735-81491246-2128-4849-8A9D-070A05B3F5EAQ39480754-BFCB40CB-CD8E-439A-A3AE-E0BD656C1A87Q39483844-DE50E333-6238-45EE-AA1B-9E5E6B979AC7Q39492506-B9E91F9C-9676-4CEB-A9CB-137BCA4B96E9Q41583537-071F906E-DCE5-4DF8-B6D5-FD9D2705D924Q42176196-53037D37-F367-407A-BEDB-63058E9B19D8Q42188918-E4ABA355-38ED-4042-A2C2-0FE4432A784CQ42316131-9441E305-0CC6-4634-A548-980F1DE6BF40Q42372173-0513EB42-CA33-4C6D-8F5F-169EA5173682Q42430198-A3CB3999-B787-4BF0-B876-CC9289B1F2BEQ42774446-B08338B0-3008-495C-B80A-189F4D9CE8C4Q43858297-590E95A3-C2EE-48DB-825B-23FE2BFFADA2Q44518710-67BEF9AE-107D-422C-ACB8-39B526AA13DAQ46021651-CB11D296-A778-44E2-B714-CCE51A75C316Q46726579-261FD54A-2A34-4FB0-BDA6-67CB819F7C5EQ47340607-7FAFA6BD-01B6-486C-8130-1824A92ECAA4Q48077767-0D30C3A4-81D4-4D8D-A721-E4818515D607
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Werner Liesack
@ast
Werner Liesack
@en
Werner Liesack
@es
Werner Liesack
@nl
Werner Liesack
@sl
type
label
Werner Liesack
@ast
Werner Liesack
@en
Werner Liesack
@es
Werner Liesack
@nl
Werner Liesack
@sl
prefLabel
Werner Liesack
@ast
Werner Liesack
@en
Werner Liesack
@es
Werner Liesack
@nl
Werner Liesack
@sl
P106
P21
P31
P496
0000-0002-9533-1552