about
Microbial life in Champagne Pool, a geothermal spring in Waiotapu, New ZealandNitrate removal, communities of denitrifiers and adverse effects in different carbon substrates for use in denitrification bedsMolecular detection and isolation of facultatively methylotrophic bacteria, including Methylobacterium podarium sp. nov., from the human foot microflora.Aminobacter ciceronei sp. nov. and Aminobacter lissarensis sp. nov., isolated from various terrestrial environments.Methylobacter tundripaludum sp. nov., a methane-oxidizing bacterium from Arctic wetland soil on the Svalbard islands, Norway (78 degrees N).Methylocystis rosea sp. nov., a novel methanotrophic bacterium from Arctic wetland soil, Svalbard, Norway (78 degrees N).Ignisphaera aggregans gen. nov., sp. nov., a novel hyperthermophilic crenarchaeote isolated from hot springs in Rotorua and Tokaanu, New Zealand.A novel pink-pigmented facultative methylotroph, Methylobacterium thiocyanatum sp. nov., capable of growth on thiocyanate or cyanate as sole nitrogen sources.Bacterial diversity in the bacterioneuston (sea surface microlayer): the bacterioneuston through the looking glass.Methanotrophic populations in estuarine sediment from Newport Bay, California.Identification of a complete methane monooxygenase operon from soil by combining stable isotope probing and metagenomic analysis.Stable-isotope probing implicates Methylophaga spp and novel Gammaproteobacteria in marine methanol and methylamine metabolism.Microbial community composition in soils of Northern Victoria Land, Antarctica.Microbial biodiversity of thermophilic communities in hot mineral soils of Tramway Ridge, Mount Erebus, Antarctica.On the rocks: the microbiology of Antarctic Dry Valley soils.Regulation of expression of methane monooxygenases by copper ions.Molecular analysis of the pmo (particulate methane monooxygenase) operons from two type II methanotrophs.Identification of methyl halide-utilizing genes in the methyl bromide-utilizing bacterial strain IMB-1 suggests a high degree of conservation of methyl halide-specific genes in gram-negative bacteria.Analysis of methane monooxygenase genes in mono lake suggests that increased methane oxidation activity may correlate with a change in methanotroph community structure.Rapid microbial response to the presence of an ancient relic in the Antarctic Dry Valleys.Chloromethane-dependent expression of the cmu gene cluster of Hyphomicrobium chloromethanicum.Groundtruthing next-gen sequencing for microbial ecology-biases and errors in community structure estimates from PCR amplicon pyrosequencingA review of bacterial methyl halide degradation: biochemistry, genetics and molecular ecology.The Inter-Valley Soil Comparative Survey: the ecology of Dry Valley edaphic microbial communities.Phylogenetic delineation of the novel phylum Armatimonadetes (former candidate division OP10) and definition of two novel candidate divisions.Molecular analysis of an outer membrane protein, MopB, of Methylococcus capsulatus (Bath) and structural comparisons with proteins of the OmpA family.Stable isotope probing: technical considerations when resolving (15)N-labeled RNA in gradients.Isolation and properties of methanesulfonate-degrading Afipia felis from Antarctica and comparison with other strains of A. felis.Identifying diazotrophs by incorporation of nitrogen from (15)N(2) into RNA.Analysis of genes involved in methyl halide degradation in Aminobacter lissarensis CC495.Molecular detection and isolation from antarctica of methylotrophic bacteria able to grow with methylated sulfur compounds.Analysis of methanotrophic bacteria in Movile Cave by stable isotope probing.Diversity of methyl halide-degrading microorganisms in oceanic and coastal waters.Diversity of soluble methane monooxygenase-containing methanotrophs isolated from polluted environments.Electing a candidate: a speculative history of the bacterial phylum OP10.Molecular Ecological Analysis of Methanogens and Methanotrophs in Blanket Bog Peat.Evaluation of lactic acid bacterium from chilli waste as a potential antifungal agent for wood products.Evidence for the presence of a CmuA methyltransferase pathway in novel marine methyl halide-oxidizing bacteriaUse of DNA-stable isotope probing and functional gene probes to investigate the diversity of methyl chloride-utilizing bacteria in soilDegradation of methyl bromide and methyl chloride in soil microcosms: Use of stable C isotope fractionation and stable isotope probing to identify reactions and the responsible microorganisms
P50
Q28297555-7E24ADAD-3553-42E6-A0B2-47FA79CA9A53Q28732269-3973C12E-7021-45A6-88C1-1CFC8AC9DD87Q30943518-711D0084-066F-429E-96F9-C57FB4D57A7BQ31004795-722FAD06-967D-45D3-A1A1-08AADF28A66DQ31029289-8C263956-B9AC-42D4-B963-9E457CC128D7Q31033463-7D99967F-CA30-49A5-9B95-2C2EA4101ECAQ31037218-FE7B219E-3510-4758-9DC2-6F2DD13FC406Q32135581-F6E4934E-93A4-4DE0-950C-44EC15F4ADCEQ33213879-D1C6E2BD-17FA-4C81-A7F0-7471BE067685Q33221252-29A0B43C-4815-423E-8C43-8B8FA006B0F2Q33248712-38E1520A-5ED5-434E-87B1-F716DC06ACCFQ33307509-4739B09D-CEC8-46E2-9181-F0C403C569AEQ33326138-7194304D-5B1A-43F5-8686-49296AB4F7B3Q33417052-6C1BA7FF-387C-4BD9-A45F-56F14CD42665Q33523988-96EB2AC8-7006-4F1F-A0B2-3D81A1117CBDQ33901001-82154786-FB86-48AB-9F05-0F8F63311737Q33986734-1F291BAA-3E27-450A-B5DF-E55D3941D49AQ33989415-97D49651-60A1-4ABF-871F-6E6F87CF5DDAQ34097911-06D32342-0BE3-4F9A-BE64-52E058E6047BQ34153173-B2CDD469-2DF8-4FF6-8541-47C84B6AD38BQ34331808-B2D69FB6-6D31-4CCA-8512-68112374BCADQ34412286-7E30AD12-32CC-46FD-913B-769A21522241Q34636665-C72ADBF4-A58D-47A1-ABE3-25F21AAB4D1FQ35896304-EA2F9C6F-481C-41E6-A774-1407BA22FC53Q39763746-DFDABD9D-A7F2-42BF-9743-5D756E2D048AQ42629857-8A22ADD4-61C9-4F5F-B363-CC471621A85AQ43244851-EEBE0349-9DDE-40EB-A865-6ED8AFE4D4CDQ45219572-33C4BC22-8CB8-4651-B9E1-CB1E1D8968DBQ45479019-266DDEB8-06FE-4180-8B68-98ACE644FF00Q46652450-678A72C4-34B9-44B1-816B-2C34F07C5ADCQ46653357-25037255-C7A9-448F-8FCE-ED0A9E882056Q47309873-05FA2731-8AAF-4152-A096-0153D46C24C5Q48048607-78129F14-27BD-4325-8B02-11DBCEEAC75AQ48102094-2B9D1496-7DC8-4E3D-91A6-84AB2D0913E6Q48455966-789F3BC8-B640-42B0-95EF-D0E4D9BC342DQ51204627-11D966B0-ABD9-4E3A-84D9-6954CA03A013Q53388243-76F37448-A3F8-4D72-9815-965596891ED1Q59283325-98EE590D-1838-4945-A002-31ABB6648881Q59283364-8414EE77-48A9-4B98-8AF0-5AAD3D49E9F6Q59283381-EFE18FE7-B940-4035-B104-63F632A04518
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ian R McDonald
@nl
Ian R McDonald
@sl
Ian R. McDonald
@en
Ian R. McDonald
@es
type
label
Ian R McDonald
@nl
Ian R McDonald
@sl
Ian R. McDonald
@en
Ian R. McDonald
@es
prefLabel
Ian R McDonald
@nl
Ian R McDonald
@sl
Ian R. McDonald
@en
Ian R. McDonald
@es
P106
P1153
7102641416
P31
P496
0000-0002-4847-6492