Linking microbial phylogeny to metabolic activity at the single-cell level by using enhanced element labeling-catalyzed reporter deposition fluorescence in situ hybridization (EL-FISH) and NanoSIMS
about
Patterns and processes of microbial community assemblyStable isotope probing in the metagenomics era: a bridge towards improved bioremediationFunctional gene surveys from ocean drilling expeditions - a review and perspectiveScanning a microhabitat: plant-microbe interactions revealed by confocal laser microscopy.CARD-FISH for environmental microorganisms: technical advancement and future applicationsThe bacterial chemical repertoire mediates metabolic exchange within gut microbiomesPhototrophic biofilm assembly in microbial-mat-derived unicyanobacterial consortia: model systems for the study of autotroph-heterotroph interactionsIn situ imaging of metals in cells and tissuesMass Spectrometry Imaging of Complex Microbial CommunitiesChemical analysis of single cells.Patterns and scales in gastrointestinal microbial ecology.Isotope array analysis of Rhodocyclales uncovers functional redundancy and versatility in an activated sludge.Denitrification in human dental plaqueSingle-Cell Resolution of Uncultured Magnetotactic Bacteria via Fluorescence-Coupled Electron MicroscopyTrends in analytical atomic and molecular mass spectrometry in biology and the life sciences.In situ visualization of newly synthesized proteins in environmental microbes using amino acid tagging and click chemistry.Genomic content of uncultured Bacteroidetes from contrasting oceanic provinces in the North Atlantic Ocean.Look@NanoSIMS--a tool for the analysis of nanoSIMS data in environmental microbiology.Identification of a novel cyanobacterial group as active diazotrophs in a coastal microbial mat using NanoSIMS analysis.Emerging mass spectrometry techniques for the direct analysis of microbial colonies.Stable isotope imaging of biological samples with high resolution secondary ion mass spectrometry and complementary techniques.Anaerobic degradation of propane and butane by sulfate-reducing bacteria enriched from marine hydrocarbon cold seepsQuantifying the metabolic activities of human-associated microbial communities across multiple ecological scales.What is microbial community ecology?SIMSISH technique does not alter the apparent isotopic composition of bacterial cellsClose Interspecies Interactions between Prokaryotes from Sulfureous Environments.Cultivation-independent detection of autotrophic hydrogen-oxidizing bacteria by DNA stable-isotope probing.Impact of single-cell genomics and metagenomics on the emerging view of extremophile "microbial dark matter".Spatially tracking (13) C-labelled substrate (bicarbonate) accumulation in microbial communities using laser ablation isotope ratio mass spectrometry.Novel tools integrating metabolic and gene function to study the impact of the environment on coral symbiosis.Phenotypic heterogeneity in metabolic traits among single cells of a rare bacterial species in its natural environment quantified with a combination of flow cell sorting and NanoSIMS.Correlative microscopy for phylogenetic and ultrastructural characterization of microbial communities.Linking metabolite production to taxonomic identity in environmental samples by (MA)LDI-FISH.Quantitative microbial ecology through stable isotope probing.High-throughput isotopic analysis of RNA microarrays to quantify microbial resource use.Heavy water and (15) N labelling with NanoSIMS analysis reveals growth rate-dependent metabolic heterogeneity in chemostatsEcogenomics of microbial communities in bioremediation of chlorinated contaminated sites.A Generalized Spatial Measure for Resilience of Microbial Systems.Imaging mass spectrometry in microbiology.Dynamic secondary ion mass spectrometry imaging of microbial populations utilizing C-labelled substrates in pure culture and in soil.
P2860
Q24604557-0A56F0C6-FD82-4788-9C30-F01443DC9F14Q26827562-F3CCDD17-C868-4B39-9D3B-DC1920139B14Q26829055-E0D8BC3F-804A-453C-A1CC-0A6EB1ED4187Q26865041-E1C2BB18-20BB-42B1-B396-578E18D87311Q26866259-8C73B464-F973-4309-8CB3-43A0E60AD8B6Q27000963-5DF44038-4981-4D8C-9456-13FF02C34D2EQ28660156-8C57D84A-F1B6-4978-A035-6244D157033BQ28662002-B5655C87-0074-4E45-B7AF-6FCF8B96C39CQ28818798-41403A2B-3F8D-4F9F-8762-21837E84D550Q30466574-37B1B4CC-A863-4163-858F-4FA279FFE078Q33449095-C4E23139-1436-405D-9902-80196B915A71Q33477305-F499C8A5-30A2-47C0-9ABA-FA18912B72BBQ33543981-69B2A100-C556-4307-9179-05749F589B3EQ33750691-A72D706E-A834-4BB6-81FF-217EEED3B146Q33781313-FC45279F-56C0-4339-B235-5D23C8DF6426Q34006258-01D4B402-39E2-4CBD-B78E-7AEB8160C1B9Q34012216-A85E9A79-9A3E-4E41-9C47-F20386D92C91Q34119610-B7128990-7ED1-438D-AC88-EDF9B2BC1AB9Q34124656-8F8EE2F9-4697-4B9F-80A8-14476957EA8AQ34165254-D2D91AD5-8E43-49A3-B2CC-96693F1A5731Q34463873-33F55774-5AAD-465B-A066-543CE5207579Q34518547-06A00226-AD33-46AB-AB35-6BB70883FEDEQ34646255-A3AF9E39-16A9-4B7A-9A86-FC8DA0B6E101Q34995866-18FFD960-7338-4C8A-B16E-D93977ACEC71Q35035348-C8DD0F0A-F650-449F-AC01-4F11AC078961Q35094588-733EDDF1-1E26-4409-B8D9-7C59A5C95BCBQ35138861-EA43DCB4-B438-457D-AE00-2F99CF6FEA59Q35223195-616DEA4D-FAE0-4D91-9CF1-3DA22C219ABEQ35231375-30542A3F-0317-4655-A0F1-C4646E3AB229Q35239356-FF70B681-2B06-44A1-B6DF-5A763E0C7BF3Q35442607-7BD74C66-DBF9-4BA6-874A-1777581BD95EQ35648292-6DD90247-B458-4FCE-9246-F3900C05DC3CQ35690697-A93F8388-5942-4BB4-900E-EAEABA0C2FF7Q35752703-12C34E4A-0D8E-4ACC-B4D3-508B5C1E8D93Q35979316-914DD46B-9511-4F5A-A4AC-17026CCABDC5Q36105231-8AA8CC78-2805-46C7-ACAC-53AE4467489AQ36291932-39090CC4-C9CB-41C0-B417-9B19AF2EAA81Q36772648-3ACECE31-DF26-4612-8909-68D397496BA0Q37009407-843005B7-3854-4A72-988C-A9920D4D520AQ37041468-19D85A18-A6C7-4033-A780-39ACDAC2F156
P2860
Linking microbial phylogeny to metabolic activity at the single-cell level by using enhanced element labeling-catalyzed reporter deposition fluorescence in situ hybridization (EL-FISH) and NanoSIMS
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@ast
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@en
type
label
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@ast
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@en
prefLabel
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@ast
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@en
P2093
P2860
P356
P1476
Linking microbial phylogeny to ...... ization (EL-FISH) and NanoSIMS
@en
P2093
Alfred M Spormann
Ian D Hutcheon
Jennifer Pett-Ridge
Peter K Weber
Sebastian Behrens
Tina Lösekann
Wing-On Ng
P2860
P304
P356
10.1128/AEM.00191-08
P407
P577
2008-03-21T00:00:00Z