Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
about
Pathogens protection against the action of disinfectants in multispecies biofilmsLife under extreme energy limitation: a synthesis of laboratory- and field-based investigationsFe biomineralization mirrors individual metabolic activity in a nitrate-dependent Fe(II)-oxidizerStable Isotope Phenotyping via Cluster Analysis of NanoSIMS Data As a Method for Characterizing Distinct Microbial Ecophysiologies and Sulfur-Cycling in the EnvironmentThe Role of Heterotrophic Microbial Communities in Estuarine C Budgets and the Biogeochemical C Cycle with Implications for Global Warming: Research Opportunities and Challenges.Metal and complementary molecular bioimaging in Alzheimer's disease.Key players and team play: anaerobic microbial communities in hydrocarbon-contaminated aquifers.Metabolomic strategies for the identification of new enzyme functions and metabolic pathwaysQuantifying the metabolic activities of human-associated microbial communities across multiple ecological scales.Colonization resistance and microbial ecophysiology: using gnotobiotic mouse models and single-cell technology to explore the intestinal jungle.Insights from quantitative metaproteomics and protein-stable isotope probing into microbial ecology.Microbial brokers of insect-plant interactions revisited.Chemoautotrophic growth of ammonia-oxidizing Thaumarchaeota enriched from a pelagic redox gradient in the Baltic SeaTracking heavy water (D2O) incorporation for identifying and sorting active microbial cells.SIMSISH technique does not alter the apparent isotopic composition of bacterial cellsAnalysis of fluorescent reporters indicates heterogeneity in glucose uptake and utilization in clonal bacterial populations.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.Core principles of bacterial autoinducer systems.Integrated omics for the identification of key functionalities in biological wastewater treatment microbial communitiesN2-fixation, ammonium release and N-transfer to the microbial and classical food web within a plankton community.A Continuous Culture System for Assessing Microbial Activities in the PiezosphereCell-specific nitrogen- and carbon-fixation of cyanobacteria in a temperate marine system (Baltic Sea).Phylogenetic diversity and in situ detection of eukaryotes in anaerobic sludge digesters.Mycelium-mediated transfer of water and nutrients stimulates bacterial activity in dry and oligotrophic environments.Progress toward single cell metabolomics.Use of carbon monoxide and hydrogen by a bacteria-animal symbiosis from seagrass sedimentsMetabolic host responses to infection by intracellular bacterial pathogensSuperposition of Individual Activities: Urea-Mediated Suppression of Nitrate Uptake in the Dinoflagellate Prorocentrum minimum Revealed at the Population and Single-Cell Levels.Mighty small: Observing and modeling individual microbes becomes big science.Going local: technologies for exploring bacterial microenvironments.Quantitative imaging of subcellular metabolism with stable isotopes and multi-isotope imaging mass spectrometry.Categorizing Cells on the Basis of their Chemical Profiles: Progress in Single-Cell Mass Spectrometry.Protein-based stable isotope probing (protein-SIP) in functional metaproteomics.Microbial syntrophy: interaction for the common good.The private life of environmental bacteria: pollutant biodegradation at the single cell level.Microbial ecology-based engineering of Microbial Electrochemical Technologies.Defining heterogeneity within bacterial populations via single cell approaches.Critical review on biofilm methods.Measuring carbon and N2 fixation in field populations of colonial and free-living unicellular cyanobacteria using nanometer-scale secondary ion mass spectrometry(1).Epifluorescence, SEM, TEM and nanoSIMS image analysis of the cold phenotype of Clostridium psychrophilum at subzero temperatures.
P2860
Q26800012-F3998200-B43C-4D8B-B4E4-F0D6CCF3EABCQ26828792-7859DE37-18E1-4305-8FFC-B03050AC9C55Q28607877-1D1402CA-23D9-42C8-88D4-FC46445D54F9Q28833327-75A2ACF4-B502-493A-B143-107A34BF65C0Q31012023-922F63B9-D519-42AC-ABA2-A70F0F184769Q33901773-69A29A4C-86B3-4CDB-A521-33B0A41667D6Q34220430-39FA3FC7-F50A-49A2-9D52-C7E745D0A1DBQ34342551-043E3056-6B5F-4249-AA5F-F11A2163FB6EQ34646255-2006360B-CDF3-4FDB-B9E1-1C32CD21BB41Q34714359-7993A8DD-3495-4826-BC72-8115156D0C6AQ34724702-57CB1D0B-8474-4FDC-A7AF-D735CA430D72Q34781712-0465733E-CE80-4F15-A63D-CE023382F872Q34970060-1726D3F4-BB6E-4A21-82AE-E02017F53E3FQ34985678-7F4D118D-8D8B-4BE1-BEC3-3EB8EC515C31Q35035348-42226B10-433D-4B32-BA9E-091196DA08AEQ35044517-271B2E19-5716-49CC-8AAB-7C708229FC42Q35442607-EAD0903C-B28E-4842-8BDB-5DAFFE6E20F1Q35482697-C470606E-483C-497C-94C5-01A7BAB11771Q35533194-5713E50B-1F46-43B4-8587-97E1D975C065Q35742502-2B0CA5B5-BA28-47B1-888A-05030E2B1193Q36033316-76B2A806-9380-45D4-AFB0-E90F10299DAFQ36151767-8F316BA0-AD8D-4527-A4FE-3636C97A0B37Q36298457-053875BC-FE6A-4CAD-9934-DABDA186E59CQ36394730-981CDCFC-0FDE-41AA-AF93-197DEACD148CQ36532782-FBE6F0ED-EEAA-44D7-AA47-CDA7725C4C6FQ36554525-E85C034E-2000-45E7-ADDB-348F61E2017EQ36994631-409DAD11-A9C4-4631-910D-F8675310336DQ37201851-4DB6895D-26CA-431F-AC5F-05BECDBDC1E3Q37318089-A7EDCB02-E9C3-4745-BD3F-E004DE641BA1Q37699391-E3E37E7B-644D-4526-BB34-BA7D7C8EF638Q37700525-E782C8FE-49C7-45F0-BD47-5AF60B74E658Q37719358-B2CE209D-EDCE-4CBE-88DE-890D58AB1C30Q37994137-87A21C29-30CE-4AD0-807F-871A4D7555D1Q38088340-FCFD0067-D831-4116-A6C0-C47E002796FBQ38171535-377920B2-4B8A-4AC4-808C-1C9406A675AAQ38626273-2C503FCF-ABE1-43AC-8948-57020004025BQ38858511-82AC3D14-554B-4F5C-BB80-457AE3B76252Q39015075-F9FCB32C-138E-40A6-958F-74A8753B6A4FQ39895512-BF37DD88-08EC-4AA9-B879-B4D6AD1239BEQ41607191-FC42A0D0-FE53-44AD-BDF9-6EEE04050C78
P2860
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@en
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@nl
type
label
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@en
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@nl
prefLabel
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@en
Detecting metabolic activities in single cells, with emphasis on nanoSIMS.
@nl
P2093
P2860
P1476
Detecting metabolic activities in single cells, with emphasis on nanoSIMS
@en
P2093
Birgit Adam
Marcel M M Kuypers
Rachel Foster
Tomas Vagner
P2860
P304
P356
10.1111/J.1574-6976.2011.00303.X
P577
2011-09-26T00:00:00Z