Metaproteomics: harnessing the power of high performance mass spectrometry to identify the suite of proteins that control metabolic activities in microbial communities
about
Effects of Secondary Plant Metabolites on Microbial Populations: Changes in Community Structure and Metabolic Activity in Contaminated Environments"Omics" Tools for Better Understanding the Plant-Endophyte InteractionsA new era in palaeomicrobiology: prospects for ancient dental calculus as a long-term record of the human oral microbiomeProteomic tools to decipher microbial community structure and functioningA comprehensive and scalable database search system for metaproteomicsMicrobial metaproteomics for characterizing the range of metabolic functions and activities of human gut microbiotaThe bovine milk microbiota: insights and perspectives from -omics studies.A previously uncharacterized, nonphotosynthetic member of the Chromatiaceae is the primary CO2-fixing constituent in a self-regenerating biocathode.Soil microbial community responses to a decade of warming as revealed by comparative metagenomics.Metaproteomic data analysis at a glance: advances in computational microbial community proteomics.Characterization of microbial mixtures by mass spectrometry.Metaproteomic analysis of ratoon sugarcane rhizospheric soilDevelopment of an enhanced metaproteomic approach for deepening the microbiome characterization of the human infant gut.Environmental proteomics reveals early microbial community responses to biostimulation at a uranium- and nitrate-contaminated site.Model organism proteomics as a tool for the study of host-microbiome interactions.Metaproteomics: extracting and mining proteome information to characterize metabolic activities in microbial communities.Enrichment or depletion? The impact of stool pretreatment on metaproteomic characterization of the human gut microbiota.Metaproteomics reveals functional shifts in microbial and human proteins during a preterm infant gut colonization caseShotgun proteomics of bacterial pathogens: advances, challenges and clinical implications.A peptide identification-free, genome sequence-independent shotgun proteomics workflow for strain-level bacterial differentiation.Soil restoration with organic amendments: linking cellular functionality and ecosystem processesComprehensive Metaproteomic Analyses of Urine in the Presence and Absence of Neutrophil-Associated Inflammation in the Urinary Tract.Proteogenomics in microbiology: taking the right turn at the junction of genomics and proteomics.A Metaproteomic Analysis of the Response of a Freshwater Microbial Community under Nutrient Enrichment.A metaproteomic approach dissecting major bacterial functions in the rhizosphere of plants living in serpentine soil.Proteomics of the Roseobacter clade, a window to the marine microbiology landscape.Proteomics in Inflammatory Bowel Disease: Approach Using Animal Models.Evaluating de novo sequencing in proteomics: already an accurate alternative to database-driven peptide identification?Can molecular DNA-based techniques unravel the truth about diabetic foot infections?Metagenomic applications in environmental monitoring and bioremediation.The impact of sequence database choice on metaproteomic results in gut microbiota studies.Schrödinger's microbes: Tools for distinguishing the living from the dead in microbial ecosystems.Pipasic: similarity and expression correction for strain-level identification and quantification in metaproteomics.Methane-Fueled Syntrophy through Extracellular Electron Transfer: Uncovering the Genomic Traits Conserved within Diverse Bacterial Partners of Anaerobic Methanotrophic Archaea.A Structural and Functional Elucidation of the Rumen Microbiome Influenced by Various Diets and MicroenvironmentsAn Aquatic Microbial Metaproteomics Workflow: From Cells to Tryptic Peptides Suitable for Tandem Mass Spectrometry-based AnalysisGalaxy Integrated Omics: Web-based Standards-Compliant Workflows for Proteomics Informed by Transcriptomics.A meta-proteomics approach to study the interspecies interactions affecting microbial biofilm development in a model community.The active microbial diversity drives ecosystem multifunctionality and is physiologically related to carbon availability in Mediterranean semi-arid soils.Comparative Metagenomics.
P2860
Q26740001-EA95288D-081F-493D-BCC2-47737766FD84Q26742139-042B9BE2-7808-47F8-87BD-F6D74709DC70Q26851665-17DBA0F1-1EE0-43E5-8B74-3ED5D7D5A683Q26852225-FEB57EAD-0B34-4CE9-A104-9BA651772F8CQ27098545-673C5C06-7728-40DD-A7AE-7848D2291078Q28084181-505446F1-9BBC-4769-9576-E101BB39B24CQ30250211-AF3DB955-54B2-45F9-80B7-6929072DAF78Q30384364-55102924-C668-46CF-BFC4-CBE6F1DF1A88Q30724643-E197050B-8EA2-48F2-BF58-30C5CB17867EQ31112255-7E5A7F9C-751B-4DC0-81C1-DE0BD48BC6F5Q33470495-1069E867-6FF4-4E20-A7E3-5BE26EE7F58EQ34775005-4406AE9D-7AF9-4AD1-B798-8A2D58500CBAQ34855964-DB11FDAC-E364-4A39-A4FD-97E76F531C37Q34872034-C4DB6125-E639-4A12-8E2B-09CBAE83D2CAQ35109893-EC096B28-63EB-4187-8285-AF3E1448492EQ35189993-F677F42E-1549-4D4D-AE86-5046D6AF591BQ35560252-E2AA7B95-056F-41B2-9629-6BE2D29ED14FQ35664605-06D15BEC-B967-4ABD-8BE9-FFC213E47B05Q35865404-E2805EA4-519E-4467-98A4-B2C626B67991Q36099570-02755BD2-5C52-4322-8C6D-34C2DC849F0FQ36209440-5C3B24F4-6B6E-41AE-B502-9E22D23E0B5DQ37541966-62912CFB-72D9-462D-9D37-45E1BB9787AFQ38254995-63FEBEEA-0F22-461F-B01F-88DA4AB6D996Q38388744-C875FE8E-C6D7-4CEA-A9CC-7F882D260B0BQ38438176-C6CBC8F6-C154-4CB8-8254-919F8D5218DCQ38594763-6B859347-8B97-4C4F-8C9A-B069414BD214Q38656159-659498FD-CFF1-4248-AB56-84BF5B11C46EQ38860365-31A214EE-8C60-4011-BFD8-4F96F549DF5DQ38862542-2DBAF4C0-3DDF-45B1-BCB6-ECC2A7D65165Q38936680-81B0F037-2D7C-45DE-B78F-0BCC15986D44Q39348860-AB39DA3A-4800-473A-AC0A-10AE9851CB09Q40082212-000F0D6C-B672-4240-9BA9-4B30A0EE1E57Q40749177-0DD37FF3-BB42-454D-9911-D92E91E435E0Q41205275-7C6A5038-6DE1-44AA-AE9C-D38442D3F05BQ41537408-C085C235-5DDB-4723-A523-5B7CC80E5831Q41733395-34D928AE-C664-4E50-B9EA-D3AA6514D9E2Q42036390-FC1CEF7E-E180-47DA-9403-36426FD68F98Q46252413-8F2C6A77-B182-4078-9989-8B55298FC6D5Q46507593-79393828-9ECD-4D5F-AF27-C5FADF57CE68Q47249231-FCD71FC9-335A-4282-B3B1-0B879D6EDC63
P2860
Metaproteomics: harnessing the power of high performance mass spectrometry to identify the suite of proteins that control metabolic activities in microbial communities
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Metaproteomics: harnessing the ...... ities in microbial communities
@en
type
label
Metaproteomics: harnessing the ...... ities in microbial communities
@en
prefLabel
Metaproteomics: harnessing the ...... ities in microbial communities
@en
P2860
P356
P1433
P1476
Metaproteomics: harnessing the ...... ities in microbial communities
@en
P2093
Karuna Chourey
Richard J Giannone
P2860
P304
P356
10.1021/AC303053E
P407
P577
2013-03-21T00:00:00Z