Commercial DNA extraction kits impact observed microbial community composition in permafrost samples.
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High-throughput metagenomic technologies for complex microbial community analysis: open and closed formatsMetagenomics: tools and insights for analyzing next-generation sequencing data derived from biodiversity studies.Microbiology: lessons from a first attempt at Lake Ellsworth.Choice of bacterial DNA extraction method from fecal material influences community structure as evaluated by metagenomic analysis.Influence of DNA extraction method, 16S rRNA targeted hypervariable regions, and sample origin on microbial diversity detected by 454 pyrosequencing in marine chemosynthetic ecosystems.Metagenomes from thawing low-soil-organic-carbon mineral cryosols and permafrost of the canadian high arcticRNA preservation agents and nucleic acid extraction method bias perceived bacterial community compositionIs root DNA a reliable proxy to assess arbuscular mycorrhizal community structure?Normalization of environmental metagenomic DNA enhances the discovery of under-represented microbial community members.Effort versus Reward: Preparing Samples for Fungal Community Characterization in High-Throughput Sequencing Surveys of Soils.An active atmospheric methane sink in high Arctic mineral cryosols.Microbial diversity in European alpine permafrost and active layers.High Levels of Antibiotic Resistance Genes and Their Correlations with Bacterial Community and Mobile Genetic Elements in Pharmaceutical Wastewater Treatment BioreactorsSoil pretreatment and fast cell lysis for direct polymerase chain reaction from forest soils for terminal restriction fragment length polymorphism analysis of fungal communities.Transparent DNA/RNA Co-extraction Workflow Protocol Suitable for Inhibitor-Rich Environmental Samples That Focuses on Complete DNA Removal for Transcriptomic Analyses.A Modified SDS-Based DNA Extraction Method for High Quality Environmental DNA from Seafloor Environments.Development and Validation of Broad-Range Qualitative and Clade-Specific Quantitative Molecular Probes for Assessing Mercury Methylation in the EnvironmentImpact of Different Fecal Processing Methods on Assessments of Bacterial Diversity in the Human Intestine.Potential microbial contamination during sampling of permafrost soil assessed by tracers.Atmospheric CH4 oxidation by Arctic permafrost and mineral cryosols as a function of water saturation and temperature.Methodological flaws introduce strong bias into molecular analysis of microbial populations.Successive DNA extractions improve characterization of soil microbial communities.Microbial community structure of wastewater treatment subjected to high mortality rate due to ozonation of return activated sludge.Distinct microbial communities in the active and permafrost layers on the Tibetan Plateau.Suitability of various DNA extraction methods for a traditional Chinese paocai system.Removal of Exogenous Materials from the Outer Portion of Frozen Cores to Investigate the Ancient Biological Communities Harbored Inside.Profiling soil microbial communities with next-generation sequencing: the influence of DNA kit selection and technician technical expertise.Reptile-associated Borrelia species in the goanna tick (Bothriocroton undatum) from Sydney, Australia.Metagenomic insights into diazotrophic communities across Arctic glacier forefieldsSurface reflectance degradation by microbial communitiesReevaluating the Salty Divide: Phylogenetic Specificity of Transitions between Marine and Freshwater Systems
P2860
Q26824148-54A4966F-395B-4387-AE08-094F412B13DBQ30953199-5F23A2B3-B2D7-4503-881F-FA46F5FA3775Q31032108-F91B893B-5D80-4B42-9F01-B156F7C7CEF0Q33777594-41C8914F-25F7-4F94-A0CF-E9C3F9D7D5E7Q34106973-A40A573B-83BE-4502-A5E4-DC06C7FA66A4Q34551344-13899CFD-6EAD-41A0-856B-A481E6BCBB99Q35209174-FAC9584C-3D8F-4EE5-85B4-78D3C6EA0F8CQ35228993-254F6EA9-2E57-4AD8-9DF3-974D2486E3B0Q35510324-9BC57FB3-ECEF-4A97-BBC2-5A3ABB93B9F6Q35631582-8C74C70D-6F2A-4030-91B2-A68EF3667EBBQ35880966-DED7991A-C02C-44D1-870B-3801D3540300Q35910831-D3A915D7-9B2C-488B-94C5-3535588DA4B8Q36050344-5A4ABE77-A7C1-4F91-89AB-C66538925DD6Q36104616-5DBECB64-A70A-4816-A8E9-BF3F41A27895Q36179805-CCCC79CE-11AF-4401-A01A-27DD17B8A136Q37030024-32BBE74E-F553-49D6-A6D8-940367EBEB70Q37287079-C808BB94-F73B-4951-8FAC-3D3945426312Q37351918-BC9DD6C9-1D54-4EAF-8BE0-575B020B296DQ37661083-C651301B-E079-4A7F-9D04-836C0B6F29F1Q38836210-457CC5F2-D7E6-4467-9A2D-0FD695BF2351Q39134188-B30D8096-C52B-4599-B21E-4CF721865528Q42019417-885CAD46-CB71-4C4B-942B-DC00650732F5Q43316013-8F1FDFD7-5BFB-4EC4-B720-003C446D0B8DQ46271806-95E72BBE-D281-4C1D-B32E-0B8B678B4C26Q46383134-B78DE1F8-DA79-4014-AB65-679F2A13579EQ46517746-2F8C7EB2-4223-4D4D-A0B6-2480BB03EC5BQ47126537-DFA806A0-F1CF-4CD7-BD1D-E52D3C733463Q47133672-7DB54A4A-50A2-470F-94DB-F234EB22BE82Q56895886-AA49B429-CE2F-4276-8AC9-255EABE9F88FQ57986282-6D71427C-23ED-4F30-9996-343A09EFD809Q59132678-6A785289-9BD2-4091-A4E2-61DDF4D406F2
P2860
Commercial DNA extraction kits impact observed microbial community composition in permafrost samples.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
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2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
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name
Commercial DNA extraction kits ...... osition in permafrost samples.
@en
Commercial DNA extraction kits ...... osition in permafrost samples.
@nl
type
label
Commercial DNA extraction kits ...... osition in permafrost samples.
@en
Commercial DNA extraction kits ...... osition in permafrost samples.
@nl
prefLabel
Commercial DNA extraction kits ...... osition in permafrost samples.
@en
Commercial DNA extraction kits ...... osition in permafrost samples.
@nl
P2093
P2860
P356
P1476
Commercial DNA extraction kits ...... osition in permafrost samples.
@en
P2093
Alexandra W Rogers
Alice C Layton
Archana Chauhan
Arthur J Meyers
Brandon T Stackhouse
Daniel E Williams
Gary S Sayler
Geetha S Saarunya
Jasity R Murphy
John P Biggerstaff
P2860
P304
P356
10.1111/1574-6941.12219
P577
2013-10-17T00:00:00Z