Biases during DNA extraction of activated sludge samples revealed by high throughput sequencing. - Wikidata - awgldk - TriplyDB

Biases during DNA extraction of activated sludge samples revealed by high throughput sequencing.

Biases during DNA extraction of activated sludge samples revealed by high throughput sequencing.

http://www.wikidata.org/entity/Q36824310

about

Considerations For Optimizing Microbiome Analysis Using a Marker Gene Evaluation of the ISO standard 11063 DNA extraction procedure for assessing soil microbial abundance and community structure Evaluation of Lysis Methods for the Extraction of Bacterial DNA for Analysis of the Vaginal Microbiota Quantifying the biases in metagenome mining for realistic assessment of microbial ecology of naturally fermented foods.The bias associated with amplicon sequencing does not affect the quantitative assessment of bacterial community dynamics Choice of bacterial DNA extraction method from fecal material influences community structure as evaluated by metagenomic analysis.DNA qualification workflow for next generation sequencing of histopathological samples.Detailed investigation of the microbial community in foaming activated sludge reveals novel foam formers.Taxonomic precision of different hypervariable regions of 16S rRNA gene and annotation methods for functional bacterial groups in biological wastewater treatment Tracking human sewage microbiome in a municipal wastewater treatment plant.Semi-continuous anaerobic digestion for biogas production: influence of ammonium acetate supplement and structure of the microbial community Metagenomic analysis on seasonal microbial variations of activated sludge from a full-scale wastewater treatment plant over 4 years.Multilevel correlations in the biological phosphorus removal process: From bacterial enrichment to conductivity-based metabolic batch tests and polyphosphatase assays.Evidence of carbon fixation pathway in a bacterium from candidate phylum SBR1093 revealed with genomic analysis.Back to Basics--The Influence of DNA Extraction and Primer Choice on Phylogenetic Analysis of Activated Sludge Communities.Characterization of the Bacterial Community Naturally Present on Commercially Grown Basil Leaves: Evaluation of Sample Preparation Prior to Culture-Independent Techniques.Comparative Evaluation of DNA Extraction Methods from Feces of Multiple Host Species for Downstream Next-Generation Sequencing.High mycobacterial diversity in recreational lakes.Performance Assessment of Full-Scale Wastewater Treatment Plants Based on Seasonal Variability of Microbial Communities via High-Throughput Sequencing.Ammonia-oxidizing microbial communities in reactors with efficient nitrification at low-dissolved oxygen.Phylogeny-structured carbohydrate metabolism across microbiomes collected from different units in wastewater treatment process.Evaluation of DNA extraction kits and phylogenetic diversity of the porcine gastrointestinal tract based on Illumina sequencing of two hypervariable regions Eye of the Finch: characterization of the ocular microbiome of house finches in relation to mycoplasmal conjunctivitis.Deciphering Cyanide-Degrading Potential of Bacterial Community Associated with the Coking Wastewater Treatment Plant with a Novel Draft Genome.Shifts of live bacterial community in secondary effluent by chlorine disinfection revealed by Miseq high-throughput sequencing combined with propidium monoazide treatment.Screening of Bacillus Strains from Sun Vinegar for Efficient Production of Flavonoid and Phenol.Importance of Local and Regional Scales in Shaping Mycobacterial Abundance in Freshwater Lakes.Suitability of various DNA extraction methods for a traditional Chinese paocai system.Detecting the nonviable and heat-tolerant bacteria in activated sludge by minimizing DNA from dead cells.Metabolic characteristics of a glycogen-accumulating organism in Defluviicoccus cluster II revealed by comparative genomics.The madness of microbiome: Attempting to find consensus "best practice" for 16S microbiome studies.Impact of DNA extraction, sample dilution, and reagent contamination on 16S rRNA gene sequencing of human feces.The use of extracellular DNA as a proxy for specific microbial activity.Biases during DNA extraction affect bacterial and archaeal community profile of anaerobic digestion samples.Detection of Clostridium botulinum group III in environmental samples from farms by real-time PCR using four commercial DNA extraction kits.Comparative evaluation of a new magnetic bead-based DNA extraction method from fecal samples for downstream next-generation 16S rRNA gene sequencing

P2860

Q26739715-E2ACBB98-E17B-4F04-BD72-BC9F1A738410 Q28483669-9F932EC7-DBFB-41EC-803E-9750AFD53B89 Q28554228-00A263A3-3AFD-4CC4-BEE4-9F29DF41E995 Q28828929-7E3AD14A-A32F-47F1-AC80-A816C6D4084B Q33748729-B9992B3E-95B4-47E3-A367-1F6CDE4F61E9 Q33777594-94568004-2CFC-4AA7-9A3A-3167ECF2B564 Q34769357-304B83A3-EB04-479F-AC71-ADE96B28F107 Q34830389-83932935-CD74-4BE8-9731-A402AFA6AEFA Q35022666-5322DB27-9004-4765-AF9E-BA25181227B7 Q35059162-FE25E7C0-BADB-4D0E-B9B0-FFC0D1BC22C7 Q35107723-245F1153-67E7-4E64-85D3-9B4F4551068C Q35111526-07EC37FA-66BD-4F0F-8451-8D16CB128AF4 Q35197171-97C00621-7DCA-437F-84E3-C202853B1713 Q35326108-189F4A49-EB6B-4265-9E55-DC88A415B6A3 Q35693671-FDE87AF4-6E01-4CD2-BF64-043E94F83AAF Q35755616-A9F219F6-F599-4C73-9C4F-2E3D69E017CC Q35850269-431F41BE-089C-4DAF-A1AE-F78B5E2E00D5 Q35923049-CEC17AB7-8E37-48C1-A629-6B2704EE607B Q35980891-2073C77E-2D16-4795-919C-563900805DF7 Q36042280-F0A99FD6-F042-4C0E-9417-7C521332C529 Q36201876-59526086-6DFA-4FA1-B9A4-3AABED01D07D Q36618829-700BCA34-E68A-40C1-A1AB-250791342415 Q39167607-EE8FE649-C0F9-431C-B74F-A5F7AEE5208A Q43332485-3FF5BB62-D427-400B-B7F5-CC67172BBE70 Q43346801-01355460-D9C7-4CE2-B95C-E796E34FB708 Q45243208-D941D3DD-A2CF-4C18-9AC9-541D66A3BFED Q46276449-B89AD34C-8589-4127-B22D-9EF5540285E5 Q46383134-87CB2067-45BD-4648-AF23-849FCB57B82B Q46930781-DC66F200-3852-462F-BCE8-A94A0FD2FF01 Q48000501-3B453059-DA3B-4138-92F8-F5278C0B9FD2 Q50088075-F46BE8BA-FC3A-49F2-B1DB-D3B1D05E14DD Q50100441-8C565D73-ACA4-47AB-92E4-A56CAE6ED867 Q50104003-B7F19BA3-CA17-4AFD-8A00-698E48F0C7C4 Q51170996-1BFAEBE3-5471-4CEB-B92B-DF6C16C30283 Q55514498-E00F0840-ADF7-4734-A81B-B5DC214A5EAC Q58714904-038B1219-FEDE-4CE8-A3F8-70ED708C62C3

P2860

Biases during DNA extraction of activated sludge samples revealed by high throughput sequencing.

http://www.wikidata.org/entity/Q36824310

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

2012年论文

@zh

2012年论文

@zh-cn

name

Biases during DNA extraction o ...... by high throughput sequencing.

@en

type

label

Biases during DNA extraction o ...... by high throughput sequencing.

@en

prefLabel

Biases during DNA extraction o ...... by high throughput sequencing.

@en

P1433

Q36824310-2E583B6E-136F-404E-8A25-D4CDC1508233

P1476

Q36824310-67D5605D-89A5-4930-ADA6-8A5D1B338A59

P2093

Q36824310-09B76C72-B23E-4E92-8617-617E2803CC32

Q36824310-265BD22F-D5BD-4A06-8769-636E0936A8E6

P2860

Q36824310-091E6687-F97E-464F-9118-E02B9331E39F

Q36824310-0E041566-30B8-48E5-8A9C-21F96E0B1592

Q36824310-18CF915C-FF97-432C-805E-781CFC23EB44

Q36824310-1C79643C-B939-477C-9CC4-E8EFA80825C0

Q36824310-24213628-EC02-4CB9-A1C9-FCB0341B849F

Q36824310-33A7F857-B219-4639-8A7F-18674BC7BBA7

Q36824310-382CDD8D-E6C0-4447-9E13-48822768EEA1

Q36824310-3FA02118-A8C7-4020-98AD-2CC411F7E4CC

Q36824310-4874A512-6443-4185-B3D2-ACA3E0A701A7

Q36824310-518C03EB-1641-4EDB-82FB-67CF4E6AA8CE

P2888

Q36824310-A56C8B8A-569F-4DB2-B144-0C1FE4284E63

P304

Q36824310-5E6844E8-7C65-48EE-B28E-1AC08CA13034

P31

Q36824310-3993380E-EBCC-4D8F-94C2-7D5846843406

P356

Q36824310-0C71E2E0-AA5A-4919-AB52-FFE04539D2BC

P407

Q36824310-3972CADD-FEFA-4AC4-9614-85BA43368B74

P433

Q36824310-7BB39B1D-F4E9-40AC-A219-72E45FD68F5C

P478

Q36824310-613671C3-0185-4701-ACEE-9AB89E41005D

P577

Q36824310-3C2928DA-C3BD-4590-9F51-5306100D0C47

P5875

Q36824310-DC8DE8A2-BF8E-4D53-A45F-A84DEB6721D1

P698

Q36824310-2B3804EC-2C13-41F4-9669-2047280BC064

P921

Q36824310-9093C1C3-E85C-4000-B6DC-1AAAF2F11082

P932

Q36824310-1142401C-C17F-433D-9383-6BEB5578CB15

P356

S00253-012-4244-4

P1433

Applied Microbiology and Biotechnology

P1476

Biases during DNA extraction o ...... by high throughput sequencing.

@en

P2093

Feng Guo

http://www.w3.org/2001/XMLSchema#string

Tong Zhang

http://www.w3.org/2001/XMLSchema#string

P2860

Introducing mothur: open-source, platform-independent, community-supported software for describing and comparing microbial communities

Microbial diversity in the deep sea and the underexplored "rare biosphere"

Nitrospira marina gen. nov. sp. nov.: a chemolithotrophic nitrite-oxidizing bacterium

The involvement of cell-to-cell signals in the development of a bacterial biofilm

DNA extraction from soils: old bias for new microbial diversity analysis methods.

The use of coded PCR primers enables high-throughput sequencing of multiple homolog amplification products by 454 parallel sequencing.

Comparative study of methods for extraction and purification of environmental DNA from soil and sludge samples.

Exploring microbial diversity and taxonomy using SSU rRNA hypervariable tag sequencing.

Focused-Pulsed sludge pre-treatment increases the bacterial diversity and relative abundance of acetoclastic methanogens in a full-scale anaerobic digester.

A high-throughput DNA sequence aligner for microbial ecology studies

P2888

s00253-012-4244-4

P304

4607-4616

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1007/S00253-012-4244-4

http://www.w3.org/2001/XMLSchema#string

P407

P433

10

http://www.w3.org/2001/XMLSchema#string

P478

97

http://www.w3.org/2001/XMLSchema#string

P577

2012-07-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

228115303

http://www.w3.org/2001/XMLSchema#string

P698

22760785

http://www.w3.org/2001/XMLSchema#string

P921

P932

3647099

http://www.w3.org/2001/XMLSchema#string