Comparison of three next-generation sequencing platforms for metagenomic sequencing and identification of pathogens in blood.
about
Considerations For Optimizing Microbiome Analysis Using a Marker GenePerspective for Aquaponic Systems: "Omic" Technologies for Microbial Community AnalysisNext-generation sequencing (NGS) for assessment of microbial water quality: current progress, challenges, and future opportunitiesDistinguishing highly similar gene isoforms with a clustering-based bioinformatics analysis of PacBio single-molecule long readsA tale of two approaches: how metagenomics and proteomics are shaping the future of encephalitis diagnostics.Massively parallel digital high resolution melt for rapid and absolutely quantitative sequence profilingEfficiency of Airborne Sample Analysis Platform (ASAP) bioaerosol sampler for pathogen detectionIonGAP: integrative bacterial genome analysis for Ion Torrent sequence data.Blood transcriptomes reveal novel parasitic zoonoses circulating in Madagascar's lemurs.Comparative analysis of the sensitivity of metagenomic sequencing and PCR to detect a biowarfare simulant (Bacillus atrophaeus) in soil samples.Variable-order sequence modeling improves bacterial strain discrimination for Ion Torrent DNA reads.A Protocol for mtGenome Analysis on Large Sample Numbers.Efficient and unbiased metagenomic recovery of RNA virus genomes from human plasma samples.Transcriptional analysis of endocrine disruption using zebrafish and massively parallel sequencingMetaGeniE: characterizing human clinical samples using deep metagenomic sequencing.Prepartum and postpartum rumen fluid microbiomes: characterization and correlation with production traits in dairy cows.Developments for improved diagnosis of bacterial bloodstream infections.De novo assembly and characterization of Muscovy duck liver transcriptome and analysis of differentially regulated genes in response to heat stress.A next generation semiconductor based sequencing approach for the identification of meat species in DNA mixtures.Utility of different massive parallel sequencing platforms for mutation profiling in clinical samples and identification of pitfalls using FFPE tissueHost-Associated Metagenomics: A Guide to Generating Infectious RNA Viromes.Targeted amplification for enhanced detection of biothreat agents by next-generation sequencing.Pathosphere.org: pathogen detection and characterization through a web-based, open source informatics platform.Host-Parasite Interactions and Purifying Selection in a Microsporidian Parasite of Honey BeesColonization of Beef Cattle by Shiga Toxin-Producing Escherichia coli during the First Year of Life: A Cohort Study.Comparing Apples and Oranges?: Next Generation Sequencing and Its Impact on Microbiome Analysis.Screening for Viral Pathogens in African Simian Bushmeat Seized at A French Airport.Determination of the microbial community features of Haemaphysalis flava in different developmental stages by high-throughput sequencing.The Characterization of Novel Tissue Microbiota Using an Optimized 16S Metagenomic Sequencing Pipeline.Development of a candidate reference material for adventitious virus detection in vaccine and biologicals manufacturing by deep sequencingMetagenomic Sequencing for Surveillance of Food- and Waterborne Viral Diseases.BLASTPLOT: a PERL module to plot next generation sequencing NCBI-BLAST results.Advances in multiplex nucleic acid diagnostics for blood-borne pathogens: promises and pitfalls.Exploring the microbiome of healthy and diseased peri-implant sites using Illumina Sequencing.Advances in clinical next-generation sequencing: target enrichment and sequencing technologies.Sensitivity of Next-Generation Sequencing Metagenomic Analysis for Detection of RNA and DNA Viruses in Cerebrospinal Fluid: The Confounding Effect of Background Contamination.Multiplex assay for subtyping avian influenza A viruses by cDNA hybridization and adapter-mediated amplification.A novel strain of porcine adenovirus detected in urinary bladder urothelial cell culture.The utility and perspectives of NGS-based methods in BSL-3 and BSL-4 laboratory - sequencing and analysis strategies.No evidence of enteric viral involvement in the new neonatal porcine diarrhoea syndrome in Danish pigs.
P2860
Q26739715-04B14EAD-BD22-46DD-9360-8C6D68722BD4Q26778229-C280B7DD-7BCD-411D-86AF-ED6F90987560Q26781348-4777092F-C5E9-43C6-B14A-5515C9F91781Q27300865-A5D8F25A-7ED7-46F1-9439-6CE22DD956EEQ27687426-17FBC270-3CCA-402A-A827-18044F189E13Q28817256-7E19B139-D88D-4A1C-B720-BC1ACF2A875EQ30375664-0FB2C0BC-04C2-4ED1-8BFA-5FDC8C6BDA34Q30946725-9083FD1F-E511-4504-82A1-942B441B358FQ31040171-504E4948-7630-4B4C-9F0E-5EA7326374C7Q33637761-3893C769-556F-4F48-8FB4-F68F31FD57C1Q33792134-54CF58EF-8E1F-4F9C-AF2E-2F87EA7AB6E5Q33800122-0BE7E107-BBC3-4DC0-B9A9-5A7D1B682C0EQ33830021-6A419175-F812-4A3C-AAC4-8C9717B257ACQ34093208-3842D6FB-6D5B-420A-BE99-CCE7030379C0Q34445180-4366B7E0-E236-4F36-AF95-76F1FBDC6B30Q35024025-34BCF466-0686-4FBA-88EB-EBEDB3952FEAQ35171979-1EC2311B-625A-4092-B25D-0E1BE1E5D2DAQ35529057-D8683299-E86E-4C12-AC71-F635950FE4F7Q35617706-B9E96479-FB2B-4784-856E-3F78DD44B92BQ35767728-8B816B14-B17D-44DB-AC3B-CF0346F4E648Q35796931-257B953C-E740-4FF8-8740-F037D57D63B9Q35842583-A2C3A479-9832-4D5E-955D-A9E3BA178747Q35880903-7773C115-0D2D-485E-864C-ECCC23BD3E44Q35913332-96648A1F-136A-4E4F-9CDE-ECDC410A4B64Q35915609-EB8036D7-7F23-4D7C-831C-D183D8552132Q35915768-80904C9E-B852-449B-8B8D-1C384ED86D09Q35923746-7590B8C8-111E-4BB9-A781-B28B1AC5980DQ36223043-EE020564-D224-4D1C-908F-5C36096B13A7Q36257713-DE48E1F5-BE03-48C6-A682-3A9D115C342BQ36772744-6B163250-2355-4DDB-B61E-2B1771C9B922Q37642078-FAD06450-9B5F-40E3-A176-D341F8381A2DQ38603241-DB3ACC5E-CD64-4AD0-9BA0-DDFB432433B2Q38637507-ED612BE3-F1D7-4317-AA95-55592247E1F4Q38647285-4C545A36-CF70-4DE8-8D38-31B769BD21D8Q38672934-7EA86475-173C-4CC2-AE76-BBBF5F311722Q40616341-3A71CE65-247F-47F3-86A9-4BAB96277918Q40670375-CCA194DD-0DF1-47D6-9C5B-23328C61D58DQ41463527-5BF15725-2FBF-4688-838D-14C8451969AAQ44106195-F0553463-CD41-4EC6-BE59-5F0E8734C0E3Q45095316-551BC43F-D87B-4F71-8AAC-9BC84F783FF3
P2860
Comparison of three next-generation sequencing platforms for metagenomic sequencing and identification of pathogens in blood.
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Comparison of three next-gener ...... ication of pathogens in blood.
@ast
Comparison of three next-gener ...... ication of pathogens in blood.
@en
type
label
Comparison of three next-gener ...... ication of pathogens in blood.
@ast
Comparison of three next-gener ...... ication of pathogens in blood.
@en
prefLabel
Comparison of three next-gener ...... ication of pathogens in blood.
@ast
Comparison of three next-gener ...... ication of pathogens in blood.
@en
P2093
P2860
P356
P1433
P1476
Comparison of three next-gener ...... ication of pathogens in blood.
@en
P2093
Alfred J Mateczun
Cassie L Redden
Jesus Enrique Herrera-Galeano
Kenneth G Frey
Stephanie L Servetas
Truong V Luu
Vishwesh P Mokashi
P2860
P2888
P356
10.1186/1471-2164-15-96
P407
P577
2014-02-04T00:00:00Z
P5875
P6179
1023199871