Effects of PCR cycle number and DNA polymerase type on the 16S rRNA gene pyrosequencing analysis of bacterial communities.
about
The truth about metagenomics: quantifying and counteracting bias in 16S rRNA studiesCharacterization and comparison of bacterial communities in benign vocal fold lesions.Minimization of chloroplast contamination in 16S rRNA gene pyrosequencing of insect herbivore bacterial communitiesDNA sequencing diagnosis of off-season spirochetemia with low bacterial density in Borrelia burgdorferi and Borrelia miyamotoi infections.On the use of high-throughput sequencing for the study of cyanobacterial diversity in Antarctic aquatic mats.Pyrosequencing revealed SAR116 clade as dominant dddP-containing bacteria in oligotrophic NW Pacific OceanInfluence of DNA extraction on oral microbial profiles obtained via 16S rRNA gene sequencingDeodorization of pig slurry and characterization of bacterial diversity using 16S rDNA sequence analysis.Effect of long-term different fertilization on bacterial community structures and diversity in citrus orchard soil of volcanic ash.Not all are free-living: high-throughput DNA metabarcoding reveals a diverse community of protists parasitizing soil metazoa.Development and Validation of Environmental DNA (eDNA) Markers for Detection of Freshwater TurtlesAccurate Estimation of Fungal Diversity and Abundance through Improved Lineage-Specific Primers Optimized for Illumina Amplicon SequencingCharacterization of the gut microbiome in epidemiologic studies: the multiethnic cohort experience.Core fecal microbiota of domesticated herbivorous ruminant, hindgut fermenters, and monogastric animalsAn introduction to microbiome analysis for human biology applications.Phylogenetic Heatmaps Highlight Composition Biases in Sequenced Reads.Toward a Resilient, Functional Microbiome: Drought Tolerance-Alleviating Microbes for Sustainable Agriculture.Integrating the microbiota of the respiratory tract with the unified airway model.ITS all right mama: investigating the formation of chimeric sequences in the ITS2 region by DNA metabarcoding analyses of fungal mock communities of different complexities.Natural decay process affects the abundance and community structure of Bacteria and Archaea in Picea abies logs.Characterization of MHC class II B polymorphism in multiple populations of wild gorillas using non-invasive samples and next-generation sequencing.A novel low temperature PCR assured high-fidelity DNA amplification.Bacterial community structures in air conditioners installed in Japanese residential buildings.Mosquito vector-associated microbiota: Metabarcoding bacteria and eukaryotic symbionts across habitat types in Thailand endemic for dengue and other arthropod-borne diseases.The madness of microbiome: Attempting to find consensus "best practice" for 16S microbiome studies.Capturing the 'ome': the expanding molecular toolbox for RNA and DNA library construction.The impact of storage buffer, DNA extraction method, and polymerase on microbial analysis.A primer to metabarcoding surveys of Antarctic terrestrial biodiversity
P2860
Q21146713-1AA8A31C-8931-4952-98D3-651631013EA2Q22001078-C9AAD7F8-8801-4525-B35A-6307117F20C8Q34049867-F47E94A2-2C5F-42B5-9FA8-D62320C09099Q34072187-670A13F8-F2E9-403E-8974-EBB1C16D6C78Q34530037-9F16D42E-3A45-4F2D-9F68-F44947ACA882Q35007089-90F801B4-7B16-4FB0-AE18-E069250ED2C4Q35159195-72D2EC29-01E2-43B0-BB0E-CE642B150370Q35379706-243207CB-42C8-45B8-972B-F91DAE7A2B10Q35482017-E56F476E-765B-4234-BA03-FC55EEEFCAE0Q35628265-78677183-9446-40D8-A241-9F38979317A6Q35705116-37F46CED-16D1-4008-AB13-3289C53B30DDQ36162390-B833E764-8875-4C1F-B728-5BEAFB5876F6Q36968301-974C7CF2-EC59-4AC2-9C10-5A88B32C0A7BQ38638111-2529A7DF-C80B-4FFC-9098-DABE7BC31934Q38985902-8C7FD188-DD32-4521-B981-4E7772843E42Q38997815-0E8CE679-3932-4BFA-96AE-391D96D9EA85Q39157662-B695629E-656E-483A-9084-D6B79DF45AF5Q39252980-9BA74449-26D8-4246-AD3C-C863CB874EC5Q39255552-C3E6DF7D-6353-4174-9A1E-137B568C3DB6Q39811345-E8C83510-AF75-4EC4-B4ED-E115599EC475Q40632388-0D85DCF9-90B5-49D3-824B-44307FFC0A30Q43094422-1AFED972-2C5E-4C1B-9F30-188F6A3853F9Q43364703-72F18595-87AF-422D-85AB-792939ADBAADQ48155225-B46E73F4-3B95-4DAE-8053-BCA924303EEAQ50088075-FFC65C7D-0309-4CA3-8843-C40F1EA3A9DBQ52364252-17DCD1C2-05A0-4B7B-A7AC-54C3740600A3Q53280745-EC6AD2A2-28D0-461C-9841-608C7F96EA88Q56338755-77C88421-15A9-47B8-A1AA-8F0AEE88983E
P2860
Effects of PCR cycle number and DNA polymerase type on the 16S rRNA gene pyrosequencing analysis of bacterial communities.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Effects of PCR cycle number an ...... ysis of bacterial communities.
@en
Effects of PCR cycle number an ...... ysis of bacterial communities.
@nl
type
label
Effects of PCR cycle number an ...... ysis of bacterial communities.
@en
Effects of PCR cycle number an ...... ysis of bacterial communities.
@nl
prefLabel
Effects of PCR cycle number an ...... ysis of bacterial communities.
@en
Effects of PCR cycle number an ...... ysis of bacterial communities.
@nl
P2093
P2860
P1476
Effects of PCR cycle number an ...... ysis of bacterial communities.
@en
P2093
Byung-Yong Kim
Hang-Yeon Weon
Jae-Hyung Ahn
Jaekyeong Song
P2860
P2888
P304
P356
10.1007/S12275-012-2642-Z
P577
2012-12-30T00:00:00Z