Terminal restriction fragment patterns: a tool for comparing microbial communities and assessing community dynamics.
about
Use of 16S rRNA gene terminal restriction fragment analysis to assess the impact of solids retention time on the bacterial diversity of activated sludgeIdentification of unique type II polyketide synthase genes in soilBiogeography of actinomycete communities and type II polyketide synthase genes in soils collected in New Jersey and Central AsiaPhosphorus chemistry and bacterial community composition interact in brackish sediments receiving agricultural dischargesMicrobial communities in pre-columbian coprolitesPyroTRF-ID: a novel bioinformatics methodology for the affiliation of terminal-restriction fragments using 16S rRNA gene pyrosequencing dataImpact of T-RFLP data analysis choices on assessments of microbial community structure and dynamics.Tools for T-RFLP data analysis using Excel.Formation of pseudo-terminal restriction fragments, a PCR-related bias affecting terminal restriction fragment length polymorphism analysis of microbial community structure.Fingerprinting microbial assemblages from the oxic/anoxic chemocline of the Black Sea.Web-based phylogenetic assignment tool for analysis of terminal restriction fragment length polymorphism profiles of microbial communities.Diversity of anaerobic microorganisms involved in long-chain fatty acid degradation in methanogenic sludges as revealed by RNA-based stable isotope probingTRiFLe, a program for in silico terminal restriction fragment length polymorphism analysis with user-defined sequence setsApplication of sequence-dependent electrophoresis fingerprinting in exploring biodiversity and population dynamics of human intestinal microbiota: what can be revealed?Technicalities and Glitches of Terminal Restriction Fragment Length Polymorphism (T-RFLP).Distribution and stability of sulfate-reducing prokaryotic and hydrogenotrophic methanogenic assemblages in nutrient-impacted regions of the Florida Everglades.Phylogeography of sulfate-reducing bacteria among disturbed sediments, disclosed by analysis of the dissimilatory sulfite reductase genes (dsrAB).Comparison of soil bacterial communities in rhizospheres of three plant species and the interspaces in an arid grassland.Influence of elevated CO(2) on the fungal community in a coastal scrub oak forest soil investigated with terminal-restriction fragment length polymorphism analysis.Comparison of bacteroides-prevotella 16S rRNA genetic markers for fecal samples from different animal speciesEffect of herbal medicine Juzentaihoto on hepatic and intestinal heat shock gene expression requires intestinal microflora in mouse.Redox fluctuation structures microbial communities in a wet tropical soil.Diversity and dynamics of Archaea in an activated sludge wastewater treatment plantEnvironmental particulate matter induces murine intestinal inflammatory responses and alters the gut microbiome.mRNA differential display in a microbial enrichment culture: simultaneous identification of three cyclohexanone monooxygenases from three speciesImpacts of labile organic carbon concentration on organic and inorganic nitrogen utilization by a stream biofilm bacterial communityWhat goes in must come out: testing for biases in molecular analysis of arbuscular mycorrhizal fungal communities.Humic acids buffer the effects of urea on soil ammonia oxidizers and potential nitrification.Development of a Lactobacillus specific T-RFLP method to determine lactobacilli diversity in complex samplesSignificance of the microbiome in obstructive lung diseaseBacterial succession in a petroleum land treatment unit.Detection of Streptococcus pneumoniae strain cocolonization in the nasopharynxUnderstanding the role of the microbiome in chronic obstructive pulmonary disease: principles, challenges, and future directions.Evaluation of PCR amplification bias by terminal restriction fragment length polymorphism analysis of small-subunit rRNA and mcrA genes by using defined template mixtures of methanogenic pure cultures and soil DNA extracts.Effect of different carbon sources on community composition of bacterial enrichments from soil.Fidelity of select restriction endonucleases in determining microbial diversity by terminal-restriction fragment length polymorphism.Rapid identification of bacteria from positive blood cultures by terminal restriction fragment length polymorphism profile analysis of the 16S rRNA gene.New threshold and confidence estimates for terminal restriction fragment length polymorphism analysis of complex bacterial communitiesDepth-resolved quantification of anaerobic toluene degraders and aquifer microbial community patterns in distinct redox zones of a tar oil contaminant plume.Terminal restriction fragment length polymorphism (T-RFLP) analysis: Characterizing the unseen.
P2860
Q24535027-C97FB5BD-AAEA-4F44-9AF9-DCF7DEAA2F7FQ28248510-222C88E2-6D42-42D2-A369-2EB813509226Q28291449-BB420285-70DC-4759-A7B6-22796F5BF6F0Q28478873-DD7FC574-2875-4B22-B234-8AF236EB36CBQ28681853-766C935E-C657-420A-9737-36CD981872ACQ30583395-51261BC8-316B-4352-A5BC-B04B29B62945Q30597881-304D927C-F807-4A83-B010-4019FE5AFD51Q30868821-AE055700-B820-4C41-B713-3B49E0DA195CQ30924732-E078562D-F937-40D5-92CC-B7C97A9DD2BDQ33194640-43E25573-C26E-4C1C-AA7A-6F59FD394E60Q33194645-705E8320-82CF-47BE-B926-B4E1FC3A13CCQ33283843-0BF66C04-7965-4031-B475-CE1796AB8E84Q33364847-D922F1DD-17B1-43DA-9BEC-D33F0C04A202Q33416742-053F4A44-431B-4CD5-8D55-EAFDEAA6D5A2Q33690936-68E6A92F-DBFD-4D41-9432-663CC2E6196CQ33769883-7CF86194-A8B3-45DE-9267-AC71D8CB7DB3Q33787375-51FB3A87-8D18-44FB-84EA-E571A679EF89Q34051870-47162CE4-46DE-45F0-83AF-4FCFC803FEBAQ34058827-4EB521FD-EAE5-4816-BF57-587D9593D6FCQ34097699-C093F936-1E52-411F-8681-08E0A94531AEQ34100108-32C08094-100B-4165-AFDF-4B4E1D860835Q34143460-5DE60749-8B70-40D4-93B3-682D75728A43Q34333235-F29FC797-BF2C-4C2E-8F14-3425C8967A84Q34701085-9C9A6D9D-8CAF-4261-9458-5B9B20DC8849Q34878741-8D5BA46C-2108-4267-B87F-390BAA3FA85FQ34987794-904B1582-9400-4CED-A649-7E5D755BE54EQ35295263-638224EE-CD0D-4435-92D0-3E627DD81966Q35678730-EA44B775-ACAB-488C-87A7-BECA608454CDQ36339339-786597E9-52AF-47A5-AFC8-A3714D57711AQ36626820-2326B449-753C-43B0-8A66-9FC0EDA2AB17Q36931057-9C146125-DA70-488C-902B-0011513E99ACQ37214137-7A0A8561-ADD9-4968-B5D8-A027DCC62033Q38843831-39D84B9E-93C1-43DD-97BD-20F39EA37AB0Q39743064-2AADAA1D-81AD-4A2D-A610-96616B095C40Q39798839-8A0B2270-E2ED-4AF6-8C9F-57CBBF7E8C8EQ39805205-726F0D28-E604-41B4-BB8C-A3421C93D90BQ39848495-A2BF684A-6890-47D2-90E2-E24F6AD63896Q41820161-B3810182-353C-4D2B-BAD6-0AAB6DFC336DQ41929640-29A204B8-52C2-4BBC-94DA-48AB725483CAQ41956242-4DD7F8F1-52D2-477A-83D8-06E05F5F0EFB
P2860
Terminal restriction fragment patterns: a tool for comparing microbial communities and assessing community dynamics.
description
2001 nî lūn-bûn
@nan
2001 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մարտին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Terminal restriction fragment ...... assessing community dynamics.
@ast
Terminal restriction fragment ...... assessing community dynamics.
@en
type
label
Terminal restriction fragment ...... assessing community dynamics.
@ast
Terminal restriction fragment ...... assessing community dynamics.
@en
prefLabel
Terminal restriction fragment ...... assessing community dynamics.
@ast
Terminal restriction fragment ...... assessing community dynamics.
@en
P1476
Terminal restriction fragment ...... assessing community dynamics.
@en
P2093
P577
2001-03-01T00:00:00Z