Use of multiplex terminal restriction fragment length polymorphism for rapid and simultaneous analysis of different components of the soil microbial community.
about
Terminal Restriction Fragment Length Polymorphism Analysis of Soil Bacterial Communities under Different Vegetation Types in Subtropical AreaBio-Augmentation of Cupriavidus sp. CY-1 into 2,4-D Contaminated Soil: Microbial Community Analysis by Culture Dependent and Independent TechniquesMicrobial diversity affects self-organization of the soil-microbe system with consequences for functionResponse of the soil microbial community to changes in precipitation in a semiarid ecosystemThe Role of Microbial Community Composition in Controlling Soil Respiration Responses to TemperatureStudying bacteria in respiratory specimens by using conventional and molecular microbiological approachesT-REX: software for the processing and analysis of T-RFLP data.Links between ammonia oxidizer community structure, abundance, and nitrification potential in acidic soils.Multiplex T-RFLP allows for increased target number and specificity: detection of Salmonella enterica and six species of Listeria in a single test.Characteristics of foliar fungal endophyte assemblages and host effective components in Salvia miltiorrhiza Bunge.Microbial communities respond to experimental warming, but site matters.Molecular biology-based methods for quantification of bacteria in mixed culture: perspectives and limitations.Identifying qualitative effects of different grazing types on below-ground communities and function in a long-term field experiment.Comparative effects of 3,4-dimethylpyrazole phosphate (DMPP) and dicyandiamide (DCD) on ammonia-oxidizing bacteria and archaea in a vegetable soil.Below-ground abiotic and biotic heterogeneity shapes above-ground infection outcomes and spatial divergence in a host-parasite interactionApplication of substrate utilization patterns and terminal restriction fragment length polymorphism analysis to characterize the oral bacterial community of healthy subjects and patients with periodontitis.Physical soil architectural traits are functionally linked to carbon decomposition and bacterial diversity.Soil microbial communities influence seedling growth of a rare conifer independent of plant-soil feedback.Influence of geogenic factors on microbial communities in metallogenic Australian soils.Distinct Habitats Select Particular Bacterial Communities in Mangrove SedimentsGeogenic Factors as Drivers of Microbial Community Diversity in Soils Overlying Polymetallic Deposits.The enigma of soil animal species diversity revisited: the role of small-scale heterogeneity.Loss of microbial diversity in soils is coincident with reductions in some specialized functions.Community fingerprinting in a sequencing world.Microorganism communities and chemical characteristics in sludge-bamboo charcoal composting system.Mutualisms are not constraining cross-continental invasion success of Acacia species within AustraliaRelative importance of soil properties and microbial community for soil functionality: insights from a microbial swap experimentEndophyte community composition is associated with dieback occurrence in an invasive treeConservation by translocation: establishment of Wollemi pine and associated microbial communities in novel environmentsTaxonomic and Functional Diversity of a Quercus pyrenaica Willd. Rhizospheric Microbiome in the Mediterranean MountainsMultiplex-terminal restriction fragment length polymorphism
P2860
Q28548527-DDE68F6F-4151-4123-8C13-355421EE4BD8Q28551922-A0CC2EDD-44AF-4051-8A2A-473CFE232B0CQ28729998-9CA283DD-4341-47D8-BB1C-75D06F36C774Q30571350-8D8BDC53-EAD8-4A28-A71A-B9123056A7BFQ31140221-BFF4C2AE-9500-4E42-A1BA-7071EA373D6AQ33430526-E3579CA9-864E-4B72-AB73-8CA5B2953BDFQ33461883-2BB047FD-2C38-4349-9BD7-08DE9EB89D62Q33899865-9F650588-9D18-48AD-8C35-C6DA1700AC73Q34399285-1A1731DF-520A-4A85-8E8D-72EC4B306B74Q35022135-C8B362F2-4117-44D4-AD85-6285271CFFD9Q35162831-4D40773E-68A8-4A7E-BC3A-48342024CAC3Q35188107-19822D93-F65B-4162-B05F-7823E94BC597Q35189250-599DCA65-1D5E-47D5-83D7-A2501CBFCAF7Q35235281-2D573494-4548-486D-8185-ED4B4E3967F7Q35600991-5F7747B0-5E67-4B73-9B43-3B8D0952083EQ35753984-DC3199F3-41F7-4D54-9765-FE3FA9A868CBQ36129470-124EC684-86BB-41EA-A19B-AF1D07CA8974Q36212112-45EA0D00-CF9A-4453-8125-44C5FFF6EED0Q36330205-DCC70DC9-871C-429D-8CEC-190F8DACA605Q38708584-83BB7187-7446-4590-B883-CABFDEF1B278Q40572337-F869812F-CC9C-4520-82C5-3E5DD5645D93Q42056041-00E8EDB1-E4D9-4CE2-AB57-E5A2536406C0Q45895724-6D21E5D7-D471-490F-BC66-E5486DAB23B3Q51465907-FA27FD23-9A55-4531-9A68-D610DF7DB4BDQ54351637-95F0DDB9-3465-4B55-8AB6-D7B12500381AQ56545129-299BF6F0-0C75-4CAA-8AF6-C1625EDEA4F6Q56965226-E4DFC8A4-0A00-4D2C-AE44-73312B7375D2Q57054900-A62BA4F9-E636-41A6-B3FD-0E18A8E0C0F0Q57070058-24F21206-8725-47F8-B8E0-5B5B27EE8AAAQ57231550-13720AC3-17E3-48F7-B44C-A635541DC283Q57273493-3570E44A-D96D-4158-B4C5-2715375DB919
P2860
Use of multiplex terminal restriction fragment length polymorphism for rapid and simultaneous analysis of different components of the soil microbial community.
description
2006 nî lūn-bûn
@nan
2006 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Use of multiplex terminal rest ...... the soil microbial community.
@ast
Use of multiplex terminal rest ...... the soil microbial community.
@en
type
label
Use of multiplex terminal rest ...... the soil microbial community.
@ast
Use of multiplex terminal rest ...... the soil microbial community.
@en
prefLabel
Use of multiplex terminal rest ...... the soil microbial community.
@ast
Use of multiplex terminal rest ...... the soil microbial community.
@en
P2093
P2860
P356
P1476
Use of multiplex terminal rest ...... f the soil microbial community
@en
P2093
Ian C Anderson
Loic Nazaries
Stacey Munro
P2860
P304
P356
10.1128/AEM.00510-06
P407
P577
2006-08-25T00:00:00Z