Using pyrosequencing and quantitative PCR to analyze microbial communities

Zhang, Husen

doi:10.1007/s11783-011-0303-9

Cited by 5 publications

(3 citation statements)

References 33 publications

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“…Since the landmark Global Ocean Sampling expedition began in 2003 (Rusch et al ., ), key developments including high‐throughput capabilities, multiplexing technologies and miniaturisation of sequencing chemistries continue to reduce the time and costs involved with sequencing (MacLean et al ., ). The greater affordability and accessibility of next‐generation sequencing (NGS) technologies such as massively parallel pyrosequencing has seen the volume and the application of sequencing dramatically increase from marine, terrestrial and extreme environments, to medical and artificial systems such as wastewater treatment plants (Nowrousian, ; Zhou et al ., ; Novais & Thorstenson, ; Zhang, ). Examination of natural and engineered microbial ecosystems using NGS is now prolific throughout the literature, with the trend likely to continue.…”

Section: Introductionmentioning

confidence: 99%

Community fingerprinting in a sequencing world

Dorst

Bissett

Palmer

et al. 2014

FEMS Microbiol Ecol

148

112

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Despite decreasing costs, generating large-scale, well-replicated and multivariate microbial ecology investigations with sequencing remains an expensive and time-consuming option. As a result, many microbial ecology investigations continue to suffer from a lack of appropriate replication. We evaluated two fingerprinting approaches - terminal restriction fragment length polymorphism (T-RFLP) and automated ribosomal intergenic spacer analysis (ARISA) against 454 pyrosequencing, by applying them to 225 polar soil samples from East Antarctica and the high Arctic. By incorporating local and global spatial scales into the dataset, our aim was to determine whether various approaches differed in their ability and hence utility, to identify ecological patterns. Through the reduction in the 454 sequencing data to the most dominant OTUs, we revealed that a surprisingly small proportion of abundant OTUs (< 0.25%) was driving the biological patterns observed. Overall, ARISA and T-RFLP had a similar capacity as sequencing to separate samples according to distance at a local scale, and to correlate environmental variables with microbial community structure. Pyrosequencing had a greater resolution at the global scale but all methods were capable of significantly differentiating the polar sites. We conclude fingerprinting remains a legitimate approach to generating large datasets as well as a cost-effective rapid method to identify samples for elucidating taxonomic information or diversity estimates with sequencing methods.

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Section: Introductionmentioning

confidence: 99%

Community fingerprinting in a sequencing world

Dorst

Bissett

Palmer

et al. 2014

FEMS Microbiol Ecol

148

112

View full text Add to dashboard Cite

show abstract

“…The successful application of high-throughput sequencing technologies has made it possible to explore microbial community dynamics with sufficient sequencing depth 14 . Importantly, the high-throughput can make sequencing much more time- and cost-effective 15 16 relative to conventional sequencing methods. Thus, it can facilitate comparative analysis among several samplings.…”

mentioning

confidence: 99%

Performance and microbial ecology of a nitritation sequencing batch reactor treating high-strength ammonia wastewater

Chen

Dai

Cao

et al. 2016

Sci Rep

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The partial nitrification (PN) performance and the microbial community variations were evaluated in a sequencing batch reactor (SBR) for 172 days, with the stepwise elevation of ammonium concentration. Free ammonia (FA) and low dissolved oxygen inhibition of nitrite-oxidized bacteria (NOB) were used to achieve nitritation in the SBR. During the 172 days operation, the nitrogen loading rate of the SBR was finally raised to 3.6 kg N/m3/d corresponding the influent ammonium of 1500 mg/L, with the ammonium removal efficiency and nitrite accumulation rate were 94.12% and 83.54%, respectively, indicating that the syntrophic inhibition of FA and low dissolved oxygen contributed substantially to the stable nitrite accumulation. The results of the 16S rRNA high-throughput sequencing revealed that Nitrospira, the only nitrite-oxidizing bacteria in the system, were successively inhibited and eliminated, and the SBR reactor was dominated finally by Nitrosomonas, the ammonium-oxidizing bacteria, which had a relative abundance of 83%, indicating that the Nitrosomonas played the primary roles on the establishment and maintaining of nitritation. Followed by Nitrosomonas, Anaerolineae (7.02%) and Saprospira (1.86%) were the other mainly genera in the biomass.

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“…Outra possível razão para a divergência dos dados, possivelmente, são as metodologias empregadas, incluindo o método de extração do DNA e a ferramenta molecular para analisála. Na maioria destes trabalhos empregou-se biblioteca de clones, técnica que, embora permita ter acesso à diversidade dos microrganismos não cultiváveis, gera poucos clones por amostra, o que não permite representar a total extensão da diversidade presente na área (ZHANG, 2011). Estes problemas tentam ser superados com o pirosequenciamento e a metagenômica, os quais são capazes de incrementar a resolução das análises da comunidade microbiana, permitindo conhecer melhor sua complexidade e interações dentro das amostras, além de ajudar a inferir na sua funcionalidade (CARDENAS;TIEDJE, 2008).…”

Section: Diversidade De Bactérias Por Pirosequenciamentounclassified

Descrição da microbiota relacionada às transformações do enxofre em sedimentos de manguezais

Lopez¹

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Description of the microbiota related with the sulfur transformations in mangroves sediments Mangroves are transitional environments between terrestrial and marine ecosystems, essential for the growth and development of many species with high ecological and economical interests. Despite its recognized importance, mangroves are constantly impacted by various pollutants, affecting its stability. These ecosystems are characterized as anaerobic, rich in sulfate and organic matter, where the microorganisms are essential to the nutrient cycling, particularly those involved in the sulfur cycle, where sulphate-reducing prokaryotes (SRP) appear as frequent and taking an important role. The present study showed that communities of archaea, bacteria and sulphate reducing bacteria (SRB) are abundant, diverse and responsive to state intervention of the mangrove. The abundance measured by qPCR showed that the quantities of archaea and bacteria increase with the contamination. The diversity studied by pyrosequencing of the 16S rDNA ribosomal gene indicated that these groups are diverse, showing Euryarcheota and Crenarcheota phyla of the domain Archaea, and Deltaproteobacteria and Gammaproteobacteria classes of the domain Bacteria, as the most frequent groups. The structure of these communities, as assessed by analysis of network, revealed that the microbiota responds to contamination, reducing and simplifying interactions in the higher contamination. The diversity of groups related with the sulfur cycle studied by DGGE (aprA and dsrB), pyrosequencing (dsrB) and GeoChip (aprA, dsrB) showed that Deltaproteobacteria, represented by orders Desulfobacterales and Desulfovibrionales, is a prevalent group in the sulfate reduction, while Gammaproteobacteria and Betaproteobacteria are frequent in the sulfur oxidation (sulfur-oxidising bacteria-SOB). The GeoChip (aprA, dsrB) was the only method that allowed to detect sulfate-reducing archaea (genera Archaeoglobus and Pyrobaculum), which is the first description of these organism on mangrove ecosystems. Thus, these results show that the microbiota in mangroves areas responds to contamination, having a high frequency of SRB and SOB, thus highlighting the importance of the sulfur cycle in mangrove environments.

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Using pyrosequencing and quantitative PCR to analyze microbial communities

Cited by 5 publications

References 33 publications

Community fingerprinting in a sequencing world

Community fingerprinting in a sequencing world

Performance and microbial ecology of a nitritation sequencing batch reactor treating high-strength ammonia wastewater

Descrição da microbiota relacionada às transformações do enxofre em sedimentos de manguezais

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