Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions

Stolze Y, Zakrzewski M, Maus I, Eikmeyer FG, Jaenicke S, Rottmann N, Siebner C, Pühler A, Schlüter A (2015)
Biotechnology for Biofuels 8(1): 14.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
URN
urn:nbn:de:0070-pub-27223829
Autor*in
Stolze, YvonneUniBi; Zakrzewski, Martha; Maus, IrenaUniBi; Eikmeyer, Felix GregorUniBi ; Jaenicke, SebastianUniBi; Rottmann, Nils; Siebner, Clemens; Pühler, AlfredUniBi ; Schlüter, AndreasUniBi
Einrichtung
Centrum für Biotechnologie > Arbeitsgruppe A. Pühler
Centrum für Biotechnologie > Graduate Center > Graduate Cluster Industrial Biotechnology
Centrum für Biotechnologie > Institut für Genomforschung und Systembiologie
Centrum für Biotechnologie > Technologieplattformen > Bioinformatics Resource Facility
Abstract / Bemerkung
Background Decomposition of biomass for biogas production can be practiced under wet and dry fermentation conditions. In contrast to the dry fermentation technology, wet fermentation is characterized by a high liquid content and a relatively low total solid content. In this study, the composition and functional potential of a biogas-producing microbial community in an agricultural biogas reactor operating under wet fermentation conditions was analyzed by a metagenomic approach applying 454-pyrosequencing. The obtained metagenomic dataset and corresponding 16S rRNA gene amplicon sequences were compared to the previously sequenced comparable metagenome from a dry fermentation process, meeting explicitly identical boundary conditions regarding sample and community DNA preparation, sequencing technology, processing of sequence reads and data analyses by bioinformatics tools. Results High-throughput metagenome sequencing of community DNA from the wet fermentation process applying the pyrosequencing approach resulted in 1,532,780 reads, with an average read length of 397 bp, accounting for approximately 594 million bases of sequence information in total. Taxonomic comparison of the communities from wet and dry fermentation revealed similar microbial profiles with Bacteria being the predominant superkingdom, while the superkingdom Archaea was less abundant. In both biogas plants, the bacterial phyla Firmicutes, Bacteroidetes, Spirochaetes and Proteobacteria were identified with descending frequencies. Within the archaeal superkingdom, the phylum Euryarchaeota was most abundant with the dominant class Methanomicrobia. Functional profiles of the communities revealed that environmental gene tags representing methanogenesis enzymes were present in both biogas plants in comparable frequencies. 16S rRNA gene amplicon high-throughput sequencing disclosed differences in the sub-communities comprising methanogenic Archaea between both processes. Fragment recruitments of metagenomic reads to the reference genome of the archaeon Methanoculleus bourgensis MS2T revealed that dominant methanogens within the dry fermentation process were highly related to the reference. Conclusions Although process parameters, substrates and technology differ between the wet and dry biogas fermentations analyzed in this study, community profiles are very similar at least at higher taxonomic ranks, illustrating that core community taxa perform key functions in biomass decomposition and methane synthesis. Regarding methanogenesis, Archaea highly related to the type strain M. bourgensis MS2T dominate the dry fermentation process, suggesting the adaptation of members belonging to this species to specific fermentation process parameters.
Stichworte
Biogas; Dry fermentation; Wet fermentation; Microbial communities; Methanogenesis; Metagenomics; 16S rRNA; Methanoculleus bourgensis; Fragment recruitment
Erscheinungsjahr
2015
Zeitschriftentitel
Biotechnology for Biofuels
Band
8
Ausgabe
1
Art.-Nr.
14
ISSN
1754-6834
eISSN
1754-6834
Page URI
https://pub.uni-bielefeld.de/record/2722382

Zitieren

Stolze Y, Zakrzewski M, Maus I, et al. Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions. Biotechnology for Biofuels. 2015;8(1): 14.
Stolze, Y., Zakrzewski, M., Maus, I., Eikmeyer, F. G., Jaenicke, S., Rottmann, N., Siebner, C., et al. (2015). Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions. Biotechnology for Biofuels, 8(1), 14. doi:10.1186/s13068-014-0193-8
Stolze, Yvonne, Zakrzewski, Martha, Maus, Irena, Eikmeyer, Felix Gregor, Jaenicke, Sebastian, Rottmann, Nils, Siebner, Clemens, Pühler, Alfred, and Schlüter, Andreas. 2015. “Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions”. Biotechnology for Biofuels 8 (1): 14.
Stolze, Y., Zakrzewski, M., Maus, I., Eikmeyer, F. G., Jaenicke, S., Rottmann, N., Siebner, C., Pühler, A., and Schlüter, A. (2015). Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions. Biotechnology for Biofuels 8:14.
Stolze, Y., et al., 2015. Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions. Biotechnology for Biofuels, 8(1): 14.
Y. Stolze, et al., “Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions”, Biotechnology for Biofuels, vol. 8, 2015, : 14.
Stolze, Y., Zakrzewski, M., Maus, I., Eikmeyer, F.G., Jaenicke, S., Rottmann, N., Siebner, C., Pühler, A., Schlüter, A.: Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions. Biotechnology for Biofuels. 8, : 14 (2015).
Stolze, Yvonne, Zakrzewski, Martha, Maus, Irena, Eikmeyer, Felix Gregor, Jaenicke, Sebastian, Rottmann, Nils, Siebner, Clemens, Pühler, Alfred, and Schlüter, Andreas. “Comparative metagenomics of biogas-producing microbial communities from production-scale biogas plants operating under wet or dry fermentation conditions”. Biotechnology for Biofuels 8.1 (2015): 14.
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Deublein D, Steinhauser A., 2010
Comparative genome analysis of Prevotella ruminicola and Prevotella bryantii: insights into their environmental niche.
Purushe J, Fouts DE, Morrison M, White BA, Mackie RI; North American Consortium for Rumen Bacteria, Coutinho PM, Henrissat B, Nelson KE, Cann IK, Mackie RI, White BA, Forsberg CW, Mongodin E, Daugherty S, Russell JB, Wilson DB, Nelson WC, Nelson KE, Morrison M., Microb. Ecol. 60(4), 2010
PMID: 20585943
Anaerobic digestion of slaughterhouse waste: main process limitations and microbial community interactions.
Palatsi J, Vinas M, Guivernau M, Fernandez B, Flotats X., Bioresour. Technol. 102(3), 2010
PMID: 21030248
Aminobacterium colombiensegen. nov. sp. nov., an amino acid-degrading anaerobe isolated from anaerobic sludge.
Baena S, Fardeau ML, Labat M, Ollivier B, Thomas P, Garcia JL, Patel BK., Anaerobe 4(5), 1998
PMID: 16887649
Complete genome sequence of Aminobacterium colombiense type strain (ALA-1).
Chertkov O, Sikorski J, Brambilla E, Lapidus A, Copeland A, Glavina Del Rio T, Nolan M, Lucas S, Tice H, Cheng JF, Han C, Detter JC, Bruce D, Tapia R, Goodwin L, Pitluck S, Liolios K, Ivanova N, Mavromatis K, Ovchinnikova G, Pati A, Chen A, Palaniappan K, Land M, Hauser L, Chang YJ, Jeffries CD, Spring S, Rohde M, Goker M, Bristow J, Eisen JA, Markowitz V, Hugenholtz P, Kyrpides NC, Klenk HP., Stand Genomic Sci 2(3), 2010
PMID: 21304712
"Candidatus Cloacamonas acidaminovorans": genome sequence reconstruction provides a first glimpse of a new bacterial division.
Pelletier E, Kreimeyer A, Bocs S, Rouy Z, Gyapay G, Chouari R, Riviere D, Ganesan A, Daegelen P, Sghir A, Cohen GN, Medigue C, Weissenbach J, Le Paslier D., J. Bacteriol. 190(7), 2008
PMID: 18245282
Phylogenetic characterization of a biogas plant microbial community integrating clone library 16S-rDNA sequences and metagenome sequence data obtained by 454-pyrosequencing.
Krober M, Bekel T, Diaz NN, Goesmann A, Jaenicke S, Krause L, Miller D, Runte KJ, Viehover P, Puhler A, Schluter A., J. Biotechnol. 142(1), 2009
PMID: 19480946
Complete genome sequence of the hydrogenotrophic, methanogenic archaeon Methanoculleus bourgensis strain MS2(T), Isolated from a sewage sludge digester.
Maus I, Wibberg D, Stantscheff R, Eikmeyer FG, Seffner A, Boelter J, Szczepanowski R, Blom J, Jaenicke S, Konig H, Puhler A, Schluter A., J. Bacteriol. 194(19), 2012
PMID: 22965103
Searching for links in the biotic characteristics and abiotic parameters of nine different biogas plants.
Walter A, Knapp BA, Farbmacher T, Ebner C, Insam H, Franke-Whittle IH., Microb Biotechnol 5(6), 2012
PMID: 22950603
Methanosaeta, the forgotten methanogen?
Smith KS, Ingram-Smith C., Trends Microbiol. 15(4), 2007
PMID: 17320399
Profiling of the metabolically active community from a production-scale biogas plant by means of high-throughput metatranscriptome sequencing.
Zakrzewski M, Goesmann A, Jaenicke S, Junemann S, Eikmeyer F, Szczepanowski R, Al-Soud WA, Sorensen S, Puhler A, Schluter A., J. Biotechnol. 158(4), 2012
PMID: 22342600
Methanomassiliicoccus luminyensis gen. nov., sp. nov., a methanogenic archaeon isolated from human faeces.
Dridi B, Fardeau ML, Ollivier B, Raoult D, Drancourt M., Int. J. Syst. Evol. Microbiol. 62(Pt 8), 2012
PMID: 22859731
Rfam: an RNA family database.
Griffiths-Jones S, Bateman A, Marshall M, Khanna A, Eddy SR., Nucleic Acids Res. 31(1), 2003
PMID: 12520045
Polyphasic analyses of methanogenic archaeal communities in agricultural biogas plants.
Nettmann E, Bergmann I, Pramschufer S, Mundt K, Plogsties V, Herrmann C, Klocke M., Appl. Environ. Microbiol. 76(8), 2010
PMID: 20154117
Methanobacterium kanagiense sp. nov., a hydrogenotrophic methanogen, isolated from rice-field soil.
Kitamura K, Fujita T, Akada S, Tonouchi A., Int. J. Syst. Evol. Microbiol. 61(Pt 6), 2010
PMID: 20639228
Methanobrevibacter millerae sp. nov. and Methanobrevibacter olleyae sp. nov., methanogens from the ovine and bovine rumen that can utilize formate for growth.
Rea S, Bowman JP, Popovski S, Pimm C, Wright AD., Int. J. Syst. Evol. Microbiol. 57(Pt 3), 2007
PMID: 17329767
Complete genome sequence of Streptococcus suis serotype 3 strain ST3.
Hu P, Yang M, Zhang A, Wu J, Chen B, Hua Y, Yu J, Chen H, Xiao J, Jin M., J. Bacteriol. 193(13), 2011
PMID: 21572001
Complete genome sequence of the cellulolytic thermophile Clostridium thermocellum DSM1313.
Feinberg L, Foden J, Barrett T, Davenport KW, Bruce D, Detter C, Tapia R, Han C, Lapidus A, Lucas S, Cheng JF, Pitluck S, Woyke T, Ivanova N, Mikhailova N, Land M, Hauser L, Argyros DA, Goodwin L, Hogsett D, Caiazza N., J. Bacteriol. 193(11), 2011
PMID: 21460082
Genome sequence of Streptococcus gallolyticus: insights into its adaptation to the bovine rumen and its ability to cause endocarditis.
Rusniok C, Couve E, Da Cunha V, El Gana R, Zidane N, Bouchier C, Poyart C, Leclercq R, Trieu-Cuot P, Glaser P., J. Bacteriol. 192(8), 2010
PMID: 20139183
Insights into the completely annotated genome of Lactobacillus buchneri CD034, a strain isolated from stable grass silage.
Heinl S, Wibberg D, Eikmeyer F, Szczepanowski R, Blom J, Linke B, Goesmann A, Grabherr R, Schwab H, Puhler A, Schluter A., J. Biotechnol. 161(2), 2012
PMID: 22465289
Complete genome and proteome of Acholeplasma laidlawii.
Lazarev VN, Levitskii SA, Basovskii YI, Chukin MM, Akopian TA, Vereshchagin VV, Kostrjukova ES, Kovaleva GY, Kazanov MD, Malko DB, Vitreschak AG, Sernova NV, Gelfand MS, Demina IA, Serebryakova MV, Galyamina MA, Vtyurin NN, Rogov SI, Alexeev DG, Ladygina VG, Govorun VM., J. Bacteriol. 193(18), 2011
PMID: 21784942
Complete genome sequence of Mahella australiensis type strain (50-1 BON).
Sikorski J, Teshima H, Nolan M, Lucas S, Hammon N, Deshpande S, Cheng JF, Pitluck S, Liolios K, Pagani I, Ivanova N, Huntemann M, Mavromatis K, Ovchinikova G, Pati A, Tapia R, Han C, Goodwin L, Chen A, Palaniappan K, Land M, Hauser L, Ngatchou-Djao OD, Rohde M, Pukall R, Spring S, Abt B, Goker M, Detter JC, Woyke T, Bristow J, Markowitz V, Hugenholtz P, Eisen JA, Kyrpides NC, Klenk HP, Lapidus A., Stand Genomic Sci 4(3), 2011
PMID: 21886860
Genomic characterization of methanomicrobiales reveals three classes of methanogens.
Anderson I, Ulrich LE, Lupa B, Susanti D, Porat I, Hooper SD, Lykidis A, Sieprawska-Lupa M, Dharmarajan L, Goltsman E, Lapidus A, Saunders E, Han C, Land M, Lucas S, Mukhopadhyay B, Whitman WB, Woese C, Bristow J, Kyrpides N., PLoS ONE 4(6), 2009
PMID: 19495416
Complete genome sequence of Methanoculleus marisnigri Romesser et al. 1981 type strain JR1.
Anderson IJ, Sieprawska-Lupa M, Lapidus A, Nolan M, Copeland A, Glavina Del Rio T, Tice H, Dalin E, Barry K, Saunders E, Han C, Brettin T, Detter JC, Bruce D, Mikhailova N, Pitluck S, Hauser L, Land M, Lucas S, Richardson P, Whitman WB, Kyrpides NC., Stand Genomic Sci 1(2), 2009
PMID: 21304656
Desulfotomaculum carboxydivorans sp. nov., a novel sulfate-reducing bacterium capable of growth at 100% CO.
Parshina SN, Sipma J, Nakashimada Y, Henstra AM, Smidt H, Lysenko AM, Lens PN, Lettinga G, Stams AJ., Int. J. Syst. Evol. Microbiol. 55(Pt 5), 2005
PMID: 16166725
Evolutionary dynamics of Clostridium difficile over short and long time scales.
He M, Sebaihia M, Lawley TD, Stabler RA, Dawson LF, Martin MJ, Holt KE, Seth-Smith HM, Quail MA, Rance R, Brooks K, Churcher C, Harris D, Bentley SD, Burrows C, Clark L, Corton C, Murray V, Rose G, Thurston S, van Tonder A, Walker D, Wren BW, Dougan G, Parkhill J., Proc. Natl. Acad. Sci. U.S.A. 107(16), 2010
PMID: 20368420
Complete genome sequence of Thermanaerovibrio acidaminovorans type strain (Su883).
Chovatia M, Sikorski J, Schroder M, Lapidus A, Nolan M, Tice H, Glavina Del Rio T, Copeland A, Cheng JF, Lucas S, Chen F, Bruce D, Goodwin L, Pitluck S, Ivanova N, Mavromatis K, Ovchinnikova G, Pati A, Chen A, Palaniappan K, Land M, Hauser L, Chang YJ, Jeffries CD, Chain P, Saunders E, Detter JC, Brettin T, Rohde M, Goker M, Spring S, Bristow J, Markowitz V, Hugenholtz P, Kyrpides NC, Klenk HP, Eisen JA., Stand Genomic Sci 1(3), 2009
PMID: 21304665
The genome of Syntrophomonas wolfei: new insights into syntrophic metabolism and biohydrogen production.
Sieber JR, Sims DR, Han C, Kim E, Lykidis A, Lapidus AL, McDonnald E, Rohlin L, Culley DE, Gunsalus R, McInerney MJ., Environ. Microbiol. 12(8), 2010
PMID: 21966920
The genome of Clostridium kluyveri, a strict anaerobe with unique metabolic features.
Seedorf H, Fricke WF, Veith B, Bruggemann H, Liesegang H, Strittmatter A, Miethke M, Buckel W, Hinderberger J, Li F, Hagemeier C, Thauer RK, Gottschalk G., Proc. Natl. Acad. Sci. U.S.A. 105(6), 2008
PMID: 18218779
Sequencing of multiple clostridial genomes related to biomass conversion and biofuel production.
Hemme CL, Mouttaki H, Lee YJ, Zhang G, Goodwin L, Lucas S, Copeland A, Lapidus A, Glavina del Rio T, Tice H, Saunders E, Brettin T, Detter JC, Han CS, Pitluck S, Land ML, Hauser LJ, Kyrpides N, Mikhailova N, He Z, Wu L, Van Nostrand JD, Henrissat B, He Q, Lawson PA, Tanner RS, Lynd LR, Wiegel J, Fields MW, Arkin AP, Schadt CW, Stevenson BS, McInerney MJ, Yang Y, Dong H, Xing D, Ren N, Wang A, Huhnke RL, Mielenz JR, Ding SY, Himmel ME, Taghavi S, van der Lelie D, Rubin EM, Zhou J., J. Bacteriol. 192(24), 2010
PMID: 20889752
Complete genome and comparative analysis of Streptococcus gallolyticus subsp. gallolyticus, an emerging pathogen of infective endocarditis.
Hinse D, Vollmer T, Ruckert C, Blom J, Kalinowski J, Knabbe C, Dreier J., BMC Genomics 12(), 2011
PMID: 21824414
Reappraisal of the taxonomy of the Streptococcus bovis/Streptococcus equinus complex and related species: description of Streptococcus gallolyticus subsp. gallolyticus subsp. nov., S. gallolyticus subsp. macedonicus subsp. nov. and S. gallolyticus subsp. pasteurianus subsp. nov.
Schlegel L, Grimont F, Ageron E, Grimont PA, Bouvet A., Int. J. Syst. Evol. Microbiol. 53(Pt 3), 2003
PMID: 12807180
Complete genome sequence of the dairy isolate Streptococcus macedonicus ACA-DC 198.
Papadimitriou K, Ferreira S, Papandreou NC, Mavrogonatou E, Supply P, Pot B, Tsakalidou E., J. Bacteriol. 194(7), 2012
PMID: 22408241
MicrobesFlux: a web platform for drafting metabolic models from the KEGG database.
Feng X, Xu Y, Chen Y, Tang YJ., BMC Syst Biol 6(), 2012
PMID: 22857267
Taxonomic distinction of saccharolytic thermophilic anaerobes: description of Thermoanaerobacterium xylanolyticum gen. nov., sp. nov., and Thermoanaerobacterium saccharolyticum gen. nov., sp. nov.; reclassification of Thermoanaerobium brockii, Clostridium thermosulfurogenes, and Clostridium thermohydrosulfuricum E100-69 as Thermoanaerobacter brockii comb. nov., Thermoanaerobacterium thermosulfurigenes comb. nov., and Thermoanaerobacter thermohydrosulfuricus comb. nov., respectively; and transfer of Clostridium thermohydrosulfuricum 39E to Thermoanaerobacter ethanolicus
Lee YE, Jain MK, Lee C, Zeikus JG., 1993
Reconstruction and regulation of the central catabolic pathway in the thermophilic propionate-oxidizing syntroph Pelotomaculum thermopropionicum.
Kosaka T, Uchiyama T, Ishii S, Enoki M, Imachi H, Kamagata Y, Ohashi A, Harada H, Ikenaga H, Watanabe K., J. Bacteriol. 188(1), 2006
PMID: 16352836
The genome of Pelotomaculum thermopropionicum reveals niche-associated evolution in anaerobic microbiota.
Kosaka T, Kato S, Shimoyama T, Ishii S, Abe T, Watanabe K., Genome Res. 18(3), 2008
PMID: 18218977
Comparison of the mesophilic cellulosome-producing Clostridium cellulovorans genome with other cellulosome-related clostridial genomes.
Tamaru Y, Miyake H, Kuroda K, Nakanishi A, Matsushima C, Doi RH, Ueda M., Microb Biotechnol 4(1), 2011
PMID: 21255373
Petrotoga mobilis sp. nov., from a North Sea oil-production well.
Lien T, Madsen M, Rainey FA, Birkeland NK., Int. J. Syst. Bacteriol. 48 Pt 3(), 1998
PMID: 9734057
Genome sequence of the thermophile Bacillus coagulans Hammer, the type strain of the species.
Su F, Tao F, Tang H, Xu P., J. Bacteriol. 194(22), 2012
PMID: 23105047
Complete genome sequence of Syntrophothermus lipocalidus type strain (TGB-C1).
Djao OD, Zhang X, Lucas S, Lapidus A, Del Rio TG, Nolan M, Tice H, Cheng JF, Han C, Tapia R, Goodwin L, Pitluck S, Liolios K, Ivanova N, Mavromatis K, Mikhailova N, Ovchinnikova G, Pati A, Brambilla E, Chen A, Palaniappan K, Land M, Hauser L, Chang YJ, Jeffries CD, Rohde M, Sikorski J, Spring S, Goker M, Detter JC, Woyke T, Bristow J, Eisen JA, Markowitz V, Hugenholtz P, Kyrpides NC, Klenk HP., Stand Genomic Sci 3(3), 2010
PMID: 21304731
Effect of biowaste sludge maturation on the diversity of thermophilic bacteria and archaea in an anaerobic reactor.
Goberna M, Insam H, Franke-Whittle IH., Appl. Environ. Microbiol. 75(8), 2009
PMID: 19218417
Fungal volatiles as indicators of food and feeds spoilage.
Schnurer J, Olsson J, Borjesson T., Fungal Genet. Biol. 27(2-3), 1999
PMID: 10441446
Sequencing and comparative genome analysis of two pathogenic Streptococcus gallolyticus subspecies: genome plasticity, adaptation and virulence.
Lin IH, Liu TT, Teng YT, Wu HL, Liu YM, Wu KM, Chang CH, Hsu MT., PLoS ONE 6(5), 2011
PMID: 21633709
Identification of genes and genomic islands correlated with high pathogenicity in Streptococcus suis using whole genome tiling microarrays.
Zheng X, Zheng H, Lan R, Ye C, Wang Y, Zhang J, Jing H, Chen C, Segura M, Gottschalk M, Xu J., PLoS ONE 6(3), 2011
PMID: 21479213
Complete genome sequencing of Agrobacterium sp. H13-3, the former Rhizobium lupini H13-3, reveals a tripartite genome consisting of a circular and a linear chromosome and an accessory plasmid but lacking a tumor-inducing Ti-plasmid.
Wibberg D, Blom J, Jaenicke S, Kollin F, Rupp O, Scharf B, Schneiker-Bekel S, Sczcepanowski R, Goesmann A, Setubal JC, Schmitt R, Puhler A, Schluter A., J. Biotechnol. 155(1), 2011
PMID: 21329740
QIIME allows analysis of high-throughput community sequencing data.
Caporaso JG, Kuczynski J, Stombaugh J, Bittinger K, Bushman FD, Costello EK, Fierer N, Pena AG, Goodrich JK, Gordon JI, Huttley GA, Kelley ST, Knights D, Koenig JE, Ley RE, Lozupone CA, McDonald D, Muegge BD, Pirrung M, Reeder J, Sevinsky JR, Turnbaugh PJ, Walters WA, Widmann J, Yatsunenko T, Zaneveld J, Knight R., Nat. Methods 7(5), 2010
PMID: 20383131
Search and clustering orders of magnitude faster than BLAST.
Edgar RC., Bioinformatics 26(19), 2010
PMID: 20709691
UCHIME improves sensitivity and speed of chimera detection.
Edgar RC, Haas BJ, Clemente JC, Quince C, Knight R., Bioinformatics 27(16), 2011
PMID: 21700674
Naive Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy.
Wang Q, Garrity GM, Tiedje JM, Cole JR., Appl. Environ. Microbiol. 73(16), 2007
PMID: 17586664
Infernal 1.0: inference of RNA alignments.
Nawrocki EP, Kolbe DL, Eddy SR., Bioinformatics 25(10), 2009
PMID: 19307242
FastTree: computing large minimum evolution trees with profiles instead of a distance matrix.
Price MN, Dehal PS, Arkin AP., Mol. Biol. Evol. 26(7), 2009
PMID: 19377059
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