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1. Genomics, Exometabolomics, and Metabolic Probing Reveal Conserved Proteolytic Metabolism of Thermoflexus hugenholtzii and Three Candidate Species From China and Japan

Author

Thomas, Scott C, Payne, Devon, Tamadonfar, Kevin O, Seymour, Cale O, Jiao, Jian-Yu, Murugapiran, Senthil K, Lai, Dengxun, Lau, Rebecca, Bowen, Benjamin P, Silva, Leslie P, Louie, Katherine B, Huntemann, Marcel, Clum, Alicia, Spunde, Alex, Pillay, Manoj, Palaniappan, Krishnaveni, Varghese, Neha, Mikhailova, Natalia, Chen, I-Min, Stamatis, Dimitrios, Reddy, TBK, O’Malley, Ronan, Daum, Chris, Shapiro, Nicole, Ivanova, Natalia, Kyrpides, Nikos C, Woyke, Tanja, Eloe-Fadrosh, Emiley, Hamilton, Trinity L, Dijkstra, Paul, Dodsworth, Jeremy A, Northen, Trent R, Li, Wen-Jun, and Hedlund, Brian P

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, exometabolomics, thermophile, genomics, Chloroflexi, Thermoflexus, Thermoflexus hugenholtzii, metagenome-assembled genomes, Environmental Science and Management, Soil Sciences, Microbiology, Medical microbiology
Abstract

Thermoflexus hugenholtzii JAD2T, the only cultured representative of the Chloroflexota order Thermoflexales, is abundant in Great Boiling Spring (GBS), NV, United States, and close relatives inhabit geothermal systems globally. However, no defined medium exists for T. hugenholtzii JAD2T and no single carbon source is known to support its growth, leaving key knowledge gaps in its metabolism and nutritional needs. Here, we report comparative genomic analysis of the draft genome of T. hugenholtzii JAD2T and eight closely related metagenome-assembled genomes (MAGs) from geothermal sites in China, Japan, and the United States, representing "Candidatus Thermoflexus japonica," "Candidatus Thermoflexus tengchongensis," and "Candidatus Thermoflexus sinensis." Genomics was integrated with targeted exometabolomics and 13C metabolic probing of T. hugenholtzii. The Thermoflexus genomes each code for complete central carbon metabolic pathways and an unusually high abundance and diversity of peptidases, particularly Metallo- and Serine peptidase families, along with ABC transporters for peptides and some amino acids. The T. hugenholtzii JAD2T exometabolome provided evidence of extracellular proteolytic activity based on the accumulation of free amino acids. However, several neutral and polar amino acids appear not to be utilized, based on their accumulation in the medium and the lack of annotated transporters. Adenine and adenosine were scavenged, and thymine and nicotinic acid were released, suggesting interdependency with other organisms in situ. Metabolic probing of T. hugenholtzii JAD2T using 13C-labeled compounds provided evidence of oxidation of glucose, pyruvate, cysteine, and citrate, and functioning glycolytic, tricarboxylic acid (TCA), and oxidative pentose-phosphate pathways (PPPs). However, differential use of position-specific 13C-labeled compounds showed that glycolysis and the TCA cycle were uncoupled. Thus, despite the high abundance of Thermoflexus in sediments of some geothermal systems, they appear to be highly focused on chemoorganotrophy, particularly protein degradation, and may interact extensively with other microorganisms in situ.

Published
2021

2. Position-Specific Metabolic Probing and Metagenomics of Microbial Communities Reveal Conserved Central Carbon Metabolic Network Activities at High Temperatures

Author

Thomas, Scott C, Tamadonfar, Kevin O, Seymour, Cale O, Lai, Dengxun, Dodsworth, Jeremy A, Murugapiran, Senthil K, Eloe-Fadrosh, Emiley A, Dijkstra, Paul, and Hedlund, Brian P

Subjects
Microbiology, Biological Sciences, Industrial Biotechnology, Life Below Water, Affordable and Clean Energy, C-13 stable isotope, isotopomers, heterotrophy, catabolic, anabolic, thermophile, hyperthermophile, diversity, 13C stable isotope, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

Temperature is a primary driver of microbial community composition and taxonomic diversity; however, it is unclear to what extent temperature affects characteristics of central carbon metabolic pathways (CCMPs) at the community level. In this study, 16S rRNA gene amplicon and metagenome sequencing were combined with 13C-labeled metabolite probing of the CCMPs to assess community carbon metabolism along a temperature gradient (60-95°C) in Great Boiling Spring, NV. 16S rRNA gene amplicon diversity was inversely proportional to temperature, and Archaea were dominant at higher temperatures. KO richness and diversity were also inversely proportional to temperature, yet CCMP genes were similarly represented across the temperature gradient and many individual metagenome-assembled genomes had complete pathways. In contrast, genes encoding cellulosomes and many genes involved in plant matter degradation and photosynthesis were absent at higher temperatures. In situ 13C-CO2 production from labeled isotopomer pairs of glucose, pyruvate, and acetate suggested lower relative oxidative pentose phosphate pathway activity and/or fermentation at 60°C, and a stable or decreased maintenance energy demand at higher temperatures. Catabolism of 13C-labeled citrate, succinate, L-alanine, L-serine, and L-cysteine was observed at 85°C, demonstrating broad heterotrophic activity and confirming functioning of the TCA cycle. Together, these results suggest that temperature-driven losses in biodiversity and gene content in geothermal systems may not alter CCMP function or maintenance energy demands at a community level.

Published
2019

3. High-Quality Draft Genome Sequence of Thermocrinis jamiesonii GBS1T Isolated from Great Boiling Spring, Nevada

Author

Ganji, Rakesh, Murugapiran, Senthil K, Ong, John C, Manoharan, Namritha, Huntemann, Marcel, Clum, Alicia, Pillay, Manoj, Palaniappan, Krishnaveni, Varghese, Neha, Mikhailova, Natalia, Stamatis, Dimitrios, Reddy, TBK, Ngan, Chew Yee, Daum, Chris, Duffy, Kecia, Shapiro, Nicole, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, Woyke, Tanja, Dodsworth, Jeremy A, and Hedlund, Brian P

Subjects
Microbiology, Biological Sciences, Genetics
Abstract

The draft genome of Thermocrinis jamiesonii GBS1T is 1,315,625 bp in 10 contigs and encodes 1,463 predicted genes. The presence of sox genes and various glycoside hydrolases and the absence of uptake NiFe hydrogenases (hyaB) are consistent with a requirement for thiosulfate and suggest the ability to use carbohydrate polymers.

Published
2016

4. High-Quality Draft Genomes from Thermus caliditerrae YIM 77777 and T. tengchongensis YIM 77401, Isolates from Tengchong, China

Author

Mefferd, Chrisabelle C, Zhou, En-Min, Yu, Tian-Tian, Ming, Hong, Murugapiran, Senthil K, Huntemann, Marcel, Clum, Alicia, Pillay, Manoj, Palaniappan, Krishnaveni, Varghese, Neha, Mikhailova, Natalia, Stamatis, Dimitrios, Reddy, TBK, Ngan, Chew Yee, Daum, Chris, Duffy, Kecia, Shapiro, Nicole, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, Williams, Amanda J, Woyke, Tanja, Li, Wen-Jun, and Hedlund, Brian P

Subjects
Microbiology, Biological Sciences, Genetics
Abstract

The draft genomes of Thermus  tengchongensis YIM 77401 and T. caliditerrae YIM 77777 are 2,562,314 and 2,218,114 bp and encode 2,726 and 2,305 predicted genes, respectively. Gene content and growth experiments demonstrate broad metabolic capacity, including starch hydrolysis, thiosulfate oxidation, arsenite oxidation, incomplete denitrification, and polysulfide reduction.

Published
2016

5. Phylogeny and physiology of candidate phylum ‘Atribacteria’ (OP9/JS1) inferred from cultivation-independent genomics

Author

Nobu, Masaru K, Dodsworth, Jeremy A, Murugapiran, Senthil K, Rinke, Christian, Gies, Esther A, Webster, Gordon, Schwientek, Patrick, Kille, Peter, Parkes, R John, Sass, Henrik, Jørgensen, Bo B, Weightman, Andrew J, Liu, Wen-Tso, Hallam, Steven J, Tsiamis, George, Woyke, Tanja, and Hedlund, Brian P

Subjects
Microbiology, Biological Sciences, Ecology, Genetics, Human Genome, Bacteria, Genomics, Geologic Sediments, Lakes, Molecular Sequence Data, Phylogeny, Environmental Sciences, Technology, Biological sciences, Environmental sciences
Abstract

The 'Atribacteria' is a candidate phylum in the Bacteria recently proposed to include members of the OP9 and JS1 lineages. OP9 and JS1 are globally distributed, and in some cases abundant, in anaerobic marine sediments, geothermal environments, anaerobic digesters and reactors and petroleum reservoirs. However, the monophyly of OP9 and JS1 has been questioned and their physiology and ecology remain largely enigmatic due to a lack of cultivated representatives. Here cultivation-independent genomic approaches were used to provide a first comprehensive view of the phylogeny, conserved genomic features and metabolic potential of members of this ubiquitous candidate phylum. Previously available and heretofore unpublished OP9 and JS1 single-cell genomic data sets were used as recruitment platforms for the reconstruction of atribacterial metagenome bins from a terephthalate-degrading reactor biofilm and from the monimolimnion of meromictic Sakinaw Lake. The single-cell genomes and metagenome bins together comprise six species- to genus-level groups that represent most major lineages within OP9 and JS1. Phylogenomic analyses of these combined data sets confirmed the monophyly of the 'Atribacteria' inclusive of OP9 and JS1. Additional conserved features within the 'Atribacteria' were identified, including a gene cluster encoding putative bacterial microcompartments that may be involved in aldehyde and sugar metabolism, energy conservation and carbon storage. Comparative analysis of the metabolic potential inferred from these data sets revealed that members of the 'Atribacteria' are likely to be heterotrophic anaerobes that lack respiratory capacity, with some lineages predicted to specialize in either primary fermentation of carbohydrates or secondary fermentation of organic acids, such as propionate.

Published
2016

6. High-quality draft genome sequence of the Thermus amyloliquefaciens type strain YIM 77409T with an incomplete denitrification pathway

Author

Zhou, En-Min, Murugapiran, Senthil K, Mefferd, Chrisabelle C, Liu, Lan, Xian, Wen-Dong, Yin, Yi-Rui, Ming, Hong, Yu, Tian-Tian, Huntemann, Marcel, Clum, Alicia, Pillay, Manoj, Palaniappan, Krishnaveni, Varghese, Neha, Mikhailova, Natalia, Stamatis, Dimitrios, Reddy, TBK, Ngan, Chew Yee, Daum, Chris, Shapiro, Nicole, Markowitz, Victor, Ivanova, Natalia, Spunde, Alexander, Kyrpides, Nikos, Woyke, Tanja, Li, Wen-Jun, and Hedlund, Brian P

Subjects
Microbiology, Biological Sciences, Genetics, Biotechnology, Thermus, Thermus amyloliquefaciens, Thermophiles, Hot springs, Denitrification
Abstract

Thermus amyloliquefaciens type strain YIM 77409(T) is a thermophilic, Gram-negative, non-motile and rod-shaped bacterium isolated from Niujie Hot Spring in Eryuan County, Yunnan Province, southwest China. In the present study we describe the features of strain YIM 77409(T) together with its genome sequence and annotation. The genome is 2,160,855 bp long and consists of 6 scaffolds with 67.4 % average GC content. A total of 2,313 genes were predicted, comprising 2,257 protein-coding and 56 RNA genes. The genome is predicted to encode a complete glycolysis, pentose phosphate pathway, and tricarboxylic acid cycle. Additionally, a large number of transporters and enzymes for heterotrophy highlight the broad heterotrophic lifestyle of this organism. A denitrification gene cluster included genes predicted to encode enzymes for the sequential reduction of nitrate to nitrous oxide, consistent with the incomplete denitrification phenotype of this strain.

Published
2016

8. High-Quality Draft Genome Sequence of Kallotenue papyrolyticum JKG1T Reveals Broad Heterotrophic Capacity Focused on Carbohydrate and Amino Acid Metabolism

Author

Hedlund, Brian P, Murugapiran, Senthil K, Huntemann, Marcel, Clum, Alicia, Pillay, Manoj, Palaniappan, Krishnaveni, Varghese, Neha, Mikhailova, Natalia, Stamatis, Dimitrios, Reddy, TBK, Ngan, Chew Yee, Daum, Chris, Duffy, Kecia, Shapiro, Nicole, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, Williams, Amanda J, Cole, Jessica K, Dodsworth, Jeremy A, and Woyke, Tanja

Subjects
Microbiology, Biological Sciences, Genetics, Human Genome
Abstract

The draft genome of Kallotenue papyrolyticum JKG1(T), a member of the order Kallotenuales, class Chloroflexia, consists of 4,475,263 bp in 4 contigs and encodes 4,010 predicted genes, 49 tRNA-encoding genes, and 3 rRNA operons. The genome is consistent with a heterotrophic lifestyle including catabolism of polysaccharides and amino acids.

Published
2015

9. Uncultivated thermophiles: current status and spotlight on 'Aigarchaeota'.

Author

Hedlund, Brian P, Murugapiran, Senthil K, Alba, Timothy W, Levy, Asaf, Dodsworth, Jeremy A, Goertz, Gisele B, Ivanova, Natalia, and Woyke, Tanja

Subjects
Bacteria, Archaea, RNA, Ribosomal, 16S, Water Microbiology, Biodiversity, Hot Springs, Phylogeny, Hot Temperature, Metagenomics, Microbiology, Medical Microbiology
Abstract

Meta-analysis of cultivation-independent sequence data shows that geothermal systems host an abundance of novel organisms, representing a vast unexplored phylogenetic and functional diversity among yet-uncultivated thermophiles. A number of thermophiles have recently been interrogated using metagenomic and/or single-cell genomic approaches, including members of taxonomic groups that inhabit both thermal and non-thermal environments, such as 'Acetothermia' (OP1) and 'Atribacteria' (OP9/JS1), as well as the exclusively thermophilic lineages 'Korarchaeota', 'Calescamantes' (EM19), 'Fervidibacteria' (OctSpA1-106), and 'Aigarchaeota' (HWCG-I). The 'Aigarchaeota', a sister lineage to the Thaumarchaeota, likely includes both hyperthermophiles and moderate thermophiles. They inhabit terrestrial, marine, and subsurface thermal environments and comprise at least nine genus-level lineages, several of which are globally distributed.

Published
2015

17. Genomics, Exometabolomics, and Metabolic Probing Reveal Conserved Proteolytic Metabolism of Thermoflexus hugenholtzii and Three Candidate Species From China and Japan

Author

Thomas, Scott C., primary, Payne, Devon, additional, Tamadonfar, Kevin O., additional, Seymour, Cale O., additional, Jiao, Jian-Yu, additional, Murugapiran, Senthil K., additional, Lai, Dengxun, additional, Lau, Rebecca, additional, Bowen, Benjamin P., additional, Silva, Leslie P., additional, Louie, Katherine B., additional, Huntemann, Marcel, additional, Clum, Alicia, additional, Spunde, Alex, additional, Pillay, Manoj, additional, Palaniappan, Krishnaveni, additional, Varghese, Neha, additional, Mikhailova, Natalia, additional, Chen, I-Min, additional, Stamatis, Dimitrios, additional, Reddy, T. B. K., additional, O’Malley, Ronan, additional, Daum, Chris, additional, Shapiro, Nicole, additional, Ivanova, Natalia, additional, Kyrpides, Nikos C., additional, Woyke, Tanja, additional, Eloe-Fadrosh, Emiley, additional, Hamilton, Trinity L., additional, Dijkstra, Paul, additional, Dodsworth, Jeremy A., additional, Northen, Trent R., additional, Li, Wen-Jun, additional, and Hedlund, Brian P., additional

Published
2021
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21. Localized high abundance of Marine Group II archaea in the subtropical Pearl River Estuary: implications for their niche adaptation

Author

Xie, Wei, Luo, Haiwei, Murugapiran, Senthil K., Dodsworth, Jeremy A., Chen, Songze, Sun, Ying, Hedlund, Brian P., Wang, Peng, Fang, Huaying, Deng, Minghua, Zhang, Chuanlun L., Tongji University, Chinese University of Hong Kong, Partenaires INRAE, MetaGenoPolis, Institut National de la Recherche Agronomique (INRA), School of Life Sciences, University of Nevada [Reno], California State University, Peking University, Southern University of Science and Technology (SUST), State Key R&D project of China [2016YFA0601101], National Science Foundation of China [41530105, 91428308], National Key Basic Research Program of China [2013CB955700], National Science Foundation for Young Scholars of China [41306123], and Tongji Interdisciplinary Program grant [1350219165]

Subjects
China, Salinity, Ecology, Rivers, RNA, Ribosomal, 16S, [SDV]Life Sciences [q-bio], Metagenome, Seawater, Estuaries, Plankton, Adaptation, Physiological, Archaea, Phylogeny
Abstract

International audience; Marine Group II archaea are widely distributed in global oceans and dominate the total archaeal community within the upper euphotic zone of temperate waters. However, factors controlling the distribution of MGII are poorly delineated and the physiology and ecological functions of these still‐uncultured organisms remain elusive. In this study, we investigated the planktonic MGII associated with particles and in free‐living forms in the Pearl River Estuary (PRE) over a 10‐month period. We detected high abundance of particle‐associated MGII in PRE (up to ∼10(8) 16S rRNA gene copies/l), which was around 10‐fold higher than the free‐living MGII in the same region, and an order of magnitude higher than previously reported in other marine environments. 10‰ salinity appeared to be a threshold value for these MGII because MGII abundance decreased sharply below it. Above 10‰ salinity, the abundance of MGII on the particles was positively correlated with phototrophs and MGII in the surface water was negatively correlated with irradiance. However, the abundances of those free‐living MGII showed positive correlations with salinity and temperature, suggesting the different physiological characteristics between particle‐attached and free‐living MGIIs. A nearly completely assembled metagenome, MGIIa_P, was recovered using metagenome binning methods. Compared with the other two MGII genomes from surface ocean, MGIIa_P contained higher proportions of glycoside hydrolases, indicating the ability of MGIIa_P to hydrolyse glycosidic bonds in complex sugars in PRE. MGIIa_P is the first assembled MGII metagenome containing a catalase gene, which might be involved in scavenging reactive oxygen species generated by the abundant phototrophs in the eutrophic PRE. Our study presented the widespread and high abundance of MGII in the water columns of PRE, and characterized the determinant abiotic factors affecting their distribution. Their association with heterotrophs, preference for particles and resourceful metabolic traits indicate MGII might play a significant role in metabolising organic matters in the PRE and other temperate estuarine systems.

Published
2018
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23. Diverse respiratory capacity among Thermus strains from US Great Basin hot springs

Author

Zhou, En-Min, primary, Adegboruwa, Arinola L., additional, Mefferd, Chrisabelle C., additional, Bhute, Shrikant S., additional, Murugapiran, Senthil K., additional, Dodsworth, Jeremy A., additional, Thomas, Scott C., additional, Bengtson, Amanda J., additional, Liu, Lan, additional, Xian, Wen-Dong, additional, Li, Wen-Jun, additional, and Hedlund, Brian P., additional

Published
2019
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27. Single-cell and metagenomic analyses indicate a fermentative and saccharolytic lifestyle for members of the OP9 lineage

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Blainey, Paul C., Dodsworth, Jeremy A., Murugapiran, Senthil K., Swingley, Wesley D., Ross, Christian A., Tringe, Susannah G., Chain, Patrick S. G., Scholz, Matthew B., Lo, Chien-Chi, Raymond, Jason, Quake, Stephen R., Hedlund, Brian P., Massachusetts Institute of Technology. Department of Biological Engineering, Blainey, Paul C., Dodsworth, Jeremy A., Murugapiran, Senthil K., Swingley, Wesley D., Ross, Christian A., Tringe, Susannah G., Chain, Patrick S. G., Scholz, Matthew B., Lo, Chien-Chi, Raymond, Jason, Quake, Stephen R., and Hedlund, Brian P.

Abstract

OP9 is a yet-uncultivated bacterial lineage found in geothermal systems, petroleum reservoirs, anaerobic digesters and wastewater treatment facilities. Here we use single-cell and metagenome sequencing to obtain two distinct, nearly complete OP9 genomes, one constructed from single cells sorted from hot spring sediments and the other derived from binned metagenomic contigs from an in situ-enriched cellulolytic, thermophilic community. Phylogenomic analyses support the designation of OP9 as a candidate phylum for which we propose the name ‘Atribacteria’. Although a plurality of predicted proteins is most similar to those from Firmicutes, the presence of key genes suggests a diderm cell envelope. Metabolic reconstruction from the core genome suggests an anaerobic lifestyle based on sugar fermentation by Embden–Meyerhof glycolysis with production of hydrogen, acetate and ethanol. Putative glycohydrolases and an endoglucanase may enable catabolism of (hemi)cellulose in thermal environments. This study lays a foundation for understanding the physiology and ecological role of the ‘Atribacteria’., United States. National Aeronautics and Space Administration (Exobiology Grant EXO-NNX11AR78G), National Science Foundation (U.S.) (Grant MCB 0546865), National Science Foundation (U.S.) (Grant OISE 0968421), United States. Dept. of Energy (Grant DE-EE-0000716), Nevada Renewable Energy Consortium, United States. Dept. of Energy. Office of Science. Joint Genome Institute (Contract DE-AC02-05CH11231)

Published
2016

28. High-Quality Draft Genome Sequence of Thermocrinis jamiesonii GBS1 T Isolated from Great Boiling Spring, Nevada

Author

Ganji, Rakesh, primary, Murugapiran, Senthil K., additional, Ong, John C., additional, Manoharan, Namritha, additional, Huntemann, Marcel, additional, Clum, Alicia, additional, Pillay, Manoj, additional, Palaniappan, Krishnaveni, additional, Varghese, Neha, additional, Mikhailova, Natalia, additional, Stamatis, Dimitrios, additional, Reddy, T. B. K., additional, Ngan, Chew Yee, additional, Daum, Chris, additional, Duffy, Kecia, additional, Shapiro, Nicole, additional, Markowitz, Victor, additional, Ivanova, Natalia, additional, Kyrpides, Nikos, additional, Woyke, Tanja, additional, Dodsworth, Jeremy A., additional, and Hedlund, Brian P., additional

Published
2016
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29. High-Quality Draft Genomes from Thermus caliditerrae YIM 77777 and T. tengchongensis YIM 77401, Isolates from Tengchong, China

Author

Mefferd, Chrisabelle C., primary, Zhou, En-Min, additional, Yu, Tian-Tian, additional, Ming, Hong, additional, Murugapiran, Senthil K., additional, Huntemann, Marcel, additional, Clum, Alicia, additional, Pillay, Manoj, additional, Palaniappan, Krishnaveni, additional, Varghese, Neha, additional, Mikhailova, Natalia, additional, Stamatis, Dimitrios, additional, Reddy, T. B. K., additional, Ngan, Chew Yee, additional, Daum, Chris, additional, Duffy, Kecia, additional, Shapiro, Nicole, additional, Markowitz, Victor, additional, Ivanova, Natalia, additional, Kyrpides, Nikos, additional, Williams, Amanda J., additional, Woyke, Tanja, additional, Li, Wen-Jun, additional, and Hedlund, Brian P., additional

Published
2016
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30. High-quality draft genome sequence of the Thermus amyloliquefaciens type strain YIM 77409T with an incomplete denitrification pathway

Author

Zhou, En-Min, primary, Murugapiran, Senthil K., additional, Mefferd, Chrisabelle C., additional, Liu, Lan, additional, Xian, Wen-Dong, additional, Yin, Yi-Rui, additional, Ming, Hong, additional, Yu, Tian-Tian, additional, Huntemann, Marcel, additional, Clum, Alicia, additional, Pillay, Manoj, additional, Palaniappan, Krishnaveni, additional, Varghese, Neha, additional, Mikhailova, Natalia, additional, Stamatis, Dimitrios, additional, Reddy, T. B. K., additional, Ngan, Chew Yee, additional, Daum, Chris, additional, Shapiro, Nicole, additional, Markowitz, Victor, additional, Ivanova, Natalia, additional, Spunde, Alexander, additional, Kyrpides, Nikos, additional, Woyke, Tanja, additional, Li, Wen-Jun, additional, and Hedlund, Brian P., additional

Published
2016
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31. Single-Cell-Genomics-Facilitated Read Binning of Candidate Phylum EM19 Genomes from Geothermal Spring Metagenomes

Author

Becraft, Eric D., primary, Dodsworth, Jeremy A., additional, Murugapiran, Senthil K., additional, Ohlsson, J. Ingemar, additional, Briggs, Brandon R., additional, Kanbar, Jad, additional, De Vlaminck, Iwijn, additional, Quake, Stephen R., additional, Dong, Hailiang, additional, Hedlund, Brian P., additional, and Swingley, Wesley D., additional

Published
2016
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32. High-Quality Draft Genome Sequence of Kallotenue papyrolyticum JKG1 T Reveals Broad Heterotrophic Capacity Focused on Carbohydrate and Amino Acid Metabolism

Author

Hedlund, Brian P., primary, Murugapiran, Senthil K., additional, Huntemann, Marcel, additional, Clum, Alicia, additional, Pillay, Manoj, additional, Palaniappan, Krishnaveni, additional, Varghese, Neha, additional, Mikhailova, Natalia, additional, Stamatis, Dimitrios, additional, Reddy, T. B. K., additional, Ngan, Chew Yee, additional, Daum, Chris, additional, Duffy, Kecia, additional, Shapiro, Nicole, additional, Markowitz, Victor, additional, Ivanova, Natalia, additional, Kyrpides, Nikos, additional, Williams, Amanda J., additional, Cole, Jessica K., additional, Dodsworth, Jeremy A., additional, and Woyke, Tanja, additional

Published
2015
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33. Phylogeny and physiology of candidate phylum ‘Atribacteria’ (OP9/JS1) inferred from cultivation-independent genomics

Author

Nobu, Masaru K, primary, Dodsworth, Jeremy A, additional, Murugapiran, Senthil K, additional, Rinke, Christian, additional, Gies, Esther A, additional, Webster, Gordon, additional, Schwientek, Patrick, additional, Kille, Peter, additional, Parkes, R John, additional, Sass, Henrik, additional, Jørgensen, Bo B, additional, Weightman, Andrew J, additional, Liu, Wen-Tso, additional, Hallam, Steven J, additional, Tsiamis, George, additional, Woyke, Tanja, additional, and Hedlund, Brian P, additional

Published
2015
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35. Thermoflexus hugenholtzii gen. nov., sp. nov., a thermophilic, microaerophilic, filamentous bacterium representing a novel class in the Chloroflexi, Thermoflexia classis nov., and description of Thermoflexaceae fam. nov. and Thermoflexales ord. nov.

Author

Dodsworth, Jeremy A., primary, Gevorkian, Jonathan, additional, Despujos, Fairuz, additional, Cole, Jessica K., additional, Murugapiran, Senthil K., additional, Ming, Hong, additional, Li, Wen-Jun, additional, Zhang, Gengxin, additional, Dohnalkova, Alice, additional, and Hedlund, Brian P., additional

Published
2014
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36. Single-cell and metagenomic analyses indicate a fermentative and saccharolytic lifestyle for members of the OP9 lineage

Author

Dodsworth, Jeremy A., primary, Blainey, Paul C., additional, Murugapiran, Senthil K., additional, Swingley, Wesley D., additional, Ross, Christian A., additional, Tringe, Susannah G., additional, Chain, Patrick S. G., additional, Scholz, Matthew B., additional, Lo, Chien-Chi, additional, Raymond, Jason, additional, Quake, Stephen R., additional, and Hedlund, Brian P., additional

Published
2013
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38. Whole Genome Sequencing of Thermus oshimai JL-2 and Thermus thermophilus JL-18, Incomplete Denitrifiers from the United States Great Basin

Author

Murugapiran, Senthil K., primary, Huntemann, Marcel, additional, Wei, Chia-Lin, additional, Han, James, additional, Detter, John C., additional, Han, Cliff S., additional, Erkkila, Tracy H., additional, Teshima, Hazuki, additional, Chen, Amy, additional, Kyrpides, Nikos, additional, Mavrommatis, Konstantinos, additional, Markowitz, Victor, additional, Szeto, Ernest, additional, Ivanova, Natalia, additional, Pagani, Ioanna, additional, Lam, Jenny, additional, McDonald, Austin I., additional, Dodsworth, Jeremy A., additional, Pati, Amrita, additional, Goodwin, Lynne, additional, Peters, Lin, additional, Pitluck, Sam, additional, Woyke, Tanja, additional, and Hedlund, Brian P., additional

Published
2013
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39. Thermus oshimai JL-2 and T. thermophilus JL-18 genome analysis illuminates pathways for carbon, nitrogen, and sulfur cycling

Author

Murugapiran, Senthil K., primary, Huntemann, Marcel, additional, Wei, Chia-Lin, additional, Han, James, additional, Detter, J. C., additional, Han, Cliff, additional, Erkkila, Tracy H., additional, Teshima, Hazuki, additional, Chen, Amy, additional, Kyrpides, Nikos, additional, Mavrommatis, Konstantinos, additional, Markowitz, Victor, additional, Szeto, Ernest, additional, Ivanova, Natalia, additional, Pagani, Ioanna, additional, Pati, Amrita, additional, Goodwin, Lynne, additional, Peters, Lin, additional, Pitluck, Sam, additional, Lam, Jenny, additional, McDonald, Austin I., additional, Dodsworth, Jeremy A., additional, Woyke, Tanja, additional, and Hedlund, Brian P., additional

Published
2013
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41. Pyrosequencing Reveals High-Temperature Cellulolytic Microbial Consortia in Great Boiling Spring after In Situ Lignocellulose Enrichment.

Author

Peacock, Joseph P., Cole, Jessica K., Murugapiran, Senthil K., Dodsworth, Jeremy A., Fisher, Jenny C., Moser, Duane P., and Hedlund, Brian P.

Subjects
CELLULOLYTIC bacteria, LIGNOCELLULOSE, HOT springs, TEMPERATURE measurements, AQUATIC microbiology, FERMENTATION, COMPUTATIONAL biology, INDUSTRIAL microbiology
Abstract

To characterize high-temperature cellulolytic microbial communities, two lignocellulosic substrates, ammonia fiber-explosion-treated corn stover and aspen shavings, were incubated at average temperatures of 77 and 85°C in the sediment and water column of Great Boiling Spring, Nevada. Comparison of 109,941 quality-filtered 16S rRNA gene pyrosequences (pyrotags) from eight enrichments to 37,057 quality-filtered pyrotags from corresponding natural samples revealed distinct enriched communities dominated by phylotypes related to cellulolytic and hemicellulolytic Thermotoga and Dictyoglomus, cellulolytic and sugar-fermenting Desulfurococcales, and sugar-fermenting and hydrogenotrophic Archaeoglobales. Minor enriched populations included close relatives of hydrogenotrophic Thermodesulfobacteria, the candidate bacterial phylum OP9, and candidate archaeal groups C2 and DHVE3. Enrichment temperature was the major factor influencing community composition, with a negative correlation between temperature and richness, followed by lignocellulosic substrate composition. This study establishes the importance of these groups in the natural degradation of lignocellulose at high temperatures and suggests that a substantial portion of the diversity of thermophiles contributing to consortial cellulolysis may be contained within lineages that have representatives in pure culture. [ABSTRACT FROM AUTHOR]

Published
2013
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42. Localized high abundance of Marine Group II archaea in the subtropical Pearl River Estuary: implications for their niche adaptation.

Author

Xie W, Luo H, Murugapiran SK, Dodsworth JA, Chen S, Sun Y, Hedlund BP, Wang P, Fang H, Deng M, and Zhang CL

Subjects
Archaea classification, Archaea isolation & purification, China, Ecology, Estuaries, Metagenome genetics, Phylogeny, RNA, Ribosomal, 16S genetics, Salinity, Seawater microbiology, Adaptation, Physiological physiology, Archaea genetics, Archaea metabolism, Plankton growth & development, Rivers microbiology
Abstract

Marine Group II archaea are widely distributed in global oceans and dominate the total archaeal community within the upper euphotic zone of temperate waters. However, factors controlling the distribution of MGII are poorly delineated and the physiology and ecological functions of these still-uncultured organisms remain elusive. In this study, we investigated the planktonic MGII associated with particles and in free-living forms in the Pearl River Estuary (PRE) over a 10-month period. We detected high abundance of particle-associated MGII in PRE (up to ∼10 8 16S rRNA gene copies/l), which was around 10-fold higher than the free-living MGII in the same region, and an order of magnitude higher than previously reported in other marine environments. 10‰ salinity appeared to be a threshold value for these MGII because MGII abundance decreased sharply below it. Above 10‰ salinity, the abundance of MGII on the particles was positively correlated with phototrophs and MGII in the surface water was negatively correlated with irradiance. However, the abundances of those free-living MGII showed positive correlations with salinity and temperature, suggesting the different physiological characteristics between particle-attached and free-living MGIIs. A nearly completely assembled metagenome, MGIIa_P, was recovered using metagenome binning methods. Compared with the other two MGII genomes from surface ocean, MGIIa_P contained higher proportions of glycoside hydrolases, indicating the ability of MGIIa_P to hydrolyse glycosidic bonds in complex sugars in PRE. MGIIa_P is the first assembled MGII metagenome containing a catalase gene, which might be involved in scavenging reactive oxygen species generated by the abundant phototrophs in the eutrophic PRE. Our study presented the widespread and high abundance of MGII in the water columns of PRE, and characterized the determinant abiotic factors affecting their distribution. Their association with heterotrophs, preference for particles and resourceful metabolic traits indicate MGII might play a significant role in metabolising organic matters in the PRE and other temperate estuarine systems., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2018
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43. High-Quality Draft Genome Sequence of Thermocrinis jamiesonii GBS1T Isolated from Great Boiling Spring, Nevada.

Author

Ganji R, Murugapiran SK, Ong JC, Manoharan N, Huntemann M, Clum A, Pillay M, Palaniappan K, Varghese N, Mikhailova N, Stamatis D, Reddy TB, Ngan CY, Daum C, Duffy K, Shapiro N, Markowitz V, Ivanova N, Kyrpides N, Woyke T, Dodsworth JA, and Hedlund BP

Abstract

The draft genome of Thermocrinis jamiesonii GBS1 T is 1,315,625 bp in 10 contigs and encodes 1,463 predicted genes. The presence of sox genes and various glycoside hydrolases and the absence of uptake NiFe hydrogenases (hyaB) are consistent with a requirement for thiosulfate and suggest the ability to use carbohydrate polymers., (Copyright © 2016 Ganji et al.)

Published
2016
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44. Single-Cell-Genomics-Facilitated Read Binning of Candidate Phylum EM19 Genomes from Geothermal Spring Metagenomes.

Author

Becraft ED, Dodsworth JA, Murugapiran SK, Ohlsson JI, Briggs BR, Kanbar J, De Vlaminck I, Quake SR, Dong H, Hedlund BP, and Swingley WD

Subjects
China, Machine Learning, United States, Computational Biology methods, Genome, Microbial, Genomics methods, High-Throughput Nucleotide Sequencing methods, Hot Springs microbiology, Metagenomics methods
Abstract

The vast majority of microbial life remains uncatalogued due to the inability to cultivate these organisms in the laboratory. This "microbial dark matter" represents a substantial portion of the tree of life and of the populations that contribute to chemical cycling in many ecosystems. In this work, we leveraged an existing single-cell genomic data set representing the candidate bacterial phylum "Calescamantes" (EM19) to calibrate machine learning algorithms and define metagenomic bins directly from pyrosequencing reads derived from Great Boiling Spring in the U.S. Great Basin. Compared to other assembly-based methods, taxonomic binning with a read-based machine learning approach yielded final assemblies with the highest predicted genome completeness of any method tested. Read-first binning subsequently was used to extract Calescamantes bins from all metagenomes with abundant Calescamantes populations, including metagenomes from Octopus Spring and Bison Pool in Yellowstone National Park and Gongxiaoshe Spring in Yunnan Province, China. Metabolic reconstruction suggests that Calescamantes are heterotrophic, facultative anaerobes, which can utilize oxidized nitrogen sources as terminal electron acceptors for respiration in the absence of oxygen and use proteins as their primary carbon source. Despite their phylogenetic divergence, the geographically separate Calescamantes populations were highly similar in their predicted metabolic capabilities and core gene content, respiring O2, or oxidized nitrogen species for energy conservation in distant but chemically similar hot springs., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published
2015
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45. High-Quality Draft Genome Sequence of Kallotenue papyrolyticum JKG1T Reveals Broad Heterotrophic Capacity Focused on Carbohydrate and Amino Acid Metabolism.

Author

Hedlund BP, Murugapiran SK, Huntemann M, Clum A, Pillay M, Palaniappan K, Varghese N, Mikhailova N, Stamatis D, Reddy TB, Ngan CY, Daum C, Duffy K, Shapiro N, Markowitz V, Ivanova N, Kyrpides N, Williams AJ, Cole JK, Dodsworth JA, and Woyke T

Abstract

The draft genome of Kallotenue papyrolyticum JKG1(T), a member of the order Kallotenuales, class Chloroflexia, consists of 4,475,263 bp in 4 contigs and encodes 4,010 predicted genes, 49 tRNA-encoding genes, and 3 rRNA operons. The genome is consistent with a heterotrophic lifestyle including catabolism of polysaccharides and amino acids., (Copyright © 2015 Hedlund et al.)

Published
2015
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46. Exploring microbial dark matter to resolve the deep archaeal ancestry of eukaryotes.

Author

Saw JH, Spang A, Zaremba-Niedzwiedzka K, Juzokaite L, Dodsworth JA, Murugapiran SK, Colman DR, Takacs-Vesbach C, Hedlund BP, Guy L, and Ettema TJ

Subjects
Archaea classification, Gene Expression Regulation, Archaeal physiology, Genetic Variation, Genome, Archaeal, RNA, Archaeal genetics, RNA, Archaeal metabolism, RNA, Ribosomal, 16S genetics, Archaea genetics, Eukaryotic Cells classification, Eukaryotic Cells cytology, Metagenomics methods, Phylogeny
Abstract

The origin of eukaryotes represents an enigmatic puzzle, which is still lacking a number of essential pieces. Whereas it is currently accepted that the process of eukaryogenesis involved an interplay between a host cell and an alphaproteobacterial endosymbiont, we currently lack detailed information regarding the identity and nature of these players. A number of studies have provided increasing support for the emergence of the eukaryotic host cell from within the archaeal domain of life, displaying a specific affiliation with the archaeal TACK superphylum. Recent studies have shown that genomic exploration of yet-uncultivated archaea, the so-called archaeal 'dark matter', is able to provide unprecedented insights into the process of eukaryogenesis. Here, we provide an overview of state-of-the-art cultivation-independent approaches, and demonstrate how these methods were used to obtain draft genome sequences of several novel members of the TACK superphylum, including Lokiarchaeum, two representatives of the Miscellaneous Crenarchaeotal Group (Bathyarchaeota), and a Korarchaeum-related lineage. The maturation of cultivation-independent genomics approaches, as well as future developments in next-generation sequencing technologies, will revolutionize our current view of microbial evolution and diversity, and provide profound new insights into the early evolution of life, including the enigmatic origin of the eukaryotic cell., (© 2015 The Authors.)

Published
2015
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