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109 results on '"Gilbert, Jack A."'

1. Correction: Sodium oligomannate alters gut microbiota, reduces cerebral amyloidosis and reactive microglia in a sex-specific manner

Author

Bosch, Megan E., Dodiya, Hemraj B., Michalkiewicz, Julia, Lee, Choonghee, Shaik, Shabana M., Weigle, Ian Q., Zhang, Can, Osborn, Jack, Nambiar, Aishwarya, Patel, Priyam, Parhizkar, Samira, Zhang, Xiaoqiong, Laury, Marie L., Mondal, Prasenjit, Gomm, Ashley, Schipma, Matthew John, Mallah, Dania, Butovsky, Oleg, Chang, Eugene B., Tanzi, Rudolph E., Gilbert, Jack A., Holtzman, David M., and Sisodia, Sangram S.

Published
2024
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2. Sodium oligomannate alters gut microbiota, reduces cerebral amyloidosis and reactive microglia in a sex-specific manner

Author

Bosch, Megan E., Dodiya, Hemraj B., Michalkiewicz, Julia, Lee, Choonghee, Shaik, Shabana M., Weigle, Ian Q., Zhang, Can, Osborn, Jack, Nambiar, Aishwarya, Patel, Priyam, Parhizkar, Samira, Zhang, Xiaoqiong, Laury, Marie L., Mondal, Prasenjit, Gomm, Ashley, Schipma, Matthew John, Mallah, Dania, Butovsky, Oleg, Chang, Eugene B., Tanzi, Rudolph E., Gilbert, Jack A., Holtzman, David M., and Sisodia, Sangram S.

Published
2024
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5. SARS-CoV-2 detection status associates with bacterial community composition in patients and the hospital environment

Author

Marotz, Clarisse, Belda-Ferre, Pedro, Ali, Farhana, Das, Promi, Huang, Shi, Cantrell, Kalen, Jiang, Lingjing, Martino, Cameron, Diner, Rachel E., Rahman, Gibraan, McDonald, Daniel, Armstrong, George, Kodera, Sho, Donato, Sonya, Ecklu-Mensah, Gertrude, Gottel, Neil, Salas Garcia, Mariana C., Chiang, Leslie Y., Salido, Rodolfo A., Shaffer, Justin P., Bryant, Mac Kenzie, Sanders, Karenina, Humphrey, Greg, Ackermann, Gail, Haiminen, Niina, Beck, Kristen L., Kim, Ho-Cheol, Carrieri, Anna Paola, Parida, Laxmi, Vázquez-Baeza, Yoshiki, Torriani, Francesca J., Knight, Rob, Gilbert, Jack, Sweeney, Daniel A., and Allard, Sarah M.

Published
2021
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15. Proceedings of the 16th Annual UT-KBRIN Bioinformatics Summit 2016: proceedings: Burns, TN, USA. April 21-23, 2017

Author

Dent, L. Leon, Mandape, Sammed N., Pratap, Siddharth, Dong, Jianan, Davis, Jamaine, Gaddy, Jennifer A., Amoah, Kofi, Damo, Steve, Marshall, Dana R., Jones, Jacob, Brandt, Toni, Diaz, Gilberto, Wang, Qingguo, Gary, Todd, Yenamandra, Ashwini, Ghattas, Marina Z., Elrakaiby, Marwa, Aziz, Ramy K., Zedan, Hamdallah H., Elmassry, Moamen, ElRakaiby, Marwa, Aziz, Ramy K., Lotfy, Mariam, Elmassry, Moamen, Marcel, Jarrad, Khattab, Rania A., Abdelfattah, Maha M., Gilbert, Jack A., Aziz, Ramy K., Dini, Pouya, Loux, Shavahn C., Scoggin, Kirsten E., Esteller-Vico, Alejandro, Squires, Edward L., Troedsson, Mats H. T., Daels, Peter, Ball, Barry A., De Silva, Kalpani, Bailey, Ernest, Stephens, Joel C., Kalbfleisch, Theodore S., Dolin, Christine E., Poole, Lauren G., Wilkey, Daniel W., Rouchka, Eric C., Arteel, Gavin E., Barati, Michelle T., Merchant, Michael L., Higashi, Richard M., Fan, Teresa W-M, Moseley, Hunter, and Lane, Andrew N

Published
2017
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16. The obese gut microbiome across the epidemiologic transition

Author

Dugas, Lara R., Fuller, Miles, Gilbert, Jack A., Layden, Brian T., Dugas, Lara R., Fuller, Miles, Gilbert, Jack A., and Layden, Brian T.

Abstract

© The Author(s), 2016. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Emerging Themes in Epidemiology 13 (2016): 2, doi:10.1186/s12982-015-0044-5., The obesity epidemic has emerged over the past few decades and is thought to be a result of both genetic and environmental factors. A newly identified factor, the gut microbiota, which is a bacterial ecosystem residing within the gastrointestinal tract of humans, has now been implicated in the obesity epidemic. Importantly, this bacterial community is impacted by external environmental factors through a variety of undefined mechanisms. We focus this review on how the external environment may impact the gut microbiota by considering, the host’s geographic location ‘human geography’, and behavioral factors (diet and physical activity). Moreover, we explore the relationship between the gut microbiota and obesity with these external factors. And finally, we highlight here how an epidemiologic model can be utilized to elucidate causal relationships between the gut microbiota and external environment independently and collectively, and how this will help further define this important new factor in the obesity epidemic., BTL is supported by the Department of Veterans Affairs, Veterans Health Administration, Office of Research and Development, Career Development (Grant no. 1IK2BX001587-01).

Published
2016

17. Recovering complete and draft population genomes from metagenome datasets

Author

Sangwan, Naseer, Xia, Fangfang, Gilbert, Jack A., Sangwan, Naseer, Xia, Fangfang, and Gilbert, Jack A.

Abstract

© The Author(s), 2016. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Microbiome 4 (2016): 8, doi:10.1186/s40168-016-0154-5., Assembly of metagenomic sequence data into microbial genomes is of fundamental value to improving our understanding of microbial ecology and metabolism by elucidating the functional potential of hard-to-culture microorganisms. Here, we provide a synthesis of available methods to bin metagenomic contigs into species-level groups and highlight how genetic diversity, sequencing depth, and coverage influence binning success. Despite the computational cost on application to deeply sequenced complex metagenomes (e.g., soil), covarying patterns of contig coverage across multiple datasets significantly improves the binning process. We also discuss and compare current genome validation methods and reveal how these methods tackle the problem of chimeric genome bins i.e., sequences from multiple species. Finally, we explore how population genome assembly can be used to uncover biogeographic trends and to characterize the effect of in situ functional constraints on the genome-wide evolution., This work was supported by the US Dept. of Energy under Contract DE-AC02-06CH11357.

Published
2016

18. Forensic analysis of the microbiome of phones and shoes

Author

Lax, Simon, Hampton-Marcell, Jarrad T., Gibbons, Sean M., Colares, Georgia Barguil, Smith, Daniel, Eisen, Jonathan A., Gilbert, Jack A., Lax, Simon, Hampton-Marcell, Jarrad T., Gibbons, Sean M., Colares, Georgia Barguil, Smith, Daniel, Eisen, Jonathan A., and Gilbert, Jack A.

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Microbiome 3 (2015): 21, doi:10.1186/s40168-015-0082-9., Microbial interaction between human-associated objects and the environments we inhabit may have forensic implications, and the extent to which microbes are shared between individuals inhabiting the same space may be relevant to human health and disease transmission. In this study, two participants sampled the front and back of their cell phones, four different locations on the soles of their shoes, and the floor beneath them every waking hour over a 2-day period. A further 89 participants took individual samples of their shoes and phones at three different scientific conferences. Samples taken from different surface types maintained significantly different microbial community structures. The impact of the floor microbial community on that of the shoe environments was strong and immediate, as evidenced by Procrustes analysis of shoe replicates and significant correlation between shoe and floor samples taken at the same time point. Supervised learning was highly effective at determining which participant had taken a given shoe or phone sample, and a Bayesian method was able to determine which participant had taken each shoe sample based entirely on its similarity to the floor samples. Both shoe and phone samples taken by conference participants clustered into distinct groups based on location, though much more so when an unweighted distance metric was used, suggesting sharing of low-abundance microbial taxa between individuals inhabiting the same space. Correlations between microbial community sources and sinks allow for inference of the interactions between humans and their environment., This work was enabled by the generous support of the Alfred P Sloan foundation. This work was supported in part by the U.S. Dept. of Energy under Contract DE-AC02-06CH11357. S.M.G. was supported by an EPA STAR Graduate Fellowship and by a National Institutes of Health Training Grant 5 T-32 EB-009412.

Published
2015

19. Athletic equipment microbiota are shaped by interactions with human skin

Author

Wood, Mariah, Gibbons, Sean M., Lax, Simon, Eshoo-Anton, Tifani W., Owens, Sarah M., Kennedy, Suzanne, Gilbert, Jack A., Hampton-Marcell, Jarrad T., Wood, Mariah, Gibbons, Sean M., Lax, Simon, Eshoo-Anton, Tifani W., Owens, Sarah M., Kennedy, Suzanne, Gilbert, Jack A., and Hampton-Marcell, Jarrad T.

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Microbiome 3 (2015): 25, doi:10.1186/s40168-015-0088-3., Americans spend the vast majority of their lives in built environments. Even traditionally outdoor pursuits, such as exercising, are often now performed indoors. Bacteria that colonize these indoor ecosystems are primarily derived from the human microbiome. The modes of human interaction with indoor surfaces and the physical conditions associated with each surface type determine the steady-state ecology of the microbial community. Bacterial assemblages associated with different surfaces in three athletic facilities, including floors, mats, benches, free weights, and elliptical handles, were sampled every other hour (8 am to 6 pm) for 2 days. Surface and equipment type had a stronger influence on bacterial community composition than the facility in which they were housed. Surfaces that were primarily in contact with human skin exhibited highly dynamic bacterial community composition and non-random co-occurrence patterns, suggesting that different host microbiomes—shaped by selective forces—were being deposited on these surfaces through time. However, bacterial assemblages found on the floors and mats changed less over time, and species co-occurrence patterns appeared random, suggesting more neutral community assembly. These longitudinal patterns highlight the dramatic turnover of microbial communities on surfaces in regular contact with human skin. By uncovering these longitudinal patterns, this study promotes a better understanding of microbe-human interactions within the built environment., MW was supported by a Weinberg College of Arts and Sciences Summer Grant from Northwestern University. This work was supported in part by the U.S. Dept. of Energy under Contract DE-AC02-06CH11357. This work was also supported by the Alfred P Sloan Foundation’s Microbiology of the Built Environment research program. SMG was supported by an EPA STAR Graduate Fellowship and the National Institutes of Health Training Grant 5 T-32 EB-009412.

Published
2015

20. The ocean sampling day consortium

Author

Kopf, Anna, Bicak, Mesude, Kottmann, Renzo, Schnetzer, Julia, Kostadinov, Ivaylo, Lehmann, Katja, Fernandez-Guerra, Antonio, Jeanthon, Christian, Rahav, Eyal, Ullrich, Matthias S., Wichels, Antje, Gerdts, Gunnar, Polymenakou, Paraskevi, Kotoulas, Georgios, Siam, Rania, Abdallah, Rehab Z., Sonnenschein, Eva C., Cariou, Thierry, O’Gara, Fergal, Jackson, Stephen, Orlic, Sandi, Steinke, Michael, Busch, Julia, Duarte, Bernardo, Caçador, Isabel, Canning-Clode, Joao, Bobrova, Oleksandra, Marteinsson, Viggo, Reynisson, Eyjolfur, Loureiro, Clara Magalhaes, Luna, Gian Marco, Quero, Grazia Marina, Loscher, Carolin R., Kremp, Anke, DeLorenzo, Marie E., Øvreås, Lise, Tolman, Jennifer, LaRoche, Julie, Penna, Antonella, Frischer, Marc, Davis, Timothy, Katherine, Barker, Meyer, Christopher P., Ramos, Sandra, Magalhaes, Catarina, Jude-Lemeilleur, Florence, Aguirre-Macedo, Ma Leopoldina, Wang, Shiao, Poulton, Nicole, Jones, Scott, Collin, Rachel, Fuhrman, Jed A., Conan, Pascal, Alonso, Cecilia, Stambler, Noga, Goodwin, Kelly, Yakimov, Michail M., Baltar, Federico, Bodrossy, Levente, Van De Kamp, Jodie, Frampton, Dion M. F., Ostrowski, Martin, Van Ruth, Paul, Malthouse, Paul, Claus, Simon, Deneudt, Klaas, Mortelmans, Jonas, Pitois, Sophie, Wallom, David, Salter, Ian, Costa, Rodrigo, Schroeder, Declan C., Kandil, Mahrous M., Amaral, Valentina, Biancalana, Florencia, Santana, Rafael, Pedrotti, Maria Luiza, Yoshida, Takashi, Ogata, Hiroyuki, Ingleton, Tim, Munnik, Kate, Rodriguez-Ezpeleta, Naiara, Berteaux-Lecellier, Veronique, Wecker, Patricia, Cancio, Ibon, Vaulot, Daniel, Bienhold, Christina, Ghazal, Hassan, Chaouni, Bouchra, Essayeh, Soumya, Ettamimi, Sara, Zaid, El Houcine, Boukhatem, Noureddine, Bouali, Abderrahim, Chahboune, Rajaa, Barrijal, Said, Timinouni, Mohammed, El Otmani, Fatima, Bennani, Mohamed, Mea, Marianna, Todorova, Nadezhda, Karamfilov, Ventzislav, ten Hoopen, Petra, Cochrane, Guy R., L’Haridon, Stephane, Bizsel, Kemal Can, Vezzi, Alessandro, Lauro, Federico M., Martin, Patrick, Jensen, Rachelle M., Hinks, Jamie, Gebbels, Susan, Rosselli, Riccardo, De Pascale, Fabio, Schiavon, Riccardo, dos Santos, Antonina, Villar, Emilie, Pesant, Stephane, Cataletto, Bruno, Malfatti, Francesca, Edirisinghe, Ranjith, Herrera Silveira, Jorge A., Barbier, Michele, Turk, Valentina, Tinta, Tinkara, Fuller, Wayne J., Salihoglu, Ilkay, Serakinci, Nedime, Ergoren, Mahmut Cerkez, Bresnan, Eileen, Iriberri, Juan, Fronth Nyhus, Paul Anders, Bente, Edvardsen, Karlsen, Hans Erik, Golyshin, Peter N., Gasol, Josep M., Moncheva, Snejana, Dzhembekova, Nina, Johnson, Zackary, Sinigalliano, Christopher D., Gidley, Maribeth Louise, Zingone, Adriana, Danovaro, Roberto, Tsiamis, Georgios, Clark, Melody S., Costa, Ana Cristina, El Bour, Monia, Martins, Ana M., Collins, R. Eric, Ducluzeau, Anne-Lise, Martinez, Jonathan, Costello, Mark J., Amaral-Zettler, Linda A., Gilbert, Jack A., Davies, Neil, Field, Dawn, Glockner, Frank Oliver, Kopf, Anna, Bicak, Mesude, Kottmann, Renzo, Schnetzer, Julia, Kostadinov, Ivaylo, Lehmann, Katja, Fernandez-Guerra, Antonio, Jeanthon, Christian, Rahav, Eyal, Ullrich, Matthias S., Wichels, Antje, Gerdts, Gunnar, Polymenakou, Paraskevi, Kotoulas, Georgios, Siam, Rania, Abdallah, Rehab Z., Sonnenschein, Eva C., Cariou, Thierry, O’Gara, Fergal, Jackson, Stephen, Orlic, Sandi, Steinke, Michael, Busch, Julia, Duarte, Bernardo, Caçador, Isabel, Canning-Clode, Joao, Bobrova, Oleksandra, Marteinsson, Viggo, Reynisson, Eyjolfur, Loureiro, Clara Magalhaes, Luna, Gian Marco, Quero, Grazia Marina, Loscher, Carolin R., Kremp, Anke, DeLorenzo, Marie E., Øvreås, Lise, Tolman, Jennifer, LaRoche, Julie, Penna, Antonella, Frischer, Marc, Davis, Timothy, Katherine, Barker, Meyer, Christopher P., Ramos, Sandra, Magalhaes, Catarina, Jude-Lemeilleur, Florence, Aguirre-Macedo, Ma Leopoldina, Wang, Shiao, Poulton, Nicole, Jones, Scott, Collin, Rachel, Fuhrman, Jed A., Conan, Pascal, Alonso, Cecilia, Stambler, Noga, Goodwin, Kelly, Yakimov, Michail M., Baltar, Federico, Bodrossy, Levente, Van De Kamp, Jodie, Frampton, Dion M. F., Ostrowski, Martin, Van Ruth, Paul, Malthouse, Paul, Claus, Simon, Deneudt, Klaas, Mortelmans, Jonas, Pitois, Sophie, Wallom, David, Salter, Ian, Costa, Rodrigo, Schroeder, Declan C., Kandil, Mahrous M., Amaral, Valentina, Biancalana, Florencia, Santana, Rafael, Pedrotti, Maria Luiza, Yoshida, Takashi, Ogata, Hiroyuki, Ingleton, Tim, Munnik, Kate, Rodriguez-Ezpeleta, Naiara, Berteaux-Lecellier, Veronique, Wecker, Patricia, Cancio, Ibon, Vaulot, Daniel, Bienhold, Christina, Ghazal, Hassan, Chaouni, Bouchra, Essayeh, Soumya, Ettamimi, Sara, Zaid, El Houcine, Boukhatem, Noureddine, Bouali, Abderrahim, Chahboune, Rajaa, Barrijal, Said, Timinouni, Mohammed, El Otmani, Fatima, Bennani, Mohamed, Mea, Marianna, Todorova, Nadezhda, Karamfilov, Ventzislav, ten Hoopen, Petra, Cochrane, Guy R., L’Haridon, Stephane, Bizsel, Kemal Can, Vezzi, Alessandro, Lauro, Federico M., Martin, Patrick, Jensen, Rachelle M., Hinks, Jamie, Gebbels, Susan, Rosselli, Riccardo, De Pascale, Fabio, Schiavon, Riccardo, dos Santos, Antonina, Villar, Emilie, Pesant, Stephane, Cataletto, Bruno, Malfatti, Francesca, Edirisinghe, Ranjith, Herrera Silveira, Jorge A., Barbier, Michele, Turk, Valentina, Tinta, Tinkara, Fuller, Wayne J., Salihoglu, Ilkay, Serakinci, Nedime, Ergoren, Mahmut Cerkez, Bresnan, Eileen, Iriberri, Juan, Fronth Nyhus, Paul Anders, Bente, Edvardsen, Karlsen, Hans Erik, Golyshin, Peter N., Gasol, Josep M., Moncheva, Snejana, Dzhembekova, Nina, Johnson, Zackary, Sinigalliano, Christopher D., Gidley, Maribeth Louise, Zingone, Adriana, Danovaro, Roberto, Tsiamis, Georgios, Clark, Melody S., Costa, Ana Cristina, El Bour, Monia, Martins, Ana M., Collins, R. Eric, Ducluzeau, Anne-Lise, Martinez, Jonathan, Costello, Mark J., Amaral-Zettler, Linda A., Gilbert, Jack A., Davies, Neil, Field, Dawn, and Glockner, Frank Oliver

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in GigaScience 4 (2015): 27, doi:10.1186/s13742-015-0066-5., Ocean Sampling Day was initiated by the EU-funded Micro B3 (Marine Microbial Biodiversity, Bioinformatics, Biotechnology) project to obtain a snapshot of the marine microbial biodiversity and function of the world’s oceans. It is a simultaneous global mega-sequencing campaign aiming to generate the largest standardized microbial data set in a single day. This will be achievable only through the coordinated efforts of an Ocean Sampling Day Consortium, supportive partnerships and networks between sites. This commentary outlines the establishment, function and aims of the Consortium and describes our vision for a sustainable study of marine microbial communities and their embedded functional traits., This work was supported by the Micro B3 project, which is funded from the European Union’s Seventh Framework Programme (FP7; Joint Call OCEAN.2011‐2: Marine microbial diversity – new insights into marine ecosystems functioning and its biotechnological potential) under the grant agreement no 287589.

Published
2015

21. Report of the 14th Genomic Standards Consortium Meeting, Oxford, UK, September 17-21, 2012

Author

Davies, Neil, Field, Dawn, Amaral-Zettler, Linda, Barker, Katharine, Bicak, Mesude, Bourlat, Sarah, Coddington, Jonathan, Deck, John, Drummond, Alexei, Gilbert, Jack A., Glöckner, Frank Oliver, Kottmann, Renzo, Meyer, Chris, Morrison, Norman, Obst, Matthias, Robbins, Robert, Schriml, Lynn, Sterk, Peter, Stones-Havas, Steven, Davies, Neil, Field, Dawn, Amaral-Zettler, Linda, Barker, Katharine, Bicak, Mesude, Bourlat, Sarah, Coddington, Jonathan, Deck, John, Drummond, Alexei, Gilbert, Jack A., Glöckner, Frank Oliver, Kottmann, Renzo, Meyer, Chris, Morrison, Norman, Obst, Matthias, Robbins, Robert, Schriml, Lynn, Sterk, Peter, and Stones-Havas, Steven

Abstract

This report summarizes the proceedings of the 14th workshop of the Genomic Standards Consortium (GSC) held at the University of Oxford in September 2012. The workshop’s primary goal was to work towards the launch of the Genomic Observatories (GOs) Network under the GSC. For the first time, it brought together potential GOs sites, GSC members, and a range of interested partner organizations. It thus represented the first meeting of the GOs Network (GOs1). Key outcomes include the formation of a core group of “champions” ready to take the GOs Network forward, as well as the formation of working groups. The workshop also served as the first meeting of a wide range of participants in the Ocean Sampling Day (OSD) initiative, a first GOs action. Three projects with complementary interests – COST Action ES1103, MG4U and Micro B3 – organized joint sessions at the workshop. A two-day GSC Hackathon followed the main three days of meetings.

Published
2014

23. Comparative genomic analysis of nine Sphingobium strains: insights into their evolution and hexachlorocyclohexane (HCH) degradation pathways.

Author

Verma, Helianthous, Kumar, Roshan, Oldach, Phoebe, Sangwan, Naseer, Khurana, Jitendra P., Gilbert, Jack A., and Lal, Rup

Subjects
BIODEGRADATION of hydrocarbons, HEXACHLOROCYCLOHEXANES, SPHINGOMONAS, XENOBIOTICS, HYDROCARBONS, GENOMICS
Abstract

Background Sphingobium spp. are efficient degraders of a wide range of chlorinated and aromatic hydrocarbons. In particular, strains which harbour the lin pathway genes mediating the degradation of hexachlorocyclohexane (HCH) isomers are of interest due to the widespread persistence of this contaminant. Here, we examined the evolution and diversification of the lin pathway under the selective pressure of HCH, by comparing the draft genomes of six newly-sequenced Sphingobium spp. (strains LL03, DS20, IP26, HDIPO4, P25 and RL3) isolated from HCH dumpsites, with three existing genomes (S. indicum B90A, S. japonicum UT26S and Sphingobium sp. SYK6). Results Efficient HCH degraders phylogenetically clustered in a closely related group comprising of UT26S, B90A, HDIPO4 and IP26, where HDIPO4 and IP26 were classified as subspecies with ANI value >98%. Less than 10% of the total gene content was shared among all nine strains, but among the eight HCH-associated strains, that is all except SYK6, the shared gene content jumped to nearly 25%. Genes associated with nitrogen stress response and twocomponent systems were found to be enriched. The strains also housed many xenobiotic degradation pathways other than HCH, despite the absence of these xenobiotics from isolation sources. Additionally, these strains, although non-motile, but posses flagellar assembly genes. While strains HDIPO4 and IP26 contained the complete set of lin genes, DS20 was entirely devoid of lin genes (except linKLMN) whereas, LL03, P25 and RL3 were identified as lin deficient strains, as they housed incomplete lin pathways. Further, in HDIPO4, linA was found as a hybrid of two natural variants i.e., linA1 and linA2 known for their different enantioselectivity. Conclusion The bacteria isolated from HCH dumpsites provide a natural testing ground to study variations in the lin system and their effects on degradation efficacy. Further, the diversity in the lin gene sequences and copy number, their arrangement with respect to IS6100 and evidence for potential plasmid content elucidate possible evolutionary acquisition mechanisms for this pathway. This study further opens the horizon for selection of bacterial strains for inclusion in an HCH bioremediation consortium and suggests that HDIPO4, IP26 and B90A would be appropriate candidates for inclusion. [ABSTRACT FROM AUTHOR]

Published
2014
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24. Meeting report: Ocean 'omics science, technology and cyberinfrastructure: current challenges and future requirements (August 20-23, 2013).

Author

Gilbert, Jack, Dick, Gregory, Jenkins, Bethany, Heidelberg, John, Allen, Eric, Mackey, Katherine, and DeLong, Edward

Subjects
*CYBERINFRASTRUCTURE, *DISTRIBUTED computing, *INFORMATION technology, *INFRASTRUCTURE (Economics), *CONFERENCES & conventions
Abstract

The National Science Foundation's EarthCube End User Workshop was held at USC Wrigley Marine Science Center on Catalina Island, California in August 2013. The workshop was designed to explore and characterize the needs and tools available to the community that is focusing on microbial and physical oceanography research with a particular emphasis on 'omic research. The assembled researchers outlined the existing concerns regarding the vast data resources that are being generated, and how we will deal with these resources as their volume and diversity increases. Particular attention was focused on the tools for handling and analyzing the existing data, on the need for the construction and curation of diverse federated databases, as well as development of shared, interoperable, 'big-data capable' analytical tools. The key outputs from this workshop include (i) critical scientific challenges and cyber infrastructure constraints, (ii) the current and future ocean 'omics science grand challenges and questions, and (iii) data management, analytical and associated and cyber-infrastructure capabilities required to meet critical current and future scientific challenges. The main thrust of the meeting and the outcome of this report is a definition of the 'omics tools, technologies and infrastructures that facilitate continued advance in ocean science biology, marine biogeochemistry, and biological oceanography. [ABSTRACT FROM AUTHOR]

Published
2014
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25. Metagenomic analysis of microbial consortium from natural crude oil that seeps into the marine ecosystem offshore Southern California.

Author

Hawley, Erik, Piao, Hailan, Scott, Nicole, Malfatti, Stephanie, Pagani, Ioanna, Huntemann, Marcel, Chen, Amy, Glavina del Rio, Tijana, Foster, Brian, Copeland, Alex, Jansson, Janet, Pati, Amrita, Tringe, Susannah, Gilbert, Jack, Lorenson, Thomas, and Hess, Matthias

Subjects
PETROLEUM, MARINE ecology, AQUATIC ecology, HYDROCARBONS
Abstract

Crude oils can be major contaminants of the marine ecosystem and microorganisms play a significant role in the degradation of its main constituents. To increase our understanding of the microbial hydrocarbon degradation process in the marine ecosystem, we collected crude oil from an active seep area located in the Santa Barbara Channel (SBC) and generated a total of about 52 Gb of raw metagenomic sequence data. The assembled data comprised ∼500 Mb, representing ∼1.1 million genes derived primarily from chemolithoautotrophic bacteria. Members of Oceanospirillales, a bacterial order belonging to the Deltaproteobacteria, recruited less than 2% of the assembled genes within the SBC metagenome. In contrast, the microbial community associated with the oil plume that developed in the aftermath of the Deepwater Horizon (DWH) blowout in 2010, was dominated by Oceanospirillales, which comprised more than 60% of the metagenomic data generated from the DWH oil plume. This suggests that Oceanospirillales might play a less significant role in the microbially mediated hydrocarbon conversion within the SBC seep oil compared to the DWH plume oil. We hypothesize that this difference results from the SBC oil seep being mostly anaerobic, while the DWH oil plume is aerobic. Within the Archaea, the phylum Euryarchaeota, recruited more than 95% of the assembled archaeal sequences from the SBC oil seep metagenome, with more than 50% of the sequences assigned to members of the orders Methanomicrobiales and Methanosarcinales. These orders contain organisms capable of anaerobic methanogenesis and methane oxidation (AOM) and we hypothesize that these orders - and their metabolic capabilities - may be fundamental to the ecology of the SBC oil seep. [ABSTRACT FROM AUTHOR]

Published
2014
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28. The Hospital Microbiome Project: Meeting Report for the 1st Hospital Microbiome Project Workshop on sampling design and building science measurements, Chicago, USA, June 7th-8th 2012.

Author

Smith, Daniel, Alverdy, John, An, Gary, Coleman, Maureen, Garcia-Houchins, Sylvia, Green, Jessica, Keegan, Kevin, Kelley, Scott, Kirkup, Benjamin, Kociolek, Larry, Levin, Hal, Landon, Emily, Olsiewski, Paula, Knight, Rob, Siegel, Jeffrey, Weber, Stephen, and Gilbert, Jack

Subjects
HUMAN microbiota, BIOTIC communities, MEDICAL centers, STATISTICAL sampling, CONSORTIA
Abstract

This report details the outcome of the 1st Hospital Microbiome Project workshop held on June 7th-8th, 2012 at the University of Chicago, USA. The workshop was arranged to determine the most appropriate sampling strategy and approach to building science measurement to characterize the development of a microbial community within a new hospital pavilion being built at the University of Chicago Medical Center. The workshop made several recommendations and led to the development of a full proposal to the Alfred P. Sloan Foundation as well as to the creation of the Hospital Microbiome Consortium. [ABSTRACT FROM AUTHOR]

Published
2013
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29. The 15th Genomic Standards Consortium meeting.

Author

Schriml, Lynn, Mizrachi, Ilene, Sterk, Peter, Field, Dawn, Hirschman, Lynette, Tatusova, Tatiana, Sansone, Susanna, Gilbert, Jack, Schindel, David, Davies, Neil, Meyer, Chris, Meyer, Folker, Garrity, George, Proctor, Lita, Medema, M., Lan, Yemin, Klindworth, Anna, Glöckner, Frank, Korves, Tonia, and Gonzalez, Antonia

Subjects
GENOMICS, METADATA, PUBLIC health, ANNUAL meetings
Published
2013
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30. RCN4GSC Workshop Report: Managing Data at the Interface of Biodiversity and (Meta)Genomics, March 2011.

Author

Robbins, Robert J., Amaral-Zettler, Linda, Bik, Holly, Blum, Stan, Edwards, James, Field, Dawn, Garrity, George, Gilbert, Jack A., Kottmann, Renzo, Krishtalka, Leonard, Lapp, Hilmar, Lawrence, Carolyn, Morrison, Norman, Tuama, Éamonn Ó., Parr, Cynthia, Gil, Inigo San, Schindel, David, Schriml, Lynn, Vieglas, David, and Wooley, John

Subjects
ADULT education workshops, BIOINFORMATICS, GENOMICS, BIOMASS & the environment, INTERNETWORKING, BIOTIC communities, CONFERENCES & conventions
Abstract

Building on the planning efforts of the RCN4GSC project, a workshop was convened in San Diego to bring together experts from genomics and metagenomics, biodiversity, ecology, and bioinformatics with the charge to identify potential for positive interactions and progress, especially building on successes at establishing data standards by the GSC and by the biodiversity and ecological communities. Until recently, the contribution of microbial life to the biomass and biodiversity of the biosphere was largely overlooked (because it was resistant to systematic study). Now, emerging genomic and metagenomic tools are making investigation possible. Initial research findings suggest that major advances are in the offing. Although different research communities share some overlapping concepts and traditions, they differ significantly in sampling approaches, vocabularies and workflows. Likewise, their definitions of 'fitness for use' for data differ significantly, as this concept stems from the specific research questions of most importance in the different fields. Nevertheless, there is little doubt that there is much to be gained from greater coordination and integration. As a first step toward interoperability of the information systems used by the different communities, participants agreed to conduct a case study on two of the leading data standards from the two formerly disparate fields: (a) GSC's standard check-lists for genomics and metagenomics and (b) TDWG's Darwin Core standard, used primarily in taxonomy and systematic biology. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Short-read reading-frame predictors are not created equal: sequence error causes loss of signal.

Author

Trimble, William L., Keegan, Kevin P., D'Souza, Mark, Wilke, Andreas, Wilkening, Jared, Gilbert, Jack, and Meyer, Folker

Subjects
GENES, DNA, NUCLEIC acids, ALGORITHMS, MARKOV processes
Abstract

Background: Gene prediction algorithms (or gene callers) are an essential tool for analyzing shotgun nucleic acid sequence data. Gene prediction is a ubiquitous step in sequence analysis pipelines; it reduces the volume of data by identifying the most likely reading frame for a fragment, permitting the out-of-frame translations to be ignored. In this study we evaluate five widely used ab initio gene-calling algorithms—FragGeneScan, MetaGeneAnnotator, MetaGeneMark, Orphelia, and Prodigal—for accuracy on short (75–1000 bp) fragments containing sequence error from previously published artificial data and “real” metagenomic datasets. Results: While gene prediction tools have similar accuracies predicting genes on error-free fragments, in the presence of sequencing errors considerable differences between tools become evident. For error-containing short reads, FragGeneScan finds more prokaryotic coding regions than does MetaGeneAnnotator, MetaGeneMark, Orphelia, or Prodigal. This improved detection of genes in error-containing fragments, however, comes at the cost of much lower (50%) specificity and overprediction of genes in noncoding regions. Conclusions: Ab initio gene callers offer a significant reduction in the computational burden of annotating individual nucleic acid reads and are used in many metagenomic annotation systems. For predicting reading frames on raw reads, we find the hidden Markov model approach in FragGeneScan is more sensitive than other gene prediction tools, while Prodigal, MGA, and MGM are better suited for higher-quality sequences such as assembled contigs. [ABSTRACT FROM AUTHOR]

Published
2012
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32. Functional analysis of metagenomes and metatranscriptomes using SEED and KEGG.

Author

Mitra, Suparna, Rupek, Paul, Richter, Daniel C., Urich, Tim, Gilbert, Jack A., Meyer, Folker, Wilke, Andreas, and Huson, Daniel H.

Subjects
MICROBIOLOGY, MICROBIAL genomes, COMPUTATIONAL biology, GENE expression, GENETIC regulation
Abstract

Background: Metagenomics is the study of microbial organisms using sequencing applied directly to environmental samples. Technological advances in next-generation sequencing methods are fueling a rapid increase in the number and scope of metagenome projects. While metagenomics provides information on the gene content, metatranscriptomics aims at understanding gene expression patterns in microbial communities. The initial computational analysis of a metagenome or metatranscriptome addresses three questions: (1) Who is out there? (2) What are they doing? and (3) How do different datasets compare? There is a need for new computational tools to answer these questions. In 2007, the program MEGAN (MEtaGenome ANalyzer) was released, as a standalone interactive tool for analyzing the taxonomic content of a single metagenome dataset. The program has subsequently been extended to support comparative analyses of multiple datasets. Results: The focus of this paper is to report on new features of MEGAN that allow the functional analysis of multiple metagenomes (and metatranscriptomes) based on the SEED hierarchy and KEGG pathways. We have compared our results with the MG-RAST service for different datasets. Conclusions: The MEGAN program now allows the interactive analysis and comparison of the taxonomical and functional content of multiple datasets. As a stand-alone tool, MEGAN provides an alternative to web portals for scientists that have concerns about uploading their unpublished data to a website. [ABSTRACT FROM AUTHOR]

Published
2011
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34. Meeting report for the 1st skin microbiota workshop, boulder, CO October 15-16 2012

Author

Gilbert, Jack A, Ball, Madeleine, Blainey, Paul, Blaser, Martin J, Bohannan, Brendan JM, Bateman, Ashley, Bunge, John, Dominguez-Bello, Maria Gloria, Epstein, Slava, Fierer, Noah, Gevers, Dirk, Grikscheit, Tracy, Hamdan, Leila J, Harvey, James, Huttenhower, Curtis, Kirkup, Benjamin, Kong, Heidi H, Lauber, Christian, Lemon, Katherine P, Lynch, Susan V, Martin, Lance, Mello, Charlene, Palma, Joseph, Parker, Roy, Petrosino, Joseph, Segre, Julia A, Vosshall, Leslie, Yi, Rui, and Knight, Rob

Subjects
Skin microbiome, Army, Bioinformatics
Abstract

This report details the outcome of the 1st Skin Microbiota Workshop, Boulder, CO, held on October 15th-16th 2012. The workshop was arranged to bring Department of Defense personnel together with experts in microbial ecology, human skin physiology and anatomy, and computational techniques for interrogating the microbiome to define research frontiers at the intersection of these important areas. The workshop outlined a series of questions and created several working groups to address those questions, specifically to promote interdisciplinary activity and potential future collaboration. The US Army provided generous grant support and the meeting was organized and hosted by the University of Colorado at Boulder. A primary forward vision of the meeting was the importance of understanding skin microbial communities to improve the health and stealth of US Army warfighters.

Published
2014
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35. Genomic Standards Consortium Projects.

Author

Field, Dawn, Sterk, Peter, Kottmann, Renzo, Smet, J., Amaral-Zettler, Linda, Cochrane, Guy, Cole, James, Davies, Neil, Dawyndt, Peter, Garrity, George, Gilbert, Jack, Glöckner, Frank, Hirschman, Lynette, Klenk, Hans-Peter, Knight, Rob, Kyrpides, Nikos, Meyer, Folker, Karsch-Mizrachi, Ilene, Morrison, Norman, and Robbins, Robert

Subjects
GENOMICS, MEMBERSHIP, BEST practices, STANDARDIZATION, STANDARD-setting organizations
Abstract

The Genomic Standards Consortium (GSC) is an open-membership community that was founded in 2005 to work towards the development, implementation and harmonization of standards in the field of genomics. Starting with the defined task of establishing a minimal set of descriptions the GSC has evolved into an active standards-setting body that currently has 18 ongoing projects, with additional projects regularly proposed from within and outside the GSC. Here we describe our recently enacted policy for proposing new activities that are intended to be taken on by the GSC, along with the template for proposing such new activities. [ABSTRACT FROM AUTHOR]

Published
2014
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37. Recovering complete and draft population genomes from metagenome datasets.

Author

Sangwan N, Xia F, and Gilbert JA

Subjects
Contig Mapping, Datasets as Topic, Sequence Analysis, DNA, Genome, Microbial, Metagenome, Metagenomics methods
Abstract

Assembly of metagenomic sequence data into microbial genomes is of fundamental value to improving our understanding of microbial ecology and metabolism by elucidating the functional potential of hard-to-culture microorganisms. Here, we provide a synthesis of available methods to bin metagenomic contigs into species-level groups and highlight how genetic diversity, sequencing depth, and coverage influence binning success. Despite the computational cost on application to deeply sequenced complex metagenomes (e.g., soil), covarying patterns of contig coverage across multiple datasets significantly improves the binning process. We also discuss and compare current genome validation methods and reveal how these methods tackle the problem of chimeric genome bins i.e., sequences from multiple species. Finally, we explore how population genome assembly can be used to uncover biogeographic trends and to characterize the effect of in situ functional constraints on the genome-wide evolution.

Published
2016
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38. Athletic equipment microbiota are shaped by interactions with human skin.

Author

Wood M, Gibbons SM, Lax S, Eshoo-Anton TW, Owens SM, Kennedy S, Gilbert JA, and Hampton-Marcell JT

Abstract

Background: Americans spend the vast majority of their lives in built environments. Even traditionally outdoor pursuits, such as exercising, are often now performed indoors. Bacteria that colonize these indoor ecosystems are primarily derived from the human microbiome. The modes of human interaction with indoor surfaces and the physical conditions associated with each surface type determine the steady-state ecology of the microbial community., Results: Bacterial assemblages associated with different surfaces in three athletic facilities, including floors, mats, benches, free weights, and elliptical handles, were sampled every other hour (8 am to 6 pm) for 2 days. Surface and equipment type had a stronger influence on bacterial community composition than the facility in which they were housed. Surfaces that were primarily in contact with human skin exhibited highly dynamic bacterial community composition and non-random co-occurrence patterns, suggesting that different host microbiomes-shaped by selective forces-were being deposited on these surfaces through time. However, bacterial assemblages found on the floors and mats changed less over time, and species co-occurrence patterns appeared random, suggesting more neutral community assembly., Conclusions: These longitudinal patterns highlight the dramatic turnover of microbial communities on surfaces in regular contact with human skin. By uncovering these longitudinal patterns, this study promotes a better understanding of microbe-human interactions within the built environment.

Published
2015
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39. Forensic analysis of the microbiome of phones and shoes.

Author

Lax S, Hampton-Marcell JT, Gibbons SM, Colares GB, Smith D, Eisen JA, and Gilbert JA

Abstract

Background: Microbial interaction between human-associated objects and the environments we inhabit may have forensic implications, and the extent to which microbes are shared between individuals inhabiting the same space may be relevant to human health and disease transmission. In this study, two participants sampled the front and back of their cell phones, four different locations on the soles of their shoes, and the floor beneath them every waking hour over a 2-day period. A further 89 participants took individual samples of their shoes and phones at three different scientific conferences., Results: Samples taken from different surface types maintained significantly different microbial community structures. The impact of the floor microbial community on that of the shoe environments was strong and immediate, as evidenced by Procrustes analysis of shoe replicates and significant correlation between shoe and floor samples taken at the same time point. Supervised learning was highly effective at determining which participant had taken a given shoe or phone sample, and a Bayesian method was able to determine which participant had taken each shoe sample based entirely on its similarity to the floor samples. Both shoe and phone samples taken by conference participants clustered into distinct groups based on location, though much more so when an unweighted distance metric was used, suggesting sharing of low-abundance microbial taxa between individuals inhabiting the same space., Conclusions: Correlations between microbial community sources and sinks allow for inference of the interactions between humans and their environment.

Published
2015
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40. Development of the preterm infant gut microbiome: a research priority.

Author

Groer MW, Luciano AA, Dishaw LJ, Ashmeade TL, Miller E, and Gilbert JA

Abstract

The very low birth weight (VLBW) infant is at great risk for marked dysbiosis of the gut microbiome due to multiple factors, including physiological immaturity and prenatal/postnatal influences that disrupt the development of a normal gut flora. However, little is known about the developmental succession of the microbiota in preterm infants as they grow and mature. This review provides a synthesis of our understanding of the normal development of the infant gut microbiome and contrasts this with dysbiotic development in the VLBW infant. The role of human milk in normal gut microbial development is emphasized, along with the role of the gut microbiome in immune development and gastroenteric health. Current research provides evidence that the gut microbiome interacts extensively with many physiological systems and metabolic processes in the developing infant. However, to the best of our knowledge, there are currently no studies prospectively mapping the gut microbiome of VLBW infants through early childhood. This knowledge gap must be filled to inform a healthcare system that can provide for the growth, health, and development of VLBW infants. The paper concludes with speculation about how the VLBW infants' gut microbiome might function through host-microbe interactions to contribute to the sequelae of preterm birth, including its influence on growth, development, and general health of the infant host.

Published
2014
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41. Intestinal anastomotic injury alters spatially defined microbiome composition and function.

Author

Shogan BD, Smith DP, Christley S, Gilbert JA, Zaborina O, and Alverdy JC

Abstract

Background: When diseased intestine (i.e., from colon cancer, diverticulitis) requires resection, its reconnection (termed anastomosis) can be complicated by non-healing of the newly joined intestine resulting in spillage of intestinal contents into the abdominal cavity (termed anastomotic leakage). While it is suspected that the intestinal microbiota have the capacity to both accelerate and complicate anastomotic healing, the associated genotypes and functions have not been characterized., Results: Using 16S rRNA amplicon sequencing of samples collected on the day of surgery (postoperative day 0 (POD0)) and the 6th day following surgery (postoperative day 0 (POD6)), we analyzed the changes in luminal versus tissue-associated microbiota at anastomotic sites created in the colon of rats. Results indicated that anastomotic injury induced significant changes in the anastomotic tissue-associated microbiota with minimal differences in the luminal microbiota. The most striking difference was a 500-fold and 200-fold increase in the relative abundance of Enterococcus and Escherichia/Shigella, respectively. Functional profiling predicted the predominance of bacterial virulence-associated pathways in post-anastomotic tissues, including production of hemolysin, cytolethal toxins, fimbriae, invasins, cytotoxic necrotizing factors, and coccolysin., Conclusion: Taken together, our results suggest that compositional and functional changes accompany anastomotic tissues and may potentially accelerate or complicate anastomotic healing.

Published
2014
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42. Report of the 13(th) Genomic Standards Consortium Meeting, Shenzhen, China, March 4-7, 2012.

Author

Gilbert JA, Bao Y, Wang H, Sansone SA, Edmunds SC, Morrison N, Meyer F, Schriml LM, Davies N, Sterk P, Wilkening J, Garrity GM, Field D, Robbins R, Smith DP, Mizrachi I, and Moreau C

Abstract

This report details the outcome of the 13(th) Meeting of the Genomic Standards Consortium. The three-day conference was held at the Kingkey Palace Hotel, Shenzhen, China, on March 5-7, 2012, and was hosted by the Beijing Genomics Institute. The meeting, titled From Genomes to Interactions to Communities to Models, highlighted the role of data standards associated with genomic, metagenomic, and amplicon sequence data and the contextual information associated with the sample. To this end the meeting focused on genomic projects for animals, plants, fungi, and viruses; metagenomic studies in host-microbe interactions; and the dynamics of microbial communities. In addition, the meeting hosted a Genomic Observatories Network session, a Genomic Standards Consortium biodiversity working group session, and a Microbiology of the Built Environment session sponsored by the Alfred P. Sloan Foundation.

Published
2012
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43. Conceptualizing a Genomics Software Institute (GSI).

Author

Gilbert JA, Catlett C, Desai N, Knight R, White O, Robbins R, Sankaran R, Sansone SA, Field D, and Meyer F

Abstract

Microbial ecology has been enhanced greatly by the ongoing 'omics revolution, bringing half the world's biomass and most of its biodiversity into analytical view for the first time; indeed, it feels almost like the invention of the microscope and the discovery of the new world at the same time. With major microbial ecology research efforts accumulating prodigious quantities of sequence, protein, and metabolite data, we are now poised to address environmental microbial research at macro scales, and to begin to characterize and understand the dimensions of microbial biodiversity on the planet. What is currently impeding progress is the need for a framework within which the research community can develop, exchange and discuss predictive ecosystem models that describe the biodiversity and functional interactions. Such a framework must encompass data and metadata transparency and interoperation; data and results validation, curation, and search; application programming interfaces for modeling and analysis tools; and human and technical processes and services necessary to ensure broad adoption. Here we discuss the need for focused community interaction to augment and deepen established community efforts, beginning with the Genomic Standards Consortium (GSC), to create a science-driven strategic plan for a Genomic Software Institute (GSI).

Published
2012
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44. Meeting report: the 2 annual argonne soils workshop, argonne national laboratory, chicago illinois, USA, october 6-8, 2010.

Author

O'Brien SL, Glass EM, Brulc JM, Gilbert JA, Antonopoulos DA, and Meyer F

Abstract

This report summarizes the proceedings of the 2(nd) Annual Argonne Soils Workshop held at Argonne National Laboratory October 6-8, 2010. The workshop assembled a diverse group of soil ecologists, microbiologists, molecular biologists, and computational scientists to discuss the challenges and opportunities related to implementation of metagenomics approaches in soil microbial ecology. The overarching theme of the workshop was "designing ecologically meaningful soil metagenomics research", which encouraged presentations on both ecological and computational topics. The workshop fostered valuable cross-discipline communication and delivered the message that soil metagenomics research must be based on an iterative process between biological inquiry and bioinformatics tools.

Published
2011
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45. The importance of metagenomic surveys to microbial ecology: or why Darwin would have been a metagenomic scientist.

Author

Gilbert JA, O'Dor R, King N, and Vogel TM

Abstract

Scientific discovery is incremental. The Merriam-Webster definition of 'Scientific Method' is "principles and procedures for the systematic pursuit of knowledge involving the recognition and formulation of a problem, the collection of data through observation and experiment, and the formulation and testing of hypotheses". Scientists are taught to be excellent observers, as observations create questions, which in turn generate hypotheses. After centuries of science we tend to assume that we have enough observations to drive science, and enable the small steps and giant leaps which lead to theories and subsequent testable hypotheses. One excellent example of this is Charles Darwin's Voyage of the Beagle, which was essentially an opportunistic survey of biodiversity. Today, obtaining funding for even small-scale surveys of life on Earth is difficult; but few argue the importance of the theory that was generated by Darwin from his observations made during this epic journey. However, these observations, even combined with the parallel work of Alfred Russell Wallace at around the same time have still not generated an indisputable 'law of biology'. The fact that evolution remains a 'theory', at least to the general public, suggests that surveys for new data need to be taken to a new level.

Published
2011
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46. Predicted Relative Metabolomic Turnover (PRMT): determining metabolic turnover from a coastal marine metagenomic dataset.

Author

Larsen PE, Collart FR, Field D, Meyer F, Keegan KP, Henry CS, McGrath J, Quinn J, and Gilbert JA

Abstract

Background: The world's oceans are home to a diverse array of microbial life whose metabolic activity helps to drive the earth's biogeochemical cycles. Metagenomic analysis has revolutionized our access to these communities, providing a system-scale perspective of microbial community interactions. However, while metagenome sequencing can provide useful estimates of the relative change in abundance of specific genes and taxa between environments or over time, this does not investigate the relative changes in the production or consumption of different metabolites., Results: We propose a methodology, Predicted Relative Metabolic Turnover (PRMT) that defines and enables exploration of metabolite-space inferred from the metagenome. Our analysis of metagenomic data from a time-series study in the Western English Channel demonstrated considerable correlations between predicted relative metabolic turnover and seasonal changes in abundance of measured environmental parameters as well as with observed seasonal changes in bacterial population structure., Conclusions: The PRMT method was successfully applied to metagenomic data to explore the Western English Channel microbial metabalome to generate specific, biologically testable hypotheses. Generated hypotheses linked organic phosphate utilization to Gammaproteobactaria, Plantcomycetes, and Betaproteobacteria, chitin degradation to Actinomycetes, and potential small molecule biosynthesis pathways for Lentisphaerae, Chlamydiae, and Crenarchaeota. The PRMT method can be applied as a general tool for the analysis of additional metagenomic or transcriptomic datasets.

Published
2011
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47. The Earth Microbiome Project: Meeting report of the "1 EMP meeting on sample selection and acquisition" at Argonne National Laboratory October 6 2010.

Author

Gilbert JA, Meyer F, Jansson J, Gordon J, Pace N, Tiedje J, Ley R, Fierer N, Field D, Kyrpides N, Glöckner FO, Klenk HP, Wommack KE, Glass E, Docherty K, Gallery R, Stevens R, and Knight R

Abstract

This report details the outcome the first meeting of the Earth Microbiome Project to discuss sample selection and acquisition. The meeting, held at the Argonne National Laboratory on Wednesday October 6(th) 2010, focused on discussion of how to prioritize environmental samples for sequencing and metagenomic analysis as part of the global effort of the EMP to systematically determine the functional and phylogenetic diversity of microbial communities across the world.

Published
2010
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48. Meeting report: the terabase metagenomics workshop and the vision of an Earth microbiome project.

Author

Gilbert JA, Meyer F, Antonopoulos D, Balaji P, Brown CT, Brown CT, Desai N, Eisen JA, Evers D, Field D, Feng W, Huson D, Jansson J, Knight R, Knight J, Kolker E, Konstantindis K, Kostka J, Kyrpides N, Mackelprang R, McHardy A, Quince C, Raes J, Sczyrba A, Shade A, and Stevens R

Abstract

Between July 18(th) and 24(th) 2010, 26 leading microbial ecology, computation, bioinformatics and statistics researchers came together in Snowbird, Utah (USA) to discuss the challenge of how to best characterize the microbial world using next-generation sequencing technologies. The meeting was entitled "Terabase Metagenomics" and was sponsored by the Institute for Computing in Science (ICiS) summer 2010 workshop program. The aim of the workshop was to explore the fundamental questions relating to microbial ecology that could be addressed using advances in sequencing potential. Technological advances in next-generation sequencing platforms such as the Illumina HiSeq 2000 can generate in excess of 250 billion base pairs of genetic information in 8 days. Thus, the generation of a trillion base pairs of genetic information is becoming a routine matter. The main outcome from this meeting was the birth of a concept and practical approach to exploring microbial life on earth, the Earth Microbiome Project (EMP). Here we briefly describe the highlights of this meeting and provide an overview of the EMP concept and how it can be applied to exploration of the microbiome of each ecosystem on this planet.

Published
2010
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49. Meeting Report from the Genomic Standards Consortium (GSC) Workshop 10.

Author

Glass E, Meyer F, Gilbert JA, Field D, Hunter S, Kottmann R, Kyrpides N, Sansone S, Schriml L, Sterk P, White O, and Wooley J

Abstract

This report summarizes the proceedings of the 10th workshop of the Genomic Standards Consortium (GSC), held at Argonne National Laboratory, IL, USA. It was the second GSC workshop to have open registration and attracted over 60 participants who worked together to progress the full range of projects ongoing within the GSC. Overall, the primary focus of the workshop was on advancing the M5 platform for next-generation collaborative computational infrastructures. Other key outcomes included the formation of a GSC working group focused on MIGS/MIMS/MIENS compliance using the ISA software suite and the formal launch of the GSC Developer Working Group. Further information about the GSC and its range of activities can be found at http://gensc.org/.

Published
2010
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50. Meeting report: GSC M5 roundtable at the 13th International Society for Microbial Ecology meeting in Seattle, WA, USA August 22-27, 2010.

Author

Gilbert JA, Meyer F, Knight R, Field D, Kyrpides N, Yilmaz P, and Wooley J

Abstract

This report summarizes the proceedings of the Metagenomics, Metadata, Metaanalysis, Models and Metainfrastructure (M5) Roundtable at the 13th International Society for Microbial Ecology Meeting in Seattle, WA, USA August 22-27, 2010. The Genomic Standards Consortium (GSC) hosted this meeting as a community engagement exercise to describe the GSC to the microbial ecology community during this important international meeting. The roundtable included five talks given by members of the GSC, and was followed by audience participation in the form of a roundtable discussion. This report summarizes this event. Further information on the GSC and its range of activities can be found at http://www.gensc.org.

Published
2010
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