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1. OS-090 Novel epigenetic editing technology targets hepatitis B virus in vivo to deeply and durably repress viral markers

Author

Anglero-Rodriguez, Yesseinia, primary, Abubucker, Sahar, additional, Xiong, John, additional, Medina, Jhon, additional, Mugambwa, Caroline, additional, Choo-wing, Rayman, additional, Jacques, Carrietta, additional, Acosta, Glen, additional, Clarkson, Scott, additional, Bayne, Kendra, additional, Morrison, Mary, additional, Friedland, Ari, additional, Wong, Narayan, additional, Hoque, Zohan, additional, DiPiazza, Amber, additional, Koppana, Parthu, additional, Hung, Kuo-Chan, additional, Abraham, Sameer, additional, Zhai, Adam, additional, Spinelli, Pietro, additional, Myer, Vic, additional, and Jaffe, Aron, additional

Published
2024
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2. A computational framework to explore large-scale biosynthetic diversity

Author

Navarro-Muñoz, Jorge C., Selem-Mojica, Nelly, Mullowney, Michael W., Kautsar, Satria A., Tryon, James H., Parkinson, Elizabeth I., De Los Santos, Emmanuel L. C., Yeong, Marley, Cruz-Morales, Pablo, Abubucker, Sahar, Roeters, Arne, Lokhorst, Wouter, Fernandez-Guerra, Antonio, Cappelini, Luciana Teresa Dias, Goering, Anthony W., Thomson, Regan J., Metcalf, William W., Kelleher, Neil L., Barona-Gomez, Francisco, and Medema, Marnix H.

Published
2020
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3. Widespread Colonization of the Lung by Tropheryma whipplei in HIV Infection

Author

Lozupone, Catherine, Cota-Gomez, Adela, Palmer, Brent E, Linderman, Derek J, Charlson, Emily S, Sodergren, Erica, Mitreva, Makedonka, Abubucker, Sahar, Martin, John, Yao, Guohui, Campbell, Thomas B, Flores, Sonia C, Ackerman, Gail, Stombaugh, Jesse, Ursell, Luke, Beck, James M, Curtis, Jeffrey L, Young, Vincent B, Lynch, Susan V, Huang, Laurence, Weinstock, George M, Knox, Kenneth S, Twigg, Homer, Morris, Alison, Ghedin, Elodie, Bushman, Frederic D, Collman, Ronald G, Knight, Rob, and Fontenot, Andrew P

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Sexually Transmitted Infections, HIV/AIDS, Infectious Diseases, Genetics, Lung, 2.2 Factors relating to the physical environment, Infection, Cohort Studies, HIV Infections, Humans, Longitudinal Studies, Tropheryma, Whipple Disease, human, microbiome, metagenome, 16S ribosomal RNA, bronchoalveolar lavage, Lung HIV Microbiome Project, Medical and Health Sciences, Respiratory System, Cardiovascular medicine and haematology, Clinical sciences
Abstract

RationaleLung infections caused by opportunistic or virulent pathogens are a principal cause of morbidity and mortality in HIV infection. It is unknown whether HIV infection leads to changes in basal lung microflora, which may contribute to chronic pulmonary complications that increasingly are being recognized in individuals infected with HIV.ObjectivesTo determine whether the immunodeficiency associated with HIV infection resulted in alteration of the lung microbiota.MethodsWe used 16S ribosomal RNA targeted pyrosequencing and shotgun metagenomic sequencing to analyze bacterial gene sequences in bronchoalveolar lavage (BAL) and mouths of 82 HIV-positive and 77 HIV-negative subjects.Measurements and main resultsSequences representing Tropheryma whipplei, the etiologic agent of Whipple's disease, were significantly more frequent in BAL of HIV-positive compared with HIV-negative individuals. T. whipplei dominated the community (>50% of sequence reads) in 11 HIV-positive subjects, but only 1 HIV-negative individual (13.4 versus 1.3%; P = 0.0018). In 30 HIV-positive individuals sampled longitudinally, antiretroviral therapy resulted in a significantly reduced relative abundance of T. whipplei in the lung. Shotgun metagenomic sequencing was performed on eight BAL samples dominated by T. whipplei 16S ribosomal RNA. Whole genome assembly of pooled reads showed that uncultured lung-derived T. whipplei had similar gene content to two isolates obtained from subjects with Whipple's disease.ConclusionsAsymptomatic subjects with HIV infection have unexpected colonization of the lung by T. whipplei, which is reduced by effective antiretroviral therapy and merits further study for a potential pathogenic role in chronic pulmonary complications of HIV infection.

Published
2013

4. Indoleacrylic Acid Produced by Commensal Peptostreptococcus Species Suppresses Inflammation

Author

Wlodarska, Marta, Luo, Chengwei, Kolde, Raivo, d’Hennezel, Eva, Annand, John W., Heim, Cortney E., Krastel, Philipp, Schmitt, Esther K., Omar, Abdifatah S., Creasey, Elizabeth A., Garner, Ashley L., Mohammadi, Sina, O’Connell, Daniel J., Abubucker, Sahar, Arthur, Timothy D., Franzosa, Eric A., Huttenhower, Curtis, Murphy, Leon O., Haiser, Henry J., Vlamakis, Hera, Porter, Jeffrey A., and Xavier, Ramnik J.

Published
2017
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5. Sepsis From the Gut: The Enteric Habitat of Bacteria That Cause Late-Onset Neonatal Bloodstream Infections

Author

Carl, Mike A., Ndao, I. Malick, Springman, A. Cody, Manning, Shannon D., Johnson, James R., Johnston, Brian D., Burnham, Carey-Ann D., Weinstock, Erica Sodergren, Weinstock, George M., Wylie, Todd N., Mitreva, Makedonka, Abubucker, Sahar, Zhou, Yanjiao, Stevens, Harold J., Hall-Moore, Carla, Julian, Samuel, Shaikh, Nurmohammad, Warner, Barbara B., and Tarr, Phillip I.

Published
2014
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12. A framework for human microbiome research

Author

Methé, Barbara A., Nelson, Karen E., Pop, Mihai, Creasy, Heather H., Giglio, Michelle G., Huttenhower, Curtis, Gevers, Dirk, Petrosino, Joseph F., Abubucker, Sahar, Badger, Jonathan H., Chinwalla, Asif T., Earl, Ashlee M., FitzGerald, Michael G., Fulton, Robert S., Hallsworth-Pepin, Kymberlie, Lobos, Elizabeth A., Madupu, Ramana, Magrini, Vincent, Martin, John C., Mitreva, Makedonka, Muzny, Donna M., Sodergren, Erica J., Versalovic, James, Wollam, Aye M., Worley, Kim C., Wortman, Jennifer R., Young, Sarah K., Zeng, Qiandong, Aagaard, Kjersti M., Abolude, Olukemi O., Allen-Vercoe, Emma, Alm, Eric J., Alvarado, Lucia, Andersen, Gary L., Anderson, Scott, Appelbaum, Elizabeth, Arachchi, Harindra M., Armitage, Gary, Arze, Cesar A., Ayvaz, Tulin, Baker, Carl C., Begg, Lisa, Belachew, Tsegahiwot, Bhonagiri, Veena, Bihan, Monika, Blaser, Martin J., Bloom, Toby, Bonazzi, Vivien R., Brooks, Paul, Buck, Gregory A., Buhay, Christian J., Busam, Dana A., Campbell, Joseph L., Canon, Shane R., Cantarel, Brandi L., Chain, Patrick S., Chen, I-Min A., Chen, Lei, Chhibba, Shaila, Chu, Ken, Ciulla, Dawn M., Clemente, Jose C., Clifton, Sandra W., Conlan, Sean, Crabtree, Jonathan, Cutting, Mary A., Davidovics, Noam J., Davis, Catherine C., DeSantis, Todd Z., Deal, Carolyn, Delehaunty, Kimberley D., Dewhirst, Floyd E., Deych, Elena, Ding, Yan, Dooling, David J., Dugan, Shannon P., Dunne, Michael W., Jr, Durkin, Scott A., Edgar, Robert C., Erlich, Rachel L., Farmer, Candace N., Farrell, Ruth M., Faust, Karoline, Feldgarden, Michael, Felix, Victor M., Fisher, Sheila, Fodor, Anthony A., Forney, Larry, Foster, Leslie, Di Francesco, Valentina, Friedman, Jonathan, Friedrich, Dennis C., Fronick, Catrina C., Fulton, Lucinda L., Gao, Hongyu, Garcia, Nathalia, Giannoukos, Georgia, Giblin, Christina, Giovanni, Maria Y., Goldberg, Jonathan M., Goll, Johannes, Gonzalez, Antonio, Griggs, Allison, Gujja, Sharvari, Haas, Brian J., Hamilton, Holli A., Harris, Emily L., Hepburn, Theresa A., Herter, Brandi, Hoffmann, Diane E., Holder, Michael E., Howarth, Clinton, Huang, Katherine H., Huse, Susan M., Izard, Jacques, Jansson, Janet K., Jiang, Huaiyang, Jordan, Catherine, Joshi, Vandita, Katancik, James A., Keitel, Wendy A., Kelley, Scott T., Kells, Cristyn, Kinder-Haake, Susan, King, Nicholas B., Knight, Rob, Knights, Dan, Kong, Heidi H., Koren, Omry, Koren, Sergey, Kota, Karthik C., Kovar, Christie L., Kyrpides, Nikos C., La Rosa, Patricio S., Lee, Sandra L., Lemon, Katherine P., Lennon, Niall, Lewis, Cecil M., Lewis, Lora, Ley, Ruth E., Li, Kelvin, Liolios, Konstantinos, Liu, Bo, Liu, Yue, Lo, Chien-Chi, Lozupone, Catherine A., Lunsford, Dwayne R., Madden, Tessa, Mahurkar, Anup A., Mannon, Peter J., Mardis, Elaine R., Markowitz, Victor M., Mavrommatis, Konstantinos, McCorrison, Jamison M., McDonald, Daniel, McEwen, Jean, McGuire, Amy L., McInnes, Pamela, Mehta, Teena, Mihindukulasuriya, Kathie A., Miller, Jason R., Minx, Patrick J., Newsham, Irene, Nusbaum, Chad, O’Laughlin, Michelle, Orvis, Joshua, Pagani, Ioanna, Palaniappan, Krishna, Patel, Shital M., Pearson, Matthew, Peterson, Jane, Podar, Mircea, Pohl, Craig, Pollard, Katherine S., Priest, Margaret E., Proctor, Lita M., Qin, Xiang, Raes, Jeroen, Ravel, Jacques, Reid, Jeffrey G., Rho, Mina, Rhodes, Rosamond, Riehle, Kevin P., Rivera, Maria C., Rodriguez-Mueller, Beltran, Rogers, Yu-Hui, Ross, Matthew C., Russ, Carsten, Sanka, Ravi K., Sankar, Pamela, Sathirapongsasuti, Fah J., Schloss, Jeffery A., Schloss, Patrick D., Schmidt, Thomas M., Scholz, Matthew, Schriml, Lynn, Schubert, Alyxandria M., Segata, Nicola, Segre, Julia A., Shannon, William D., Sharp, Richard R., Sharpton, Thomas J., Shenoy, Narmada, Sheth, Nihar U., Simone, Gina A., Singh, Indresh, Smillie, Chris S., Sobel, Jack D., Sommer, Daniel D., Spicer, Paul, Sutton, Granger G., Sykes, Sean M., Tabbaa, Diana G., Thiagarajan, Mathangi, Tomlinson, Chad M., Torralba, Manolito, Treangen, Todd J., Truty, Rebecca M., Vishnivetskaya, Tatiana A., Walker, Jason, Wang, Lu, Wang, Zhengyuan, Ward, Doyle V., Warren, Wesley, Watson, Mark A., Wellington, Christopher, Wetterstrand, Kris A., White, James R., Wilczek-Boney, Katarzyna, Wu, Yuan Qing, Wylie, Kristine M., Wylie, Todd, Yandava, Chandri, Ye, Liang, Ye, Yuzhen, Yooseph, Shibu, Youmans, Bonnie P., Zhang, Lan, Zhou, Yanjiao, Zhu, Yiming, Zoloth, Laurie, Zucker, Jeremy D., Birren, Bruce W., Gibbs, Richard A., Highlander, Sarah K., Weinstock, George M., Wilson, Richard K., and White, Owen

Published
2012
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13. Structure, function and diversity of the healthy human microbiome

Author

Huttenhower, Curtis, Gevers, Dirk, Knight, Rob, Abubucker, Sahar, Badger, Jonathan H., Chinwalla, Asif T., Creasy, Heather H., Earl, Ashlee M., FitzGerald, Michael G., Fulton, Robert S., Giglio, Michelle G., Hallsworth-Pepin, Kymberlie, Lobos, Elizabeth A., Madupu, Ramana, Magrini, Vincent, Martin, John C., Mitreva, Makedonka, Muzny, Donna M., Sodergren, Erica J., Versalovic, James, Wollam, Aye M., Worley, Kim C., Wortman, Jennifer R., Young, Sarah K., Zeng, Qiandong, Aagaard, Kjersti M., Abolude, Olukemi O., Allen-Vercoe, Emma, Alm, Eric J., Alvarado, Lucia, Andersen, Gary L., Anderson, Scott, Appelbaum, Elizabeth, Arachchi, Harindra M., Armitage, Gary, Arze, Cesar A., Ayvaz, Tulin, Baker, Carl C., Begg, Lisa, Belachew, Tsegahiwot, Bhonagiri, Veena, Bihan, Monika, Blaser, Martin J., Bloom, Toby, Bonazzi, Vivien, Brooks, Paul J., Buck, Gregory A., Buhay, Christian J., Busam, Dana A., Campbell, Joseph L., Canon, Shane R., Cantarel, Brandi L., Chain, Patrick S. G., Chen, I-Min A., Chen, Lei, Chhibba, Shaila, Chu, Ken, Ciulla, Dawn M., Clemente, Jose C., Clifton, Sandra W., Conlan, Sean, Crabtree, Jonathan, Cutting, Mary A., Davidovics, Noam J., Davis, Catherine C., DeSantis, Todd Z., Deal, Carolyn, Delehaunty, Kimberley D., Dewhirst, Floyd E., Deych, Elena, Ding, Yan, Dooling, David J., Dugan, Shannon P., Dunne, Wm Michael, Durkin, Scott A., Edgar, Robert C., Erlich, Rachel L., Farmer, Candace N., Farrell, Ruth M., Faust, Karoline, Feldgarden, Michael, Felix, Victor M., Fisher, Sheila, Fodor, Anthony A., Forney, Larry J., Foster, Leslie, Di Francesco, Valentina, Friedman, Jonathan, Friedrich, Dennis C., Fronick, Catrina C., Fulton, Lucinda L., Gao, Hongyu, Garcia, Nathalia, Giannoukos, Georgia, Giblin, Christina, Giovanni, Maria Y., Goldberg, Jonathan M., Goll, Johannes, Gonzalez, Antonio, Griggs, Allison, Gujja, Sharvari, Haake, Susan Kinder, Haas, Brian J., Hamilton, Holli A., Harris, Emily L., Hepburn, Theresa A., Herter, Brandi, Hoffmann, Diane E., Holder, Michael E., Howarth, Clinton, Huang, Katherine H., Huse, Susan M., Izard, Jacques, Jansson, Janet K., Jiang, Huaiyang, Jordan, Catherine, Joshi, Vandita, Katancik, James A., Keitel, Wendy A., Kelley, Scott T., Kells, Cristyn, King, Nicholas B., Knights, Dan, Kong, Heidi H., Koren, Omry, Koren, Sergey, Kota, Karthik C., Kovar, Christie L., Kyrpides, Nikos C., La Rosa, Patricio S., Lee, Sandra L., Lemon, Katherine P., Lennon, Niall, Lewis, Cecil M., Lewis, Lora, Ley, Ruth E., Li, Kelvin, Liolios, Konstantinos, Liu, Bo, Liu, Yue, Lo, Chien-Chi, Lozupone, Catherine A., Lunsford, Dwayne R., Madden, Tessa, Mahurkar, Anup A., Mannon, Peter J., Mardis, Elaine R., Markowitz, Victor M., Mavromatis, Konstantinos, McCorrison, Jamison M., McDonald, Daniel, McEwen, Jean, McGuire, Amy L., McInnes, Pamela, Mehta, Teena, Mihindukulasuriya, Kathie A., Miller, Jason R., Minx, Patrick J., Newsham, Irene, Nusbaum, Chad, O’Laughlin, Michelle, Orvis, Joshua, Pagani, Ioanna, Palaniappan, Krishna, Patel, Shital M., Pearson, Matthew, Peterson, Jane, Podar, Mircea, Pohl, Craig, Pollard, Katherine S., Pop, Mihai, Priest, Margaret E., Proctor, Lita M., Qin, Xiang, Raes, Jeroen, Ravel, Jacques, Reid, Jeffrey G., Rho, Mina, Rhodes, Rosamond, Riehle, Kevin P., Rivera, Maria C., Rodriguez-Mueller, Beltran, Rogers, Yu-Hui, Ross, Matthew C., Russ, Carsten, Sanka, Ravi K., Sankar, Pamela, Sathirapongsasuti, Fah J., Schloss, Jeffery A., Schloss, Patrick D., Schmidt, Thomas M., Scholz, Matthew, Schriml, Lynn, Schubert, Alyxandria M., Segata, Nicola, Segre, Julia A., Shannon, William D., Sharp, Richard R., Sharpton, Thomas J., Shenoy, Narmada, Sheth, Nihar U., Simone, Gina A., Singh, Indresh, Smillie, Christopher S., Sobel, Jack D., Sommer, Daniel D., Spicer, Paul, Sutton, Granger G., Sykes, Sean M., Tabbaa, Diana G., Thiagarajan, Mathangi, Tomlinson, Chad M., Torralba, Manolito, Treangen, Todd J., Truty, Rebecca M., Vishnivetskaya, Tatiana A., Walker, Jason, Wang, Lu, Wang, Zhengyuan, Ward, Doyle V., Warren, Wesley, Watson, Mark A., Wellington, Christopher, Wetterstrand, Kris A., White, James R., Wilczek-Boney, Katarzyna, Wu, YuanQing, Wylie, Kristine M., Wylie, Todd, Yandava, Chandri, Ye, Liang, Ye, Yuzhen, Yooseph, Shibu, Youmans, Bonnie P., Zhang, Lan, Zhou, Yanjiao, Zhu, Yiming, Zoloth, Laurie, Zucker, Jeremy D., Birren, Bruce W., Gibbs, Richard A., Highlander, Sarah K., Methé, Barbara A., Nelson, Karen E., Petrosino, Joseph F., Weinstock, George M., Wilson, Richard K., and White, Owen

Published
2012
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15. Tombusvirus p19 Captures RNase III-Cleaved Double-Stranded RNAs Formed by Overlapping Sense and Antisense Transcripts in Escherichia coli

Author

Huang, Linfeng, primary, Deighan, Padraig, additional, Jin, Jingmin, additional, Li, Yingxue, additional, Cheung, Hung-Chi, additional, Lee, Elaine, additional, Mo, Shirley S., additional, Hoover, Heather, additional, Abubucker, Sahar, additional, Finkel, Nancy, additional, McReynolds, Larry, additional, Hochschild, Ann, additional, and Lieberman, Judy, additional

Published
2020
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18. A computational framework to explore large-scale biosynthetic diversity

Author

Navarro-Munoz, J.C., Selem-Mojica, Nelly, Mullowney, Michael W., Kautsar, Satria A., Tryon, James H., Parkinson, Elizabeth, I, De Los Santos, Emmanuel L. C., Yeong, Marley, Cruz-Morales, Pablo, Abubucker, Sahar, Roeters, Arne, Lokhorst, Wouter, Fernandez-Guerra, Antonio, Cappelini, Luciana Teresa Dias, Goering, Anthony W., Thomson, Regan J., Metcalf, William W., Kelleher, Neil L., Barona-Gomez, Francisco, Medema, Marnix H., Navarro-Munoz, J.C., Selem-Mojica, Nelly, Mullowney, Michael W., Kautsar, Satria A., Tryon, James H., Parkinson, Elizabeth, I, De Los Santos, Emmanuel L. C., Yeong, Marley, Cruz-Morales, Pablo, Abubucker, Sahar, Roeters, Arne, Lokhorst, Wouter, Fernandez-Guerra, Antonio, Cappelini, Luciana Teresa Dias, Goering, Anthony W., Thomson, Regan J., Metcalf, William W., Kelleher, Neil L., Barona-Gomez, Francisco, and Medema, Marnix H.

Published
2020

19. A computational framework to explore large-scale biosynthetic diversity

Author

Navarro-Muñoz, Jorge C, Selem-Mojica, Nelly, Mullowney, Michael W, Kautsar, Satria A, Tryon, James H, Parkinson, Elizabeth I, De Los Santos, Emmanuel L C, Yeong, Marley, Cruz-Morales, Pablo, Abubucker, Sahar, Roeters, Arne, Lokhorst, Wouter, Fernandez-Guerra, Antonio, Cappelini, Luciana Teresa Dias, Goering, Anthony W, Thomson, Regan J, Metcalf, William W, Kelleher, Neil L, Barona-Gomez, Francisco, Medema, Marnix H, Navarro-Muñoz, Jorge C, Selem-Mojica, Nelly, Mullowney, Michael W, Kautsar, Satria A, Tryon, James H, Parkinson, Elizabeth I, De Los Santos, Emmanuel L C, Yeong, Marley, Cruz-Morales, Pablo, Abubucker, Sahar, Roeters, Arne, Lokhorst, Wouter, Fernandez-Guerra, Antonio, Cappelini, Luciana Teresa Dias, Goering, Anthony W, Thomson, Regan J, Metcalf, William W, Kelleher, Neil L, Barona-Gomez, Francisco, and Medema, Marnix H

Abstract

Genome mining has become a key technology to exploit natural product diversity. Although initially performed on a single-genome basis, the process is now being scaled up to mine entire genera, strain collections and microbiomes. However, no bioinformatic framework is currently available for effectively analyzing datasets of this size and complexity. In the present study, a streamlined computational workflow is provided, consisting of two new software tools: the 'biosynthetic gene similarity clustering and prospecting engine' (BiG-SCAPE), which facilitates fast and interactive sequence similarity network analysis of biosynthetic gene clusters and gene cluster families; and the 'core analysis of syntenic orthologues to prioritize natural product gene clusters' (CORASON), which elucidates phylogenetic relationships within and across these families. BiG-SCAPE is validated by correlating its output to metabolomic data across 363 actinobacterial strains and the discovery potential of CORASON is demonstrated by comprehensively mapping biosynthetic diversity across a range of detoxin/rimosamide-related gene cluster families, culminating in the characterization of seven detoxin analogues.

Published
2020

20. Microbial community function and biomarker discovery in the human microbiome

Author

Segata, Nicola, Abubucker, Sahar, Goll, Johannes, Schubert, Alyxandria M, Izard, Jacques, Cantarel, Brandi L, Rodriguez-Mueller, Beltran, Waldron, Levi, Zucker, Jeremy, Thiagarajan, Mathangi, Henrissat, Bernard, White, Owen, Kelley, Scott T, Methé, Barbara, Schloss, Patrick D, Garrett, Wendy S, Gevers, Dirk, Mitreva, Makedonka, and Huttenhower, Curtis

Published
2011
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21. Exploring metazoan evolution through dynamic and holistic changes in protein families and domains

Author

Wang Zhengyuan, Zarlenga Dante, Martin John, Abubucker Sahar, and Mitreva Makedonka

Subjects
Proteins, Domains, Evolution, Metazoa, Vertebrates, Arthropods, Nematodes, QH359-425
Abstract

Abstract Background Proteins convey the majority of biochemical and cellular activities in organisms. Over the course of evolution, proteins undergo normal sequence mutations as well as large scale mutations involving domain duplication and/or domain shuffling. These events result in the generation of new proteins and protein families. Processes that affect proteome evolution drive species diversity and adaptation. Herein, change over the course of metazoan evolution, as defined by birth/death and duplication/deletion events within protein families and domains, was examined using the proteomes of 9 metazoan and two outgroup species. Results In studying members of the three major metazoan groups, the vertebrates, arthropods, and nematodes, we found that the number of protein families increased at the majority of lineages over the course of metazoan evolution where the magnitude of these increases was greatest at the lineages leading to mammals. In contrast, the number of protein domains decreased at most lineages and at all terminal lineages. This resulted in a weak correlation between protein family birth and domain birth; however, the correlation between domain birth and domain member duplication was quite strong. These data suggest that domain birth and protein family birth occur via different mechanisms, and that domain shuffling plays a role in the formation of protein families. The ratio of protein family birth to protein domain birth (domain shuffling index) suggests that shuffling had a more demonstrable effect on protein families in nematodes and arthropods than in vertebrates. Through the contrast of high and low domain shuffling indices at the lineages of Trichinella spiralis and Gallus gallus, we propose a link between protein redundancy and evolutionary changes controlled by domain shuffling; however, the speed of adaptation among the different lineages was relatively invariant. Evaluating the functions of protein families that appeared or disappeared at the last common ancestors (LCAs) of the three metazoan clades supports a correlation with organism adaptation. Furthermore, bursts of new protein families and domains in the LCAs of metazoans and vertebrates are consistent with whole genome duplications. Conclusion Metazoan speciation and adaptation were explored by birth/death and duplication/deletion events among protein families and domains. Our results provide insights into protein evolution and its bearing on metazoan evolution.

Published
2012
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22. Effects of Doxycycline on gene expression in Wolbachia and Brugia malayi adult female worms in vivo

Author

Rao Ramakrishna U, Huang Yuefang, Abubucker Sahar, Heinz Michael, Crosby Seth D, Mitreva Makedonka, and Weil Gary J

Subjects
Doxycycline, Brugia malayi, Wolbachia, Filariasis, Gene expression, Microarray, Medicine
Abstract

Abstract Background Most filarial nematodes contain Wolbachia symbionts. The purpose of this study was to examine the effects of doxycycline on gene expression in Wolbachia and adult female Brugia malayi. Methods Brugia malayi infected gerbils were treated with doxycycline for 6-weeks. This treatment largely cleared Wolbachia and arrested worm reproduction. RNA recovered from treated and control female worms was labeled by random priming and hybridized to the Version 2- filarial microarray to obtain expression profiles. Results and discussion Results showed significant changes in expression for 200 Wolbachia (29% of Wolbachia genes with expression signals in untreated worms) and 546 B. malayi array elements after treatment. These elements correspond to known genes and also to novel genes with unknown biological functions. Most differentially expressed Wolbachia genes were down-regulated after treatment (98.5%). In contrast, doxycycline had a mixed effect on B. malayi gene expression with many more genes being significantly up-regulated after treatment (85% of differentially expressed genes). Genes and processes involved in reproduction (gender-regulated genes, collagen, amino acid metabolism, ribosomal processes, and cytoskeleton) were down-regulated after doxycycline while up-regulated genes and pathways suggest adaptations for survival in response to stress (energy metabolism, electron transport, anti-oxidants, nutrient transport, bacterial signaling pathways, and immune evasion). Conclusions Doxycycline reduced Wolbachia and significantly decreased bacterial gene expression. Wolbachia ribosomes are believed to be the primary biological target for doxycycline in filarial worms. B. malayi genes essential for reproduction, growth and development were also down-regulated; these changes are consistent with doxycycline effects on embryo development and reproduction. On the other hand, many B. malayi genes involved in energy production, electron-transport, metabolism, anti-oxidants, and others with unknown functions had increased expression signals after doxycycline treatment. These results suggest that female worms are able to compensate in part for the loss of Wolbachia so that they can survive, albeit without reproductive capacity. This study of doxycycline induced changes in gene expression has provided new clues regarding the symbiotic relationship between Wolbachia and B. malayi.

Published
2012
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23. Big-Scape/Corason Tutorial

Author

Navarro, Jorge, Selem, Nelly, Mullowney, Michael, Cruz-Morales Pablo, Parkinson Elizabeth, Tryon Hudson, Kautsar Satria, De Los Santos Emmanuel L.C., Yeong Marley, Abubucker Sahar, Roeters Arne, Lokhorst Wouter, Fernandez-Guerra Antonio, Dias Cappelini Luciana Teresa, Thomson Regan, Metcalf William W., Kelleher Neil L., Barona-Gomez Francisco, and Medema Marnix H.

Abstract

This is a data set preparedfor the tutorial of thegenome mining toolsBiG-SCAPE/CORASON. Actinobacteria genomesand biosynthetical gene clusters (BGCs) information are stored in gbk files. Aminoacid sequence ofquery enzyme TauD fromStreptomyces sp. NRRL B-1347is provided here as fasta file. Content isorganized here in threedirectories as follows: i) genomes.tar.gz 14 Actinobacteria genome files (gbk files) 1 Spectinomycin BGCfrom MIBiG database (gbk file) ii) gbk.tar.gz 22BGCsselected from the antiSMASH output of the 14 genomes in genome directory. 1 Spectinomycin BGCfrom MIBiG database (gbk file) iii) TauD Aminoacid sequence ofAlpha-ketoglutarate-dependent taurine dioxygenase (EC 1.14.11.17) fromStreptomyces sp. NRRL B-1347&nbsp

Published
2018
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24. A computational framework to explore large-scale biosynthetic diversity

Author

Navarro-Muñoz, Jorge C., primary, Selem-Mojica, Nelly, additional, Mullowney, Michael W., additional, Kautsar, Satria A., additional, Tryon, James H., additional, Parkinson, Elizabeth I., additional, De Los Santos, Emmanuel L. C., additional, Yeong, Marley, additional, Cruz-Morales, Pablo, additional, Abubucker, Sahar, additional, Roeters, Arne, additional, Lokhorst, Wouter, additional, Fernandez-Guerra, Antonio, additional, Cappelini, Luciana Teresa Dias, additional, Goering, Anthony W., additional, Thomson, Regan J., additional, Metcalf, William W., additional, Kelleher, Neil L., additional, Barona-Gomez, Francisco, additional, and Medema, Marnix H., additional

Published
2019
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26. Characterizing Ancylostoma caninum transcriptome and exploring nematode parasitic adaptation

Author

Hawdon John, Wilson Richard K, Martin John, Abubucker Sahar, Wang Zhengyuan, and Mitreva Makedonka

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Hookworm infection is one of the most important neglected diseases in developing countries, with approximately 1 billion people infected worldwide. To better understand hookworm biology and nematode parasitism, the present study generated a near complete transcriptome of the canine hookworm Ancylostoma caninum to a very high coverage using high throughput technology, and compared it to those of the free-living nematode Caenorhabditis elegans and the parasite Brugia malayi. Results The generated transcripts from four developmental stages, infective L3, serum stimulated L3, adult male and adult female, covered 93% of the A. caninum transcriptome. The broad diversity among nematode transcriptomes was confirmed, and an impact of parasitic adaptation on transcriptome diversity was inferred. Intra-population analysis showed that A. caninum has higher coding sequence diversity than humans. Examining the developmental expression profiles of A. caninum revealed major transitions in gene expression from larval stages to adult. Adult males expressed the highest number of selectively expressed genes, but adult female expressed the highest number of selective parasitism-related genes. Genes related to parasitism adaptation and A. caninum specific genes exhibited more expression selectivity while those conserved in nematodes tend to be consistently expressed. Parasitism related genes were expressed more selectively in adult male and female worms. The comprehensive analysis of digital expression profiles along with transcriptome comparisons enabled identification of a set of parasitism genes encoding secretory proteins in animal parasitic nematode. Conclusions This study validated the usage of deep sequencing for gene expression profiling. Parasitic adaptation of the canine hookworm is related to its diversity and developmental dynamics. This comprehensive comparative genomic and expression study substantially improves our understanding of the basic biology and parasitism of hookworms and, is expected, in the long run, to accelerate research toward development of vaccines and novel anthelmintics.

Published
2010
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27. Molecular determinants archetypical to the phylum Nematoda

Author

McCarter James P, Rychlewski Leszek, Wyrwicz Lucjan, Wang Zhengyuan, Abubucker Sahar, Martin John, Yin Yong, Wilson Richard K, and Mitreva Makedonka

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Nematoda diverged from other animals between 600–1,200 million years ago and has become one of the most diverse animal phyla on earth. Most nematodes are free-living animals, but many are parasites of plants and animals including humans, posing major ecological and economical challenges around the world. Results We investigated phylum-specific molecular characteristics in Nematoda by exploring over 214,000 polypeptides from 32 nematode species including 27 parasites. Over 50,000 nematode protein families were identified based on primary sequence, including ~10% with members from at least three different species. Nearly 1,600 of the multi-species families did not share homology to Pfam domains, including a total of 758 restricted to Nematoda. Majority of the 462 families that were conserved among both free-living and parasitic species contained members from multiple nematode clades, yet ~90% of the 296 parasite-specific families originated only from a single clade. Features of these protein families were revealed through extrapolation of essential functions from observed RNAi phenotypes in C. elegans, bioinformatics-based functional annotations, identification of distant homology based on protein folds, and prediction of expression at accessible nematode surfaces. In addition, we identified a group of nematode-restricted sequence features in energy-generating electron transfer complexes as potential targets for new chemicals with minimal or no toxicity to the host. Conclusion This study identified and characterized the molecular determinants that help in defining the phylum Nematoda, and therefore improved our understanding of nematode protein evolution and provided novel insights for the development of next generation parasite control strategies.

Published
2009
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28. Systematic analysis of insertions and deletions specific to nematode proteins and their proposed functional and evolutionary relevance

Author

Gasser Robin B, Yin Yong, Abubucker Sahar, Martin John, Wang Zhengyuan, and Mitreva Makedonka

Subjects
Evolution, QH359-425
Abstract

Abstract Background Amino acid insertions and deletions in proteins are considered relatively rare events, and their associations with the evolution and adaptation of organisms are not yet understood. In this study, we undertook a systematic analysis of over 214,000 polypeptides from 32 nematode species and identified insertions and deletions unique to nematode proteins in more than 1000 families and provided indirect evidence that these alterations are linked to the evolution and adaptation of nematodes. Results Amino acid alterations in sequences of nematodes were identified by comparison with homologous sequences from a wide range of eukaryotic (metzoan) organisms. This comparison revealed that the proteins inferred from transcriptomic datasets for nematodes contained more deletions than insertions, and that the deletions tended to be larger in length than insertions, indicating a decreased size of the transcriptome of nematodes compared with other organisms. The present findings showed that this reduction is more pronounced in parasitic nematodes compared with the free-living nematodes of the genus Caenorhabditis. Consistent with a requirement for conservation in proteins involved in the processing of genetic information, fewer insertions and deletions were detected in such proteins. On the other hand, more insertions and deletions were recorded for proteins inferred to be involved in the endocrine and immune systems, suggesting a link with adaptation. Similarly, proteins involved in multiple cellular pathways tended to display more deletions and insertions than those involved in a single pathway. The number of insertions and deletions shared by a range of plant parasitic nematodes were higher for proteins involved in lipid metabolism and electron transport compared with other nematodes, suggesting an association between metabolic adaptation and parasitism in plant hosts. We also identified three sizable deletions from proteins found to be specific to and shared by parasitic nematodes, which, given their uniqueness, might serve as target candidates for drug design. Conclusion This study illustrates the significance of using comparative genomics approaches to identify molecular elements unique to parasitic nematodes, which have adapted to a particular host organism and mode of existence during evolution. While the focus of this study was on nematodes, the approach has applicability to a wide range of other groups of organisms.

Published
2009
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29. NemaPath: online exploration of KEGG-based metabolic pathways for nematodes

Author

Wang Zhengyuan, Messina David, Yin Yong, Abubucker Sahar, Martin John, Wylie Todd, McCarter James P, and Mitreva Makedonka

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Nematode.net http://www.nematode.net is a web-accessible resource for investigating gene sequences from parasitic and free-living nematode genomes. Beyond the well-characterized model nematode C. elegans, over 500,000 expressed sequence tags (ESTs) and nearly 600,000 genome survey sequences (GSSs) have been generated from 36 nematode species as part of the Parasitic Nematode Genomics Program undertaken by the Genome Center at Washington University School of Medicine. However, these sequencing data are not present in most publicly available protein databases, which only include sequences in Swiss-Prot. Swiss-Prot, in turn, relies on GenBank/Embl/DDJP for predicted proteins from complete genomes or full-length proteins. Description Here we present the NemaPath pathway server, a web-based pathway-level visualization tool for navigating putative metabolic pathways for over 30 nematode species, including 27 parasites. The NemaPath approach consists of two parts: 1) a backend tool to align and evaluate nematode genomic sequences (curated EST contigs) against the annotated Kyoto Encyclopedia of Genes and Genomes (KEGG) protein database; 2) a web viewing application that displays annotated KEGG pathway maps based on desired confidence levels of primary sequence similarity as defined by a user. NemaPath also provides cross-referenced access to nematode genome information provided by other tools available on Nematode.net, including: detailed NemaGene EST cluster information; putative translations; GBrowse EST cluster views; links from nematode data to external databases for corresponding synonymous C. elegans counterparts, subject matches in KEGG's gene database, and also KEGG Ontology (KO) identification. Conclusion The NemaPath server hosts metabolic pathway mappings for 30 nematode species and is available on the World Wide Web at http://nematode.net/cgi-bin/keggview.cgi. The nematode source sequences used for the metabolic pathway mappings are available via FTP http://www.nematode.net/FTP/index.php, as provided by the Genome Center at Washington University School of Medicine.

Published
2008
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30. Tombusvirusp19 captures RNase III-cleaved double-stranded RNAs formed by overlapping sense and antisense transcripts inE. coli

Author

Huang, Linfeng, primary, Deighan, Padraig, additional, Jin, Jingmin, additional, Li, Yingxue, additional, Lee, Elaine, additional, Mo, Shirley S., additional, Hoover, Heather, additional, Abubucker, Sahar, additional, Finkel, Nancy, additional, McReynolds, Larry, additional, Hochschild, Ann, additional, and Lieberman, Judy, additional

Published
2019
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31. A computational framework for systematic exploration of biosynthetic diversity from large-scale genomic data

Author

Navarro-Muñoz, Jorge C., primary, Selem-Mojica, Nelly, additional, Mullowney, Michael W., additional, Kautsar, Satria, additional, Tryon, James H., additional, Parkinson, Elizabeth I., additional, De Los Santos, Emmanuel L.C., additional, Yeong, Marley, additional, Cruz-Morales, Pablo, additional, Abubucker, Sahar, additional, Roeters, Arne, additional, Lokhorst, Wouter, additional, Fernandez-Guerra, Antonio, additional, Dias Cappelini, Luciana Teresa, additional, Thomson, Regan J., additional, Metcalf, William W., additional, Kelleher, Neil L., additional, Barona-Gomez, Francisco, additional, and Medema, Marnix H., additional

Published
2018
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32. The transcriptomes of the cattle parasitic nematode Ostertagia ostartagi

Author

Abubucker, Sahar, Zarlenga, Dante S., Martin, John, Yin, Yong, Wang, Zhengyuan, McCarter, James P., Gasbarree, Louis, Wilson, Richard K., Mitreva, Makedonka, Abubucker, Sahar, Zarlenga, Dante S., Martin, John, Yin, Yong, Wang, Zhengyuan, McCarter, James P., Gasbarree, Louis, Wilson, Richard K., and Mitreva, Makedonka

Abstract

Ostertagia ostertagi is a gastrointestinal parasitic nematode that affects cattle and leads to a loss of production. In this study, we present the first large-scale genomic survey of O. ostertagi by the analysis of expressed transcripts from three stages of the parasite: third- stage larvae, fourth-stage larvae and adult worms. Using an in silico approach, 2284 genes were identified from over 7000 expressed sequence tags and abundant transcripts were analyzed and characterized by their functional profile. Of the 2284 genes, 66% had similarity to other known or predicted genes while the rest were novel and potentially represent genes specific to the species and/or stages. Furthermore, a subset of the novel proteins were structurally annotated and assigned putative function based on orthologs in Caenorhabditis elegans and corresponding RNA interference phenotypes. Hence, over 70% of the genes were annotated using protein sequences, domains and pathway databases. Differentially expressed transcripts from the two larval stages and their functional profiles were also studied leading to a more detailed understanding of the parasite’s life-cycle. The identified transcripts are a valuable resource for genomic studies of O. ostertagi and can facilitate the design of control strategies and vaccine programs.

Published
2018

34. A framework for human microbiome research

Author

The Human Microbiome, Project Consortium, Methé, Barbara A, Nelson, Karen E, Pop, Mihai, Creasy, Heather H., Giglio, Michelle G., Huttenhower, Curtis, Gevers, D., Petrosino, Joseph, Abubucker, Sahar, Badger, Jonathan H., Chinwalla, Asif T., Earl, Ashlee M., Fitzgerald, Michael G., Fulton, Robert S., Hallsworth-Pepin, Kymberlie, Lobos, Elizabeth A., Madupu, Ramana, Magrini, Vincent, Martin, John C., Mitreva, Makedonka, Muzny, Donna M., Sodergren, Erica J., Versalovic, James, Wollam, Aye M., Worley, Kim C, Wortman, Jennifer R., Young, Sarah K., Zeng, Qiandong, Faust, Karoline, Raes, Jeroen, and Department of Bio-engineering Sciences

Subjects
microbiome
Abstract

A variety of microbial communities and their genes (the microbiome) exist throughout the human body, with fundamental roles in human health and disease. The National Institutes of Health (NIH)-funded Human Microbiome Project Consortium has established a population-scale framework to develop metagenomic protocols, resulting in a broad range of quality-controlled resources and data including standardized methods for creating, processing and interpreting distinct types of high-throughput metagenomic data available to the scientific community. Here we present resources from a population of 242 healthy adults sampled at 15 or 18 body sites up to three times, which have generated 5,177 microbial taxonomic profiles from 16S ribosomal RNA genes and over 3.5 terabases of metagenomic sequence so far. In parallel, approximately 800 reference strains isolated from the human body have been sequenced. Collectively, these data represent the largest resource describing the abundance and variety of the human microbiome, whileproviding a framework for current and future studies.

Published
2012

35. Structure, function and diversity of the healthy human microbiome

Author

The Human Microbiome, Project Consortium, Huttenhower, Curtis, Gevers, D., Knight, Rob, Abubucker, Sahar, Badger, Jonathan H., Chinwalla, Asif T., Creasy, Heather H., Earl, Ashlee M., Fitzgerald, Michael G., Fulton, Robert S., Giglio, Michelle G., Hallsworth-Pepin, Kymberlie, Lobos, Elizabeth A., Madupu, Ramana, Magrini, Vincent, Martin, John C., Mitreva, Makedonka, Muzny, Donna M., Sodergren, Erica J., Versalovic, James, Wollam, Aye M., Worley, Kim C, Wortman, Jennifer R, Young, Sarah K., Zeng, Qiandong, Faust, Karoline, Raes, Jeroen, and Department of Bio-engineering Sciences

Subjects
human, microbiome
Abstract

Studies of the human microbiome have revealed that even healthy individuals differ remarkably in the microbes that occupy habitats such as the gut, skin and vagina. Much of this diversity remains unexplained, although diet, environment, host genetics and early microbial exposure have all been implicated. Accordingly, to characterize the ecology of human-associated microbial communities, the Human Microbiome Project has analysed the largest cohort and set of distinct, clinically relevant body habitats so far. We found the diversity and abundance of each habitat's signature microbes to vary widely even among healthy subjects, with strong niche specialization both within and among individuals. The project encountered an estimated 81-99% of the genera, enzyme families and community configurations occupied by the healthy Western microbiome. Metagenomic carriage of metabolic pathways was stable among individuals despite variation in community structure, and ethnic/racial background proved to be one of the strongestassociations of both pathways and microbes with clinical metadata. These results thus delineate the range of structural and functional configurations normal in the microbial communities of a healthy population, enabling future characterization of the epidemiology, ecology and translational applications of the human microbiome.

Published
2012

36. Metabolic and metagenomic outcomes from early-life pulsed antibiotic treatment

Author

Nobel, Yael R., primary, Cox, Laura M., additional, Kirigin, Francis F., additional, Bokulich, Nicholas A., additional, Yamanishi, Shingo, additional, Teitler, Isabel, additional, Chung, Jennifer, additional, Sohn, Jiho, additional, Barber, Cecily M., additional, Goldfarb, David S., additional, Raju, Kartik, additional, Abubucker, Sahar, additional, Zhou, Yanjiao, additional, Ruiz, Victoria E., additional, Li, Huilin, additional, Mitreva, Makedonka, additional, Alekseyenko, Alexander V., additional, Weinstock, George M., additional, Sodergren, Erica, additional, and Blaser, Martin J., additional

Published
2015
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37. Intestinal Transcriptomes of Nematodes: Comparison of the Parasites Ascarissuum and Haemonchuscontortus with the Free-living Caenorhabditiselegans

Author

Yin, Yong, Martin, John, Abubucker, Sahar, Scott, Alan L., McCarter, James P., Wilson, Richard K., Jasmer, Douglas P., and Mitreva, Makedonka

Subjects
Other medical sciences
Abstract

Background: The nematode intestine is a major organ responsible for nutrient digestion and absorption; it is also involved in many other processes, such as reproduction, innate immunity, stress responses, and aging. The importance of the intestine as a target for the control of parasitic nematodes has been demonstrated. However, the lack of detailed knowledge on the molecular and cellular functions of the intestine and the level of its conservation across nematodes has impeded breakthroughs in this application. MethodsandFindings: As part of an extensive effort to investigate various transcribed genomes from Ascaris suum and Haemonchus contortus, we generated a large collection of intestinal sequences from parasitic nematodes by identifying 3,121 A. suum and 1,755 H. contortus genes expressed in the adult intestine through the generation of expressed sequence tags. Cross-species comparisons to the intestine of the free-living C. elegans revealed substantial diversification in the adult intestinal transcriptomes among these species, suggesting lineage- or species-specific adaptations during nematode evolution. In contrast, significant conservation of the intestinal gene repertories was also evident, despite the evolutionary distance of ,350 million years separating them. A group of 241 intestinal protein families (IntFam-241), each containing members from all three species, was identified based on sequence similarities. These conserved proteins accounted for,20% of the sampled intestinal transcriptomes from the three nematodes and are proposed to represent conserved core functions in the nematode intestine. Functional characterizations of the IntFam-241 suggested important roles in molecular functions such as protein kinases and proteases, and biological pathways of carbohydrate metabolism, energy metabolism, and translation. Conservation in the core protein families was further explored by extrapolating observable RNA interference phenotypes in C. elegans to their parasitic counterparts. Conclusions: Our study has provided novel insights into the nematode intestine and lays foundations for further comparative studies on biology, parasitism, and evolution within the phylum Nematoda.

Published
2008

42. A Framework for Human Microbiome Research

Author

HARVARD SCHOOL OF PUBLIC HEALTH BOSTON MA, Methe, Barbara A, Nelson, Karen E, Pop, Mihai, Creasy, Heather H, Giglio, Michelle G, Huttenhower, Curtis, Gevers, Dirk, Petrosino, Joseph F, Abubucker, Sahar, Badger, Jonathan H, HARVARD SCHOOL OF PUBLIC HEALTH BOSTON MA, Methe, Barbara A, Nelson, Karen E, Pop, Mihai, Creasy, Heather H, Giglio, Michelle G, Huttenhower, Curtis, Gevers, Dirk, Petrosino, Joseph F, Abubucker, Sahar, and Badger, Jonathan H

Abstract

A variety of microbial communities and their genes (the microbiome) exist throughout the human body, with fundamental roles in human health and disease. The National Institutes of Health (NIH)-funded Human Microbiome Project Consortium has established a population-scale framework to develop metagenomic protocols, resulting in a broad range of quality-controlled resources and data including standardized methods for creating, processing and interpreting distinct types of high-throughput metagenomic data available to the scientific community. Here we present resources from a population of 242 healthy adults sampled at 15 or 18 body sites up to three times, which have generated 5,177 microbial taxonomic profiles from 16S ribosomal RNA genes and over 3.5 terabases of metagenomic sequence so far. In parallel, approximately 800 reference strains isolated from the human body have been sequenced. Collectively, these data represent the largest resource describing the abundance and variety of the human microbiome, while providing a framework for current and future studies., Published in the Journal of Nature, v486 p215-221, 14 June 2012.

Published
2012

43. Structure, Function and Diversity of the Healthy Human Microbiome

Author

HARVARD SCHOOL OF PUBLIC HEALTH BOSTON MA, Huttenhower, Curtis, Gevers, Dirk, Knight, Rob, Abubucker, Sahar, Badger, Jonathan H, Chinwalla, Asif T, Creasy, Heather H, Earl, Ashlee M, FitzGerald, Michael G, Fulton, Robert S, HARVARD SCHOOL OF PUBLIC HEALTH BOSTON MA, Huttenhower, Curtis, Gevers, Dirk, Knight, Rob, Abubucker, Sahar, Badger, Jonathan H, Chinwalla, Asif T, Creasy, Heather H, Earl, Ashlee M, FitzGerald, Michael G, and Fulton, Robert S

Abstract

Studies of the human microbiome have revealed that even healthy individuals differ remarkably in the microbes that occupy habitats such as the gut, skin and vagina. Much of this diversity remains unexplained, although diet, environment, host genetics and early microbial exposure have all been implicated. Accordingly, to characterize the ecology of human-associated microbial communities, the Human Microbiome Project has analysed the largest cohort and set of distinct, clinically relevant body habitats so far. We found the diversity and abundance of each habitat's signature microbes to vary widely even among healthy subjects, with strong niche specialization both within and among individuals. The project encountered an estimated 81-99% of the genera, enzyme families and community configurations occupied by the healthy Western microbiome. Metagenomic carriage of metabolic pathways was stable among individuals despite variation in community structure, and ethnic/racial background proved to be one of the strongest associations of both pathways and microbes with clinical metadata. These results thus delineate the range of structural and functional configurations normal in the microbial communities of a healthy population, enabling future characterization of the epidemiology, ecology and translational applications of the human microbiome., Published in the Journal of Nature, v486 p207-214, 14 June 2012.

Published
2012

44. Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome

Author

Zucker, Jeremy, Abubucker, Sahar, Segata, Nicola, Goll, Johannes, Schubert, Alyxandria M., Izard, Jacques, Cantarel, Brandi L., Rodriguez-Mueller, Beltran, Thiagarajan, Mathangi, Henrissat, Bernard, White, Owen, Kelley, Scott T., Methe, Barbara, Schloss, Patrick D., Gevers, Dirk, Mitreva, Makedonka, Huttenhower, Curtis, Zucker, Jeremy, Abubucker, Sahar, Segata, Nicola, Goll, Johannes, Schubert, Alyxandria M., Izard, Jacques, Cantarel, Brandi L., Rodriguez-Mueller, Beltran, Thiagarajan, Mathangi, Henrissat, Bernard, White, Owen, Kelley, Scott T., Methe, Barbara, Schloss, Patrick D., Gevers, Dirk, Mitreva, Makedonka, and Huttenhower, Curtis

Abstract

Microbial communities carry out the majority of the biochemical activity on the planet, and they play integral roles in processes including metabolism and immune homeostasis in the human microbiome. Shotgun sequencing of such communities' metagenomes provides information complementary to organismal abundances from taxonomic markers, but the resulting data typically comprise short reads from hundreds of different organisms and are at best challenging to assemble comparably to single-organism genomes. Here, we describe an alternative approach to infer the functional and metabolic potential of a microbial community metagenome. We determined the gene families and pathways present or absent within a community, as well as their relative abundances, directly from short sequence reads. We validated this methodology using a collection of synthetic metagenomes, recovering the presence and abundance both of large pathways and of small functional modules with high accuracy. We subsequently applied this method, HUMAnN, to the microbial communities of 649 metagenomes drawn from seven primary body sites on 102 individuals as part of the Human Microbiome Project (HMP). This provided a means to compare functional diversity and organismal ecology in the human microbiome, and we determined a core of 24 ubiquitously present modules. Core pathways were often implemented by different enzyme families within different body sites, and 168 functional modules and 196 metabolic pathways varied in metagenomic abundance specifically to one or more niches within the microbiome. These included glycosaminoglycan degradation in the gut, as well as phosphate and amino acid transport linked to host phenotype (vaginal pH) in the posterior fornix. An implementation of our methodology is available at http://huttenhower.sph.harvard.edu/human​n. This provides a means to accurately and efficiently characterize microbial metabolic pathways and functional modules directly from high-throughput sequencing reads, National Institutes of Health (U.S.) (U54HG004968)

Published
2012

45. Genome of the human hookworm Necator americanus

Author

Tang, Yat T, primary, Gao, Xin, additional, Rosa, Bruce A, additional, Abubucker, Sahar, additional, Hallsworth-Pepin, Kymberlie, additional, Martin, John, additional, Tyagi, Rahul, additional, Heizer, Esley, additional, Zhang, Xu, additional, Bhonagiri-Palsikar, Veena, additional, Minx, Patrick, additional, Warren, Wesley C, additional, Wang, Qi, additional, Zhan, Bin, additional, Hotez, Peter J, additional, Sternberg, Paul W, additional, Dougall, Annette, additional, Gaze, Soraya Torres, additional, Mulvenna, Jason, additional, Sotillo, Javier, additional, Ranganathan, Shoba, additional, Rabelo, Elida M, additional, Wilson, Richard K, additional, Felgner, Philip L, additional, Bethony, Jeffrey, additional, Hawdon, John M, additional, Gasser, Robin B, additional, Loukas, Alex, additional, and Mitreva, Makedonka, additional

Published
2014
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50. Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome

Author

Abubucker, Sahar, primary, Segata, Nicola, additional, Goll, Johannes, additional, Schubert, Alyxandria M., additional, Izard, Jacques, additional, Cantarel, Brandi L., additional, Rodriguez-Mueller, Beltran, additional, Zucker, Jeremy, additional, Thiagarajan, Mathangi, additional, Henrissat, Bernard, additional, White, Owen, additional, Kelley, Scott T., additional, Methé, Barbara, additional, Schloss, Patrick D., additional, Gevers, Dirk, additional, Mitreva, Makedonka, additional, and Huttenhower, Curtis, additional

Published
2012
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