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4. The genomic binding sites of a noncoding RNA

Author

Simon, Matthew D., Wang, Charlotte I., Kharchenko, Peter V., West, Jason A., Chapman, Brad A., Alekseyenko, Artyom A., Borowsky, Mark L., Kuroda, Mitzi I., and Kingston, Robert E.

Published
2011

5. DNA sequence of human chromosome 17 and analysis of rearrangement in the human lineage

Author

Zody, Michael C., Garber, Manuel, Adams, David J., Sharpe, Ted, Harrow, Jennifer, Lupski, James R., Nicholson, Christine, Searle, Steven M., Wilming, Laurens, Young, Sarah K., Abouelleil, Amr, Allen, Nicole R., Bi, Weimin, Bloom, Toby, Borowsky, Mark L., Bugalter, Boris E., Butler, Jonathan, Chang, Jean L., Chen, Chao-Kung, Cook, April, Corum, Benjamin, Cuomo, Christina A., de Jong, Pieter J., DeCaprio, David, Dewar, Ken, FitzGerald, Michael, Gilbert, James, Gibson, Richard, Gnerre, Sante, Goldstein, Steven, Grafham, Darren V., Grocock, Russell, Hafez, Nabil, Hagopian, Daniel S., Hart, Elizabeth, Norman, Catherine Hosage, Humphray, Sean, Jaffe, David B., Jones, Matt, Kamal, Michael, Khodiyar, Varsha K., LaButti, Kurt, Laird, Gavin, Lehoczky, Jessica, Liu, Xiaohong, Lokyitsang, Tashi, Loveland, Jane, Lui, Annie, Macdonald, Pendexter, Major, John E., Matthews, Lucy, Mauceli, Evan, McCarroll, Steven A., Mihalev, Atanas H., Mudge, Jonathan, Nguyen, Cindy, Nicol, Robert, O'Leary, Sinéad B., Osoegawa, Kazutoyo, Schwartz, David C., Shaw-Smith, Charles, Stankiewicz, Pawel, Steward, Charles, Swarbreck, David, Venkataraman, Vijay, Whittaker, Charles A., Yang, Xiaoping, Zimmer, Andrew R., Bradley, Allan, Hubbard, Tim, Birren, Bruce W., Rogers, Jane, Lander, Eric S., and Nusbaum, Chad

Published
2006
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6. Analysis of the DNA sequence and duplication history of human chromosome 15

Author

Zody, Michael C., Garber, Manuel, Sharpe, Ted, Young, Sarah K., Rowen, Lee, O'Neill, Keith, Whittaker, Charles A., Kamal, Michael, Chang, Jean L., Cuomo, Christina A., Dewar, Ken, FitzGerald, Michael G., Kodira, Chinnappa D., Madan, Anup, Qin, Shizhen, Yang, Xiaoping, Abbasi, Nissa, Abouelleil, Amr, Arachchi, Harindra M., Baradarani, Lida, Birditt, Brian, Bloom, Scott, Bloom, Toby, Borowsky, Mark L., Burke, Jeremy, Butler, Jonathan, Cook, April, DeArellano, Kurt, DeCaprio, David, Dorris, III, Lester, Dors, Monica, Eichler, Evan E., Engels, Reinhard, Fahey, Jessica, Fleetwood, Peter, Friedman, Cynthia, Gearin, Gary, Hall, Jennifer L., Hensley, Grace, Johnson, Ericka, Jones, Charlien, Kamat, Asha, Kaur, Amardeep, Locke, Devin P., Madan, Anuradha, Munson, Glen, Jaffe, David B., Lui, Annie, Macdonald, Pendexter, Mauceli, Evan, Naylor, Jerome W., Nesbitt, Ryan, Nicol, Robert, O'Leary, Sinead B., Ratcliffe, Amber, Rounsley, Steven, She, Xinwei, Sneddon, Katherine M. B., Stewart, Sandra, Sougnez, Carrie, Stone, Sabrina M., Topham, Kerri, Vincent, Dascena, Wang, Shunguang, Zimmer, Andrew R., Birren, Bruce W., Hood, Leroy, Lander, Eric S., and Nusbaum, Chad

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Michael C. Zody (corresponding author) [1]; Manuel Garber [1]; Ted Sharpe [1]; Sarah K. Young [1]; Lee Rowen [2]; Keith O'Neill [1]; Charles A. Whittaker [1, 6]; Michael Kamal [...]

Published
2006
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7. DNA sequence and analysis of human chromosome 8

Author

Nusbaum, Chad, Mikkelsen, Tarjei S., Zody, Michael C., Asakawa, Shuichi, Taudien, Stefan, Garber, Manuel, Kodira, Chinnappa D., Schueler, Mary G., Shimizu, Atsushi, Whittaker, Charles A., Chang, Jean L., Cuomo, Christina A., Dewar, Ken, FitzGerald, Michael G., Yang, Xiaoping, Allen, Nicole R., Anderson, Scott, Asakawa, Teruyo, Blechschmidt, Karin, Bloom, Toby, Borowsky, Mark L., Butler, Jonathan, Cook, April, Corum, Benjamin, DeArellano, Kurt, DeCaprio, David, Dooley, Kathleen T., Dorris, III, Lester, Engels, Reinhard, Glockner, Gernot, Hafez, Nabil, Hagopian, Daniel S., Hall, Jennifer L., Ishikawa, Sabine K., Jaffe, David B., Kamat, Asha, Kudoh, Jun, Lehmann, Rudiger, Lokitsang, Tashi, Macdonald, Pendexter, Major, John E., Matthews, Charles D., Mauceli, Evan, Menzel, Uwe, Mihalev, Atanas H., Minoshima, Shinsei, Murayama, Yuji, Naylor, Jerome W., Nicol, Robert, Nguyen, Cindy, O'Leary, Sinead B., O'Neill, Keith, Parker, Stephen C. J., Polley, Andreas, Raymond, Christina K., Reichwald, Kathrin, Rodriguez, Joseph, Sasaki, Takashi, Schilhabel, Markus, Siddiqui, Roman, Smith, Cherylyn L., Sneddon, Tam P., Talamas, Jessica A., Tenzin, Pema, Topham, Kerri, Venkataraman, Vijay, Wen, Gaiping, Yamazaki, Satoru, Young, Sarah K., Zeng, Qiandong, Zimmer, Andrew R., Rosenthal, Andre, Birren, Bruce W., Platzer, Matthias, Shimizu, Nobuyoshi, and Lander, Eric S.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Chad Nusbaum (corresponding author) [1]; Tarjei S. Mikkelsen [1]; Michael C. Zody [1]; Shuichi Asakawa [2]; Stefan Taudien [3]; Manuel Garber [1]; Chinnappa D. Kodira [1]; Mary G. Schueler [...]

Published
2006
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8. DNA sequence and analysis of human chromosome 18

Author

Nusbaum, Chad, Zody, Michael C., Borowsky, Mark L., Kamal, Michael, Kodira, Chinnappa D., Taylor, Todd D., Whittaker, Charles A., Chang, Jean L., Cuomo, Christina A., Dewar, Ken, FitzGerald, Michael G., Yang, Xiaoping, Abouelleil, Amr, Allen, Nicole R., Anderson, Scott, Bloom, Toby, Bugalter, Boris, Butler, Jonathan, Cook, April, DeCaprio, David, Engels, Reinhard, Garber, Manuel, Gnirke, Andreas, Hafez, Nabil, Hall, Jennifer L., Norman, Catherine Hosage, Itoh, Takehiko, Jaffe, David B., Kuroki, Yoko, Lehoczky, Jessica, Lui, Annie, Macdonald, Pendexter, Mauceli, Evan, Mikkelsen, Tarjei S., Naylor, Jerome W., Nicol, Robert, Nguyen, Cindy, Noguchi, Hideki, O'Leary, Sinead B., Piqani, Bruno, L Smith, Cherylyn, Talamas, Jessica A., Topham, Kerri, Totoki, Yasushi, Toyoda, Atsushi, Wain, Hester M., Young, Sarah K., Zeng, Qiandong, Zimmer, Andrew R., Fujiyama, Asao, Hattori, Masahira, Birren, Bruce W., Sakaki, Yoshiyuki, and Lander, Eric S.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Chad Nusbaum (corresponding author) [1]; Michael C. Zody [1]; Mark L. Borowsky [1]; Michael Kamal [1]; Chinnappa D. Kodira [1]; Todd D. Taylor [2]; Charles A. Whittaker [1, 8]; [...]

Published
2005
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10. Ten simple rules to power drug discovery with data science

Author

Ferrero, Enrico, primary, Brachat, Sophie, additional, Jenkins, Jeremy L., additional, Marc, Philippe, additional, Skewes-Cox, Peter, additional, Altshuler, Robert C., additional, Gubser Keller, Caroline, additional, Kauffmann, Audrey, additional, Sassaman, Erik K., additional, Laramie, Jason M., additional, Schoeberl, Birgit, additional, Borowsky, Mark L., additional, and Stiefl, Nikolaus, additional

Published
2020
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11. Atypical case of Wolfram syndrome revealed through targeted exome sequencing in a patient with suspected mitochondrial disease

Author

Lieber Daniel S, Vafai Scott B, Horton Laura C, Slate Nancy G, Liu Shangtao, Borowsky Mark L, Calvo Sarah E, Schmahmann Jeremy D, and Mootha Vamsi K

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Mitochondrial diseases comprise a diverse set of clinical disorders that affect multiple organ systems with varying severity and age of onset. Due to their clinical and genetic heterogeneity, these diseases are difficult to diagnose. We have developed a targeted exome sequencing approach to improve our ability to properly diagnose mitochondrial diseases and apply it here to an individual patient. Our method targets mitochondrial DNA (mtDNA) and the exons of 1,600 nuclear genes involved in mitochondrial biology or Mendelian disorders with multi-system phenotypes, thereby allowing for simultaneous evaluation of multiple disease loci. Case Presentation Targeted exome sequencing was performed on a patient initially suspected to have a mitochondrial disorder. The patient presented with diabetes mellitus, diffuse brain atrophy, autonomic neuropathy, optic nerve atrophy, and a severe amnestic syndrome. Further work-up revealed multiple heteroplasmic mtDNA deletions as well as profound thiamine deficiency without a clear nutritional cause. Targeted exome sequencing revealed a homozygous c.1672C > T (p.R558C) missense mutation in exon 8 of WFS1 that has previously been reported in a patient with Wolfram syndrome. Conclusion This case demonstrates how clinical application of next-generation sequencing technology can enhance the diagnosis of patients suspected to have rare genetic disorders. Furthermore, the finding of unexplained thiamine deficiency in a patient with Wolfram syndrome suggests a potential link between WFS1 biology and thiamine metabolism that has implications for the clinical management of Wolfram syndrome patients.

Published
2012
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12. Short-term genome evolution of Listeria monocytogenes in a non-controlled environment

Author

Ivy Reid A, Birren Bruce W, Galagan James E, Nusbaum Chad, Young Sarah K, Lauer Peter, Borowsky Mark L, Orsi Renato H, Sun Qi, Graves Lewis M, Swaminathan Bala, and Wiedmann Martin

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

Abstract Background While increasing data on bacterial evolution in controlled environments are available, our understanding of bacterial genome evolution in natural environments is limited. We thus performed full genome analyses on four Listeria monocytogenes, including human and food isolates from both a 1988 case of sporadic listeriosis and a 2000 listeriosis outbreak, which had been linked to contaminated food from a single processing facility. All four isolates had been shown to have identical subtypes, suggesting that a specific L. monocytogenes strain persisted in this processing plant over at least 12 years. While a genome sequence for the 1988 food isolate has been reported, we sequenced the genomes of the 1988 human isolate as well as a human and a food isolate from the 2000 outbreak to allow for comparative genome analyses. Results The two L. monocytogenes isolates from 1988 and the two isolates from 2000 had highly similar genome backbone sequences with very few single nucleotide (nt) polymorphisms (1 – 8 SNPs/isolate; confirmed by re-sequencing). While no genome rearrangements were identified in the backbone genome of the four isolates, a 42 kb prophage inserted in the chromosomal comK gene showed evidence for major genome rearrangements. The human-food isolate pair from each 1988 and 2000 had identical prophage sequence; however, there were significant differences in the prophage sequences between the 1988 and 2000 isolates. Diversification of this prophage appears to have been caused by multiple homologous recombination events or possibly prophage replacement. In addition, only the 2000 human isolate contained a plasmid, suggesting plasmid loss or acquisition events. Surprisingly, besides the polymorphisms found in the comK prophage, a single SNP in the tRNA Thr-4 prophage represents the only SNP that differentiates the 1988 isolates from the 2000 isolates. Conclusion Our data support the hypothesis that the 2000 human listeriosis outbreak was caused by a L. monocytogenes strain that persisted in a food processing facility over 12 years and show that genome sequencing is a valuable and feasible tool for retrospective epidemiological analyses. Short-term evolution of L. monocytogenes in non-controlled environments appears to involve limited diversification beyond plasmid gain or loss and prophage diversification, highlighting the importance of phages in bacterial evolution.

Published
2008
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13. Histone H3R2 Symmetric Dimethylation and Histone H3K4 Trimethylation Are Tightly Correlated in Eukaryotic Genomes

Author

Massachusetts Institute of Technology. Department of Biology, Matthews, Adam G. W., Yuan, Chih-Chi, Chen, Chang Feng, Chapman, Brad A., Ohsumi, Toshiro K., Glass, Karen C., Kutateladze, Tatiana G., Borowsky, Mark L., Struhl, Kevin, Oettinger, Marjorie A., Jin, Yi, M. Eng. Massachusetts Institute of Technology, Massachusetts Institute of Technology. Department of Biology, Matthews, Adam G. W., Yuan, Chih-Chi, Chen, Chang Feng, Chapman, Brad A., Ohsumi, Toshiro K., Glass, Karen C., Kutateladze, Tatiana G., Borowsky, Mark L., Struhl, Kevin, Oettinger, Marjorie A., and Jin, Yi, M. Eng. Massachusetts Institute of Technology

Abstract

The preferential in vitro interaction of the PHD finger of RAG2, a subunit of the V(D)J recombinase, with histone H3 tails simultaneously trimethylated at lysine 4 and symmetrically dimethylated at arginine 2 (H3R2me2sK4me3) predicted the existence of the previously unknown histone modification H3R2me2s. Here, we report the in vivo identification of H3R2me2s . Consistent with the binding specificity of the RAG2 PHD finger, high levels of H3R2me2sK4me3 are found at antigen receptor gene segments ready for rearrangement. However, this double modification is much more general; it is conserved throughout eukaryotic evolution. In mouse, H3R2me2s is tightly correlated with H3K4me3 at active promoters throughout the genome. Mutational analysis in S. cerevisiae reveals that deposition of H3R2me2s requires the same Set1 complex that deposits H3K4me3. Our work suggests that H3R2me2sK4me3, not simply H3K4me3 alone, is the mark of active promoters and that factors that recognize H3K4me3 will have their binding modulated by their preference for H3R2me2s., Damon Runyon Cancer Research Foundation (Damon Runyon Fellow DRG-1994-08)

Published
2016

14. CAT7 and cat7l Long Non-coding RNAs Tune Polycomb Repressive Complex 1 Function during Human and Zebrafish Development

Author

Ray, Mridula K., primary, Wiskow, Ole, additional, King, Matthew J., additional, Ismail, Nidha, additional, Ergun, Ayla, additional, Wang, Yanqun, additional, Plys, Aaron J., additional, Davis, Christopher P., additional, Kathrein, Katie, additional, Sadreyev, Ruslan, additional, Borowsky, Mark L., additional, Eggan, Kevin, additional, Zon, Leonard, additional, Galloway, Jenna L., additional, and Kingston, Robert E., additional

Published
2016
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15. Genomic analysis identifies targets of convergent positive selection in drug-resistant Mycobacterium tuberculosis

Author

Massachusetts Institute of Technology. Department of Biology, Lander, Eric S., Farhat, Maha R., Shapiro, B. Jesse, Kieser, Karen J., Sultana, Razvan, Jacobson, Karen R., Victor, Thomas C., Warren, Robin M., Streicher, Elizabeth M., Calver, Alistair, Sloutsky, Alex, Kaur, Devinder, Posey, Jamie E., Plikaytis, Bonnie, Oggioni, Marco R., Gardy, Jennifer L., Johnston, James C., Rodrigues, Mabel, Tang, Patrick K. C., Kato-Maeda, Midori, Borowsky, Mark L., Muddukrishna, Bhavana, Kreiswirth, Barry N., Kurepina, Natalia, Galagan, James E., Gagneux, Sebastien, Birren, Bruce W., Rubin, Eric J., Sabeti, Pardis C., Murray, Megan B., Lander, Eric Steven, Massachusetts Institute of Technology. Department of Biology, Lander, Eric S., Farhat, Maha R., Shapiro, B. Jesse, Kieser, Karen J., Sultana, Razvan, Jacobson, Karen R., Victor, Thomas C., Warren, Robin M., Streicher, Elizabeth M., Calver, Alistair, Sloutsky, Alex, Kaur, Devinder, Posey, Jamie E., Plikaytis, Bonnie, Oggioni, Marco R., Gardy, Jennifer L., Johnston, James C., Rodrigues, Mabel, Tang, Patrick K. C., Kato-Maeda, Midori, Borowsky, Mark L., Muddukrishna, Bhavana, Kreiswirth, Barry N., Kurepina, Natalia, Galagan, James E., Gagneux, Sebastien, Birren, Bruce W., Rubin, Eric J., Sabeti, Pardis C., Murray, Megan B., and Lander, Eric Steven

Abstract

M. tuberculosis is evolving antibiotic resistance, threatening attempts at tuberculosis epidemic control. Mechanisms of resistance, including genetic changes favored by selection in resistant isolates, are incompletely understood. Using 116 newly sequenced and 7 previously sequenced M. tuberculosis whole genomes, we identified genome-wide signatures of positive selection specific to the 47 drug-resistant strains. By searching for convergent evolution—the independent fixation of mutations in the same nucleotide position or gene—we recovered 100% of a set of known resistance markers. We also found evidence of positive selection in an additional 39 genomic regions in resistant isolates. These regions encode components in cell wall biosynthesis, transcriptional regulation and DNA repair pathways. Mutations in these regions could directly confer resistance or compensate for fitness costs associated with resistance. Functional genetic analysis of mutations in one gene, ponA1, demonstrated an in vitro growth advantage in the presence of the drug rifampicin.

Published
2014

16. The spring-loaded genome: Nucleosome redistributions are widespread, transient, and DNA-directed

Author

Sexton, Brittany S., primary, Avey, Denis, additional, Druliner, Brooke R., additional, Fincher, Justin A., additional, Vera, Daniel L., additional, Grau, Daniel J., additional, Borowsky, Mark L., additional, Gupta, Shobhit, additional, Girimurugan, Senthil B., additional, Chicken, Eric, additional, Zhang, Jinfeng, additional, Noble, William S., additional, Zhu, Fanxiu, additional, Kingston, Robert E., additional, and Dennis, Jonathan H., additional

Published
2013
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17. Sequencing chromosomal abnormalities reveals neurodevelopmental loci that confer risk across diagnostic boundaries

Author

Talkowski, Michael E, Rosenfeld, Jill A, Blumenthal, Ian, Pillalamarri, Vamsee, Chiang, Colby, Heilbut, Adrian, Ernst, Carl, Hanscom, Carrie, Rossin, Elizabeth, Lindgren, Amelia M, Pereira, Shahrin, Ruderfer, Douglas, Kirby, Andrew, Ripke, Stephan, Harris, David J, Lee, Ji-Hyun, Ha, Kyungsoo, Kim, Hyung-Goo, Solomon, Benjamin D, Gropman, Andrea L, Lucente, Diane, Sims, Katherine, Ohsumi, Toshiro K, Borowsky, Mark L, Loranger, Stephanie, Quade, Bradley, Hansen, Kasper Lage, Miles, Judith, Wu, Bai-Lin, Shen, Yiping, Neale, Benjamin, Shaffer, Lisa G, Daly, Mark J, Morton, Cynthia C, Gusella, James F, Talkowski, Michael E, Rosenfeld, Jill A, Blumenthal, Ian, Pillalamarri, Vamsee, Chiang, Colby, Heilbut, Adrian, Ernst, Carl, Hanscom, Carrie, Rossin, Elizabeth, Lindgren, Amelia M, Pereira, Shahrin, Ruderfer, Douglas, Kirby, Andrew, Ripke, Stephan, Harris, David J, Lee, Ji-Hyun, Ha, Kyungsoo, Kim, Hyung-Goo, Solomon, Benjamin D, Gropman, Andrea L, Lucente, Diane, Sims, Katherine, Ohsumi, Toshiro K, Borowsky, Mark L, Loranger, Stephanie, Quade, Bradley, Hansen, Kasper Lage, Miles, Judith, Wu, Bai-Lin, Shen, Yiping, Neale, Benjamin, Shaffer, Lisa G, Daly, Mark J, Morton, Cynthia C, and Gusella, James F

Abstract

Balanced chromosomal abnormalities (BCAs) represent a relatively untapped reservoir of single-gene disruptions in neurodevelopmental disorders (NDDs). We sequenced BCAs in patients with autism or related NDDs, revealing disruption of 33 loci in four general categories: (1) genes previously associated with abnormal neurodevelopment (e.g., AUTS2, FOXP1, and CDKL5), (2) single-gene contributors to microdeletion syndromes (MBD5, SATB2, EHMT1, and SNURF-SNRPN), (3) novel risk loci (e.g., CHD8, KIRREL3, and ZNF507), and (4) genes associated with later-onset psychiatric disorders (e.g., TCF4, ZNF804A, PDE10A, GRIN2B, and ANK3). We also discovered among neurodevelopmental cases a profoundly increased burden of copy-number variants from these 33 loci and a significant enrichment of polygenic risk alleles from genome-wide association studies of autism and schizophrenia. Our findings suggest a polygenic risk model of autism and reveal that some neurodevelopmental genes are sensitive to perturbation by multiple mutational mechanisms, leading to variable phenotypic outcomes that manifest at different life stages.

Published
2012

18. Short-term genome evolution of Listeria monocytogenes in a non-controlled environment

Author

Broad Institute of MIT and Harvard, Borowsky, Mark L., Young, Sarah K., Nusbaum, Chad, Galagan, James E., Birren, Bruce W., Orsi, Renato H., Lauer, Peter, Ivy, Reid A., Sun, Qi, Graves, Lewis M., Swaminathan, Bala, Wiedmann, Martin, Broad Institute of MIT and Harvard, Borowsky, Mark L., Young, Sarah K., Nusbaum, Chad, Galagan, James E., Birren, Bruce W., Orsi, Renato H., Lauer, Peter, Ivy, Reid A., Sun, Qi, Graves, Lewis M., Swaminathan, Bala, and Wiedmann, Martin

Abstract

Background: While increasing data on bacterial evolution in controlled environments are available, our understanding of bacterial genome evolution in natural environments is limited. We thus performed full genome analyses on four Listeria monocytogenes, including human and food isolates from both a 1988 case of sporadic listeriosis and a 2000 listeriosis outbreak, which had been linked to contaminated food from a single processing facility. All four isolates had been shown to have identical subtypes, suggesting that a specific L. monocytogenes strain persisted in this processing plant over at least 12 years. While a genome sequence for the 1988 food isolate has been reported, we sequenced the genomes of the 1988 human isolate as well as a human and a food isolate from the 2000 outbreak to allow for comparative genome analyses. Results: The two L. monocytogenes isolates from 1988 and the two isolates from 2000 had highly similar genome backbone sequences with very few single nucleotide (nt) polymorphisms (1 – 8 SNPs/isolate; confirmed by re-sequencing). While no genome rearrangements were identified in the backbone genome of the four isolates, a 42 kb prophage inserted in the chromosomal comK gene showed evidence for major genome rearrangements. The human-food isolate pair from each 1988 and 2000 had identical prophage sequence; however, there were significant differences in the prophage sequences between the 1988 and 2000 isolates. Diversification of this prophage appears to have been caused by multiple homologous recombination events or possibly prophage replacement. In addition, only the 2000 human isolate contained a plasmid, suggesting plasmid loss or acquisition events. Surprisingly, besides the polymorphisms found in the comK prophage, a single SNP in the tRNA Thr-4 prophage represents the only SNP that differentiates the 1988 isolates from the 2000 isolates. Conclusion: Our data support the hypothesis that the 2000 human listeriosis outbreak was caused by a L

Published
2009

20. Genomic analysis identifies targets of convergent positive selection in drug-resistant Mycobacterium tuberculosis

Author

Farhat, Maha R, primary, Shapiro, B Jesse, additional, Kieser, Karen J, additional, Sultana, Razvan, additional, Jacobson, Karen R, additional, Victor, Thomas C, additional, Warren, Robin M, additional, Streicher, Elizabeth M, additional, Calver, Alistair, additional, Sloutsky, Alex, additional, Kaur, Devinder, additional, Posey, Jamie E, additional, Plikaytis, Bonnie, additional, Oggioni, Marco R, additional, Gardy, Jennifer L, additional, Johnston, James C, additional, Rodrigues, Mabel, additional, Tang, Patrick K C, additional, Kato-Maeda, Midori, additional, Borowsky, Mark L, additional, Muddukrishna, Bhavana, additional, Kreiswirth, Barry N, additional, Kurepina, Natalia, additional, Galagan, James, additional, Gagneux, Sebastien, additional, Birren, Bruce, additional, Rubin, Eric J, additional, Lander, Eric S, additional, Sabeti, Pardis C, additional, and Murray, Megan, additional

Published
2013
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21. Genome-wide Chromatin Interactions of the Nanog Locus in Pluripotency, Differentiation, and Reprogramming

Author

Apostolou, Effie, primary, Ferrari, Francesco, additional, Walsh, Ryan M., additional, Bar-Nur, Ori, additional, Stadtfeld, Matthias, additional, Cheloufi, Sihem, additional, Stuart, Hannah T., additional, Polo, Jose M., additional, Ohsumi, Toshiro K., additional, Borowsky, Mark L., additional, Kharchenko, Peter V., additional, Park, Peter J., additional, and Hochedlinger, Konrad, additional

Published
2013
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23. Targeted exome sequencing of suspected mitochondrial disorders in a hospital-based cohort

Author

Lieber, Daniel S., primary, Calvo, Sarah E., additional, Slate, Nancy G., additional, Liu, Shangtao, additional, Borowsky, Mark L., additional, Hershman, Steven G., additional, Gold, Nina B., additional, Berry, Gerard T., additional, Mueller, David M., additional, Schmahmann, Jeremy D., additional, Sims, Katherine B., additional, and Mootha, Vamsi K., additional

Published
2012
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24. Sequencing Chromosomal Abnormalities Reveals Neurodevelopmental Loci that Confer Risk across Diagnostic Boundaries

Author

Talkowski, Michael E., primary, Rosenfeld, Jill A., additional, Blumenthal, Ian, additional, Pillalamarri, Vamsee, additional, Chiang, Colby, additional, Heilbut, Adrian, additional, Ernst, Carl, additional, Hanscom, Carrie, additional, Rossin, Elizabeth, additional, Lindgren, Amelia M., additional, Pereira, Shahrin, additional, Ruderfer, Douglas, additional, Kirby, Andrew, additional, Ripke, Stephan, additional, Harris, David J., additional, Lee, Ji-Hyun, additional, Ha, Kyungsoo, additional, Kim, Hyung-Goo, additional, Solomon, Benjamin D., additional, Gropman, Andrea L., additional, Lucente, Diane, additional, Sims, Katherine, additional, Ohsumi, Toshiro K., additional, Borowsky, Mark L., additional, Loranger, Stephanie, additional, Quade, Bradley, additional, Lage, Kasper, additional, Miles, Judith, additional, Wu, Bai-Lin, additional, Shen, Yiping, additional, Neale, Benjamin, additional, Shaffer, Lisa G., additional, Daly, Mark J., additional, Morton, Cynthia C., additional, and Gusella, James F., additional

Published
2012
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25. Complex reorganization and predominant non-homologous repair following chromosomal breakage in karyotypically balanced germline rearrangements and transgenic integration

Author

Chiang, Colby, primary, Jacobsen, Jessie C, additional, Ernst, Carl, additional, Hanscom, Carrie, additional, Heilbut, Adrian, additional, Blumenthal, Ian, additional, Mills, Ryan E, additional, Kirby, Andrew, additional, Lindgren, Amelia M, additional, Rudiger, Skye R, additional, McLaughlan, Clive J, additional, Bawden, C Simon, additional, Reid, Suzanne J, additional, Faull, Richard L M, additional, Snell, Russell G, additional, Hall, Ira M, additional, Shen, Yiping, additional, Ohsumi, Toshiro K, additional, Borowsky, Mark L, additional, Daly, Mark J, additional, Lee, Charles, additional, Morton, Cynthia C, additional, MacDonald, Marcy E, additional, Gusella, James F, additional, and Talkowski, Michael E, additional

Published
2012
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26. Histone H3R2 Symmetric Dimethylation and Histone H3K4 Trimethylation Are Tightly Correlated in Eukaryotic Genomes

Author

Yuan, Chih-Chi, primary, Matthews, Adam G.W., additional, Jin, Yi, additional, Chen, Chang Feng, additional, Chapman, Brad A., additional, Ohsumi, Toshiro K., additional, Glass, Karen C., additional, Kutateladze, Tatiana G., additional, Borowsky, Mark L., additional, Struhl, Kevin, additional, and Oettinger, Marjorie A., additional

Published
2012
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28. Corrigendum: DNA sequence and analysis of human chromosome 18

Author

Nusbaum, Chad, Zody, Michael C., Borowsky, Mark L., Kamal, Michael, Kodira, Chinnappa D., Taylor, Todd D., Whittaker, Charles A., Chang, Jean L., Cuomo, Christina A., Dewar, Ken, FitzGerald, Michael G., Yang, Xiaoping, Abouelleil, Amr, Allen, Nicole R., Anderson, Scott, Bloom, Toby, Bugalter, Boris, Butler, Jonathan, Cook, April, DeCaprio, David, Engels, Reinhard, Garber, Manuel, Gnirke, Andreas, Hafez, Nabil, Hall, Jennifer L., Norman, Catherine Hosage, Itoh, Takehiko, Jaffe, David B., Kuroki, Yoko, Lehoczky, Jessica, Lui, Annie, Macdonald, Pendexter, Mauceli, Evan, Mikkelsen, Tarjei S., Naylor, Jerome W., Nicol, Robert, Nguyen, Cindy, Noguchi, Hideki, O'Leary, Sinead B., O'Neill, Keith, Piqani, Bruno, Smith, Cherylyn L., Talamas, Jessica A., Topham, Kerri, Totoki, Yasushi, Toyoda, Atsushi, Wain, Hester M., Young, Sarah K., Zeng, Qiandong, Zimmer, Andrew R., Fujiyama, Asao, Hattori, Masahira, Birren, Bruce W., Sakaki, Yoshiyuki, and Lander, Eric S.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Chad Nusbaum; Michael C. Zody; Mark L. Borowsky; Michael Kamal; Chinnappa D. Kodira; Todd D. Taylor; Charles A. Whittaker; Jean L. Chang; Christina A. Cuomo; Ken Dewar; Michael G. [...]

Published
2005
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29. Erratum: Corrigendum: DNA sequence and analysis of human chromosome 18

Author

Nusbaum, Chad, primary, Zody, Michael C., additional, Borowsky, Mark L., additional, Kamal, Michael, additional, Kodira, Chinnappa D., additional, Taylor, Todd D., additional, Whittaker, Charles A., additional, Chang, Jean L., additional, Cuomo, Christina A., additional, Dewar, Ken, additional, FitzGerald, Michael G., additional, Yang, Xiaoping, additional, Abouelleil, Amr, additional, Allen, Nicole R., additional, Anderson, Scott, additional, Bloom, Toby, additional, Bugalter, Boris, additional, Butler, Jonathan, additional, Cook, April, additional, DeCaprio, David, additional, Engels, Reinhard, additional, Garber, Manuel, additional, Gnirke, Andreas, additional, Hafez, Nabil, additional, Hall, Jennifer L., additional, Norman, Catherine Hosage, additional, Itoh, Takehiko, additional, Jaffe, David B., additional, Kuroki, Yoko, additional, Lehoczky, Jessica, additional, Lui, Annie, additional, Macdonald, Pendexter, additional, Mauceli, Evan, additional, Mikkelsen, Tarjei S., additional, Naylor, Jerome W., additional, Nicol, Robert, additional, Nguyen, Cindy, additional, Noguchi, Hideki, additional, O'Leary, Sinéad B., additional, O'Neill, Keith, additional, Piqani, Bruno, additional, Smith, Cherylyn L., additional, Talamas, Jessica A., additional, Topham, Kerri, additional, Totoki, Yasushi, additional, Toyoda, Atsushi, additional, Wain, Hester M., additional, Young, Sarah K., additional, Zeng, Qiandong, additional, Zimmer, Andrew R., additional, Fujiyama, Asao, additional, Hattori, Masahira, additional, Birren, Bruce W., additional, Sakaki, Yoshiyuki, additional, and Lander, Eric S., additional

Published
2005
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31. The genomic binding sites of a noncoding RNA.

Author

imon, Matthew D., Wang, Charlotte I., Kharchenko, Peter V., West, Jason A., Chapman, Brad A., Alekseyenko, Artyom A., Borowsky, Mark L., Kuroda, Mitzi I., and Kingston, Robert E.

Subjects
NON-coding RNA, NUCLEIC acid hybridization, CHROMATIN, GENE mapping, BINDING sites
Abstract

Long noncoding RNAs (lncRNAs) have important regulatory roles and can function at the level of chromatin. To determine where lncRNAs bind to chromatin, we developed capture hybridization analysis of RNA targets (CHART), a hybridization-based technique that specifically enriches endogenous RNAs along with their targets from reversibly cross-linked chromatin extracts. CHART was used to enrich the DNA and protein targets of endogenous lncRNAs from flies and humans. This analysis was extended to genome-wide mapping of roX2, a well-studied ncRNA involved in dosage compensation in Drosophila. CHART revealed that roX2 binds at specific genomic sites that coincide with the binding sites of proteins from the male-specific lethal complex that affects dosage compensation. These results reveal the genomic targets of roX2 and demonstrate how CHART can be used to study RNAs in a manner analogous to chromatin immunoprecipitation for proteins. [ABSTRACT FROM AUTHOR]

Published
2011
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32. Genome-wide Chromatin Interactions of the NanogLocus in Pluripotency, Differentiation, and Reprogramming

Author

Apostolou, Effie, Ferrari, Francesco, Walsh, Ryan M., Bar-Nur, Ori, Stadtfeld, Matthias, Cheloufi, Sihem, Stuart, Hannah T., Polo, Jose M., Ohsumi, Toshiro K., Borowsky, Mark L., Kharchenko, Peter V., Park, Peter J., and Hochedlinger, Konrad

Abstract

The chromatin state of pluripotency genes has been studied extensively in embryonic stem cells (ESCs) and differentiated cells, but their potential interactions with other parts of the genome remain largely unexplored. Here, we identified a genome-wide, pluripotency-specific interaction network around the Nanogpromoter by adapting circular chromosome conformation capture sequencing. This network was rearranged during differentiation and restored in induced pluripotent stem cells. A large fraction of Nanog-interacting loci were bound by Mediator or cohesin in pluripotent cells. Depletion of these proteins from ESCs resulted in a disruption of contacts and the acquisition of a differentiation-specific interaction pattern prior to obvious transcriptional and phenotypic changes. Similarly, the establishment of Nanoginteractions during reprogramming often preceded transcriptional upregulation of associated genes, suggesting a causative link. Our results document a complex, pluripotency-specific chromatin “interactome” for Nanogand suggest a functional role for long-range genomic interactions in the maintenance and induction of pluripotency.

Published
2013
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34. Transposon activation mutagenesis as a screening tool for identifying resistance to cancer therapeutics

Author

Chen, Li, Stuart, Lynda, Ohsumi, Toshiro K, Burgess, Shawn, Varshney, Gaurav K, Dastur, Anahita, Borowsky, Mark L, Benes, Cyril Henri, Lacy-Hulbert, Adam, and Schmidt, Emmett V

Subjects
Transposon mutagenesis, Chemotherapy, Resistance, Gene activation
Abstract

Background: The development of resistance to chemotherapies represents a significant barrier to successful cancer treatment. Resistance mechanisms are complex, can involve diverse and often unexpected cellular processes, and can vary with both the underlying genetic lesion and the origin or type of tumor. For these reasons developing experimental strategies that could be used to understand, identify and predict mechanisms of resistance in different malignant cells would be a major advance. Methods: Here we describe a gain-of-function forward genetic approach for identifying mechanisms of resistance. This approach uses a modified piggyBac transposon to generate libraries of mutagenized cells, each containing transposon insertions that randomly activate nearby gene expression. Genes of interest are identified using next-gen high-throughput sequencing and barcode multiplexing is used to reduce experimental cost. Results: Using this approach we successfully identify genes involved in paclitaxel resistance in a variety of cancer cell lines, including the multidrug transporter ABCB1, a previously identified major paclitaxel resistance gene. Analysis of co-occurring transposons integration sites in single cell clone allows for the identification of genes that might act cooperatively to produce drug resistance a level of information not accessible using RNAi or ORF expression screening approaches. Conclusion: We have developed a powerful pipeline to systematically discover drug resistance in mammalian cells in vitro. This cost-effective approach can be readily applied to different cell lines, to identify canonical or context specific resistance mechanisms. Its ability to probe complex genetic context and non-coding genomic elements as well as cooperative resistance events makes it a good complement to RNAi or ORF expression based screens.

Published
2013
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35. Atypical Case Of Wolfram Syndrome Revealed Through Targeted Exome Sequencing In A Patient With Suspected Mitochondrial Disease

Author

Horton, Laura C, Slate, Nancy G, Liu, Shangtao, Lieber, Daniel Solomon, Vafai, Scott Bradley, Borowsky, Mark L, Calvo, Sarah E, Schmahmann, Jeremy Dan, and Mootha, Vamsi Krishna

Abstract

Background: Mitochondrial diseases comprise a diverse set of clinical disorders that affect multiple organ systems with varying severity and age of onset. Due to their clinical and genetic heterogeneity, these diseases are difficult to diagnose. We have developed a targeted exome sequencing approach to improve our ability to properly diagnose mitochondrial diseases and apply it here to an individual patient. Our method targets mitochondrial DNA (mtDNA) and the exons of 1,600 nuclear genes involved in mitochondrial biology or Mendelian disorders with multi-system phenotypes, thereby allowing for simultaneous evaluation of multiple disease loci. Case Presentation: Targeted exome sequencing was performed on a patient initially suspected to have a mitochondrial disorder. The patient presented with diabetes mellitus, diffuse brain atrophy, autonomic neuropathy, optic nerve atrophy, and a severe amnestic syndrome. Further work-up revealed multiple heteroplasmic mtDNA deletions as well as profound thiamine deficiency without a clear nutritional cause. Targeted exome sequencing revealed a homozygous c.1672C > T (p.R558C) missense mutation in exon 8 of WFS1 that has previously been reported in a patient with Wolfram syndrome. Conclusion: This case demonstrates how clinical application of next-generation sequencing technology can enhance the diagnosis of patients suspected to have rare genetic disorders. Furthermore, the finding of unexplained thiamine deficiency in a patient with Wolfram syndrome suggests a potential link between WFS1 biology and thiamine metabolism that has implications for the clinical management of Wolfram syndrome patients.

Published
2012
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36. Comparative Genomic Characterization of Francisella tularensis Strains Belonging to Low and High Virulence Subspecies

Author

Champion, Mia D., Zeng, Qiandong, Nix, Eli B., Nano, Francis E., Keim, Paul, Kodira, Chinnappa D., Koehrsen, Michael, Pearson, Matthew, Howarth, Clint, Larson, Lisa, White, Jared, Alvarado, Lucia, Forsman, Mats, Bearden, Scott W., Sjöstedt, Anders, Titball, Richard, Michell, Stephen L., Birren, Bruce, Borowsky, Mark L, Young, Sarah U., Engels, Reinhard, and Galagan, James E

Subjects
computational biology, comparative sequence analysis, genomics, evolutionary biology, bioinformatics, evolutionary and comparative genetics, microbial evolution and genomics, genetics and genomics, comparative genomics, genetics of disease, genome projects, population genetics, infectious diseases, bacterial infections, microbiology
Abstract

Tularemia is a geographically widespread, severely debilitating, and occasionally lethal disease in humans. It is caused by infection by a gram-negative bacterium, Francisella tularensis. In order to better understand its potency as an etiological agent as well as its potential as a biological weapon, we have completed draft assemblies and report the first complete genomic characterization of five strains belonging to the following different Francisella subspecies (subsp.): the F. tularensis subsp. tularensis FSC033, F. tularensis subsp. holarctica FSC257 and FSC022, and F. tularensis subsp. novicida GA99-3548 and GA99-3549 strains. Here, we report the sequencing of these strains and comparative genomic analysis with recently available public Francisella sequences, including the rare F. tularensis subsp. mediasiatica FSC147 strain isolate from the Central Asian Region. We report evidence for the occurrence of large-scale rearrangement events in strains of the holarctica subspecies, supporting previous proposals that further phylogenetic subdivisions of the Type B clade are likely. We also find a significant enrichment of disrupted or absent ORFs proximal to predicted breakpoints in the FSC022 strain, including a genetic component of the Type I restriction-modification defense system. Many of the pseudogenes identified are also disrupted in the closely related rarely human pathogenic F. tularensis subsp. mediasiatica FSC147 strain, including modulator of drug activity B (mdaB) (FTT0961), which encodes a known NADPH quinone reductase involved in oxidative stress resistance. We have also identified genes exhibiting sequence similarity to effectors of the Type III (T3SS) and components of the Type IV secretion systems (T4SS). One of the genes, msrA2 (FTT1797c), is disrupted in F. tularensis subsp. mediasiatica and has recently been shown to mediate bacterial pathogen survival in host organisms. Our findings suggest that in addition to the duplication of the Francisella Pathogenicity Island, and acquisition of individual loci, adaptation by gene loss in the more recently emerged tularensis, holarctica, and mediasiatica subspecies occurred and was distinct from evolutionary events that differentiated these subspecies, and the novicida subspecies, from a common ancestor. Our findings are applicable to future studies focused on variations in Francisella subspecies pathogenesis, and of broader interest to studies of genomic pathoadaptation in bacteria.

Published
2009
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37. Posterior stripe expression of hunchback is driven from two promoters by a common enhancer element

Author

Margolis, Jonathan S., Borowsky, Mark L., SteingrÍmsson, EirÍkur, Shim, Chung Wha, Lengyel, Judith A., and Posakony, James W.

Abstract

The gap gene hunchback (hb) is required for the formation and segmentation of two regions of the Drosophila embryo, a broad anterior domain and a narrow posterior domain. Accumulation of hb transcript in the posterior of the embryo occurs in two phases, an initial cap covering the terminal 15% of the embryo followed by a stripe at the anterior edge of this region. By in situ hybridization with transcript-specific probes, we show that the cap is composed only of mRNA from the distal transcription initiation site (P1), while the later posterior stripe is composed of mRNA from both the distal and proximal (P2) transcription initiation sites. Using a series of genomic rescue constructs and promoter-lacZ fusion genes, we define a 1.4 kb fragment of the hb upstream region that is both necessary and sufficient for posterior expression. Sequences within this fragment mediate regulation by the terminal gap genes tailless (tll) and huckebein, which direct the formation of the posterior hb stripe. We show that the tll protein binds in vitro to specific sites within the 1.4 kb posterior enhancer region, providing the first direct evidence for activation of gene expression by tll. We propose a model in which the anterior border of the posterior hb stripe is determined by tll concentration in a manner analogous to the activation of anterior hb expression by bicoid.

Published
1995
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38. Short-term genome evolution of Listeria monocytogenes in a non-controlled environment

Author

Bruce W. Birren, Mark L. Borowsky, Lewis M. Graves, Renato H. Orsi, Chad Nusbaum, James E. Galagan, Reid A. Ivy, Qi Sun, Sarah Young, Bala Swaminathan, Martin Wiedmann, Peter Lauer, Broad Institute of MIT and Harvard, Borowsky, Mark L., Young, Sarah K., Nusbaum, Chad, Galagan, James E., and Birren, Bruce W.

Subjects
DNA, Bacterial, Genome evolution, lcsh:QH426-470, Prophages, lcsh:Biotechnology, Bacterial genome size, Biology, medicine.disease_cause, Polymorphism, Single Nucleotide, Genome, Cell Line, Evolution, Molecular, Plasmid, Listeria monocytogenes, lcsh:TP248.13-248.65, Genetics, medicine, Humans, Gene, Prophage, Whole genome sequencing, Sequence Analysis, DNA, Bacterial Typing Techniques, lcsh:Genetics, Mutation, Food Microbiology, Sequence Alignment, Genome, Bacterial, Plasmids, Research Article, Biotechnology
Abstract

BackgroundWhile increasing data on bacterial evolution in controlled environments are available, our understanding of bacterial genome evolution in natural environments is limited. We thus performed full genome analyses on fourListeria monocytogenes, including human and food isolates from both a 1988 case of sporadic listeriosis and a 2000 listeriosis outbreak, which had been linked to contaminated food from a single processing facility. All four isolates had been shown to have identical subtypes, suggesting that a specificL. monocytogenesstrain persisted in this processing plant over at least 12 years. While a genome sequence for the 1988 food isolate has been reported, we sequenced the genomes of the 1988 human isolate as well as a human and a food isolate from the 2000 outbreak to allow for comparative genome analyses.ResultsThe twoL. monocytogenesisolates from 1988 and the two isolates from 2000 had highly similar genome backbone sequences with very few single nucleotide (nt) polymorphisms (1 – 8 SNPs/isolate; confirmed by re-sequencing). While no genome rearrangements were identified in the backbone genome of the four isolates, a 42 kb prophage inserted in the chromosomalcomKgene showed evidence for major genome rearrangements. The human-food isolate pair from each 1988 and 2000 had identical prophage sequence; however, there were significant differences in the prophage sequences between the 1988 and 2000 isolates. Diversification of this prophage appears to have been caused by multiple homologous recombination events or possibly prophage replacement. In addition, only the 2000 human isolate contained a plasmid, suggesting plasmid loss or acquisition events. Surprisingly, besides the polymorphisms found in thecomKprophage, a single SNP in the tRNA Thr-4 prophage represents the only SNP that differentiates the 1988 isolates from the 2000 isolates.ConclusionOur data support the hypothesis that the 2000 human listeriosis outbreak was caused by aL. monocytogenesstrain that persisted in a food processing facility over 12 years and show that genome sequencing is a valuable and feasible tool for retrospective epidemiological analyses. Short-term evolution ofL. monocytogenesin non-controlled environments appears to involve limited diversification beyond plasmid gain or loss and prophage diversification, highlighting the importance of phages in bacterial evolution.

Published
2008

39. The spring-loaded genome: nucleosome redistributions are widespread, transient, and DNA-directed.

Author

Sexton BS, Avey D, Druliner BR, Fincher JA, Vera DL, Grau DJ, Borowsky ML, Gupta S, Girimurugan SB, Chicken E, Zhang J, Noble WS, Zhu F, Kingston RE, and Dennis JH

Subjects
Computer Simulation, Genome, Human, Humans, Models, Genetic, Sequence Analysis, DNA, Chromatin genetics, Herpesvirus 8, Human genetics, Nucleosomes genetics, Virus Activation genetics
Abstract

Nucleosome occupancy plays a key role in regulating access to eukaryotic genomes. Although various chromatin regulatory complexes are known to regulate nucleosome occupancy, the role of DNA sequence in this regulation remains unclear, particularly in mammals. To address this problem, we measured nucleosome distribution at high temporal resolution in human cells at hundreds of genes during the reactivation of Kaposi's sarcoma-associated herpesvirus (KSHV). We show that nucleosome redistribution peaks at 24 h post-KSHV reactivation and that the nucleosomal redistributions are widespread and transient. To clarify the role of DNA sequence in these nucleosomal redistributions, we compared the genes with altered nucleosome distribution to a sequence-based computer model and in vitro-assembled nucleosomes. We demonstrate that both the predicted model and the assembled nucleosome distributions are concordant with the majority of nucleosome redistributions at 24 h post-KSHV reactivation. We suggest a model in which loci are held in an unfavorable chromatin architecture and "spring" to a transient intermediate state directed by DNA sequence information. We propose that DNA sequence plays a more considerable role in the regulation of nucleosome positions than was previously appreciated. The surprising findings that nucleosome redistributions are widespread, transient, and DNA-directed shift the current perspective regarding regulation of nucleosome distribution in humans.

Published
2014
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