Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis: e1002070

The plant-pathogenic fungus Mycosphaerella graminicola (asexual stage: Septoria tritici) causes septoria tritici blotch, a disease that greatly reduces the yield and quality of wheat. This disease is economically important in most wheat-growing areas worldwide and threatens global food production. C...

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Veröffentlicht in:	PLoS genetics 2011-06, Vol.7 (6)
Hauptverfasser:	Goodwin, Stephen B, Dhillon, Braham, Wittenberg, Alexander HJ, Crane, Charles F, Hane, James K, Foster, Andrew J, Lee, J Vander, Grimwood, Jane, Aerts, Andrea, Antoniw, John, Bailey, Andy, Bluhm, Burt, Bowler, Judith, Bristow, Jim, Burgt, Ate vander, Canto-Canché, Blondy, Churchill, Alice CL, Conde-Ferràez, Laura, Cools, Hans J, Coutinho, Pedro M, Csukai, Michael, Dehal, Paramvir, Wit, Pierre De, Donzelli, Bruno, Geest, C vande, Ham, H Jvan, Hammond-Kosack, Kim E, Henrissat, Bernard, Kilian, Andrzej, Kobayashi, Adilson K, Koopmann, Edda, Kourmpetis, Yiannis, Kuzniar, Arnold, Lindquist, Erika, Lombard, Vincent, Maliepaard, Chris, Martins, Natalia, Mehrabi, Rahim, Nap, Jan PH, Ponomarenko, Alisa, Rudd, Jason J, Salamov, Asaf, Schmutz, Jeremy, Schouten, Henk J, Shapiro, Harris, Stergiopoulos, Ioannis, Torriani, Stefano FF, Tu, Hank, Vries, Ronald Pde, Waalwijk, Cees, Ware, Sarah B, Wiebenga, Ad, Zwiers, Lute-Harm, Oliver, Richard P, Grigoriev, Igor V, Kema, Gert HJ
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Sprache:	eng
Schlagworte:	Carbohydrates Chromosomes Disease Fungi Genomes Genomics Infections Pathogenesis
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creator	Goodwin, Stephen B Dhillon, Braham Wittenberg, Alexander HJ Crane, Charles F Hane, James K Foster, Andrew J Lee, J Vander Grimwood, Jane Aerts, Andrea Antoniw, John Bailey, Andy Bluhm, Burt Bowler, Judith Bristow, Jim Burgt, Ate vander Canto-Canché, Blondy Churchill, Alice CL Conde-Ferràez, Laura Cools, Hans J Coutinho, Pedro M Csukai, Michael Dehal, Paramvir Wit, Pierre De Donzelli, Bruno Geest, C vande Ham, H Jvan Hammond-Kosack, Kim E Henrissat, Bernard Kilian, Andrzej Kobayashi, Adilson K Koopmann, Edda Kourmpetis, Yiannis Kuzniar, Arnold Lindquist, Erika Lombard, Vincent Maliepaard, Chris Martins, Natalia Mehrabi, Rahim Nap, Jan PH Ponomarenko, Alisa Rudd, Jason J Salamov, Asaf Schmutz, Jeremy Schouten, Henk J Shapiro, Harris Stergiopoulos, Ioannis Torriani, Stefano FF Tu, Hank Vries, Ronald Pde Waalwijk, Cees Ware, Sarah B Wiebenga, Ad Zwiers, Lute-Harm Oliver, Richard P Grigoriev, Igor V Kema, Gert HJ
description	The plant-pathogenic fungus Mycosphaerella graminicola (asexual stage: Septoria tritici) causes septoria tritici blotch, a disease that greatly reduces the yield and quality of wheat. This disease is economically important in most wheat-growing areas worldwide and threatens global food production. Control of the disease has been hampered by a limited understanding of the genetic and biochemical bases of pathogenicity, including mechanisms of infection and of resistance in the host. Unlike most other plant pathogens, M. graminicola has a long latent period during which it evades host defenses. Although this type of stealth pathogenicity occurs commonly in Mycosphaerella and other Dothideomycetes, the largest class of plant-pathogenic fungi, its genetic basis is not known. To address this problem, the genome of M. graminicola was sequenced completely. The finished genome contains 21 chromosomes, eight of which could be lost with no visible effect on the fungus and thus are dispensable. This eight-chromosome dispensome is dynamic in field and progeny isolates, is different from the core genome in gene and repeat content, and appears to have originated by ancient horizontal transfer from an unknown donor. Synteny plots of the M. graminicola chromosomes versus those of the only other sequenced Dothideomycete, Stagonospora nodorum, revealed conservation of gene content but not order or orientation, suggesting a high rate of intra-chromosomal rearrangement in one or both species. This observed "mesosynteny" is very different from synteny seen between other organisms. A surprising feature of the M. graminicola genome compared to other sequenced plant pathogens was that it contained very few genes for enzymes that break down plant cell walls, which was more similar to endophytes than to pathogens. The stealth pathogenesis of M. graminicola probably involves degradation of proteins rather than carbohydrates to evade host defenses during the biotrophic stage of infection and may have evolved from endophytic ancestors.
doi_str_mv	10.1371/journal.pgen.1002070
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This disease is economically important in most wheat-growing areas worldwide and threatens global food production. Control of the disease has been hampered by a limited understanding of the genetic and biochemical bases of pathogenicity, including mechanisms of infection and of resistance in the host. Unlike most other plant pathogens, M. graminicola has a long latent period during which it evades host defenses. Although this type of stealth pathogenicity occurs commonly in Mycosphaerella and other Dothideomycetes, the largest class of plant-pathogenic fungi, its genetic basis is not known. To address this problem, the genome of M. graminicola was sequenced completely. The finished genome contains 21 chromosomes, eight of which could be lost with no visible effect on the fungus and thus are dispensable. This eight-chromosome dispensome is dynamic in field and progeny isolates, is different from the core genome in gene and repeat content, and appears to have originated by ancient horizontal transfer from an unknown donor. Synteny plots of the M. graminicola chromosomes versus those of the only other sequenced Dothideomycete, Stagonospora nodorum, revealed conservation of gene content but not order or orientation, suggesting a high rate of intra-chromosomal rearrangement in one or both species. This observed "mesosynteny" is very different from synteny seen between other organisms. A surprising feature of the M. graminicola genome compared to other sequenced plant pathogens was that it contained very few genes for enzymes that break down plant cell walls, which was more similar to endophytes than to pathogens. The stealth pathogenesis of M. graminicola probably involves degradation of proteins rather than carbohydrates to evade host defenses during the biotrophic stage of infection and may have evolved from endophytic ancestors.</description><identifier>ISSN: 1553-7390</identifier><identifier>EISSN: 1553-7404</identifier><identifier>DOI: 10.1371/journal.pgen.1002070</identifier><language>eng</language><publisher>San Francisco: Public Library of Science</publisher><subject>Carbohydrates ; Chromosomes ; Disease ; Fungi ; Genomes ; Genomics ; Infections ; Pathogenesis</subject><ispartof>PLoS genetics, 2011-06, Vol.7 (6)</ispartof><rights>2011 Public Library of Science. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited: Citation: Goodwin SB, Ben M'Barek S, Dhillon B, Wittenberg AHJ, Crane CF, et al. (2011) Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis. 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This disease is economically important in most wheat-growing areas worldwide and threatens global food production. Control of the disease has been hampered by a limited understanding of the genetic and biochemical bases of pathogenicity, including mechanisms of infection and of resistance in the host. Unlike most other plant pathogens, M. graminicola has a long latent period during which it evades host defenses. Although this type of stealth pathogenicity occurs commonly in Mycosphaerella and other Dothideomycetes, the largest class of plant-pathogenic fungi, its genetic basis is not known. To address this problem, the genome of M. graminicola was sequenced completely. The finished genome contains 21 chromosomes, eight of which could be lost with no visible effect on the fungus and thus are dispensable. This eight-chromosome dispensome is dynamic in field and progeny isolates, is different from the core genome in gene and repeat content, and appears to have originated by ancient horizontal transfer from an unknown donor. Synteny plots of the M. graminicola chromosomes versus those of the only other sequenced Dothideomycete, Stagonospora nodorum, revealed conservation of gene content but not order or orientation, suggesting a high rate of intra-chromosomal rearrangement in one or both species. This observed "mesosynteny" is very different from synteny seen between other organisms. A surprising feature of the M. graminicola genome compared to other sequenced plant pathogens was that it contained very few genes for enzymes that break down plant cell walls, which was more similar to endophytes than to pathogens. 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Applied & Life Sciences</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>Genetics Abstracts</collection><jtitle>PLoS genetics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Goodwin, Stephen B</au><au>Dhillon, Braham</au><au>Wittenberg, Alexander HJ</au><au>Crane, Charles F</au><au>Hane, James K</au><au>Foster, Andrew J</au><au>Lee, J Vander</au><au>Grimwood, Jane</au><au>Aerts, Andrea</au><au>Antoniw, John</au><au>Bailey, Andy</au><au>Bluhm, Burt</au><au>Bowler, Judith</au><au>Bristow, Jim</au><au>Burgt, Ate vander</au><au>Canto-Canché, Blondy</au><au>Churchill, Alice CL</au><au>Conde-Ferràez, Laura</au><au>Cools, Hans J</au><au>Coutinho, Pedro M</au><au>Csukai, Michael</au><au>Dehal, Paramvir</au><au>Wit, Pierre De</au><au>Donzelli, Bruno</au><au>Geest, C vande</au><au>Ham, H Jvan</au><au>Hammond-Kosack, Kim E</au><au>Henrissat, Bernard</au><au>Kilian, Andrzej</au><au>Kobayashi, Adilson K</au><au>Koopmann, Edda</au><au>Kourmpetis, Yiannis</au><au>Kuzniar, Arnold</au><au>Lindquist, Erika</au><au>Lombard, Vincent</au><au>Maliepaard, Chris</au><au>Martins, Natalia</au><au>Mehrabi, Rahim</au><au>Nap, Jan PH</au><au>Ponomarenko, Alisa</au><au>Rudd, Jason J</au><au>Salamov, Asaf</au><au>Schmutz, Jeremy</au><au>Schouten, Henk J</au><au>Shapiro, Harris</au><au>Stergiopoulos, Ioannis</au><au>Torriani, Stefano FF</au><au>Tu, Hank</au><au>Vries, Ronald Pde</au><au>Waalwijk, Cees</au><au>Ware, Sarah B</au><au>Wiebenga, Ad</au><au>Zwiers, Lute-Harm</au><au>Oliver, Richard P</au><au>Grigoriev, Igor V</au><au>Kema, Gert HJ</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis: e1002070</atitle><jtitle>PLoS genetics</jtitle><date>2011-06-01</date><risdate>2011</risdate><volume>7</volume><issue>6</issue><issn>1553-7390</issn><eissn>1553-7404</eissn><abstract>The plant-pathogenic fungus Mycosphaerella graminicola (asexual stage: Septoria tritici) causes septoria tritici blotch, a disease that greatly reduces the yield and quality of wheat. This disease is economically important in most wheat-growing areas worldwide and threatens global food production. Control of the disease has been hampered by a limited understanding of the genetic and biochemical bases of pathogenicity, including mechanisms of infection and of resistance in the host. Unlike most other plant pathogens, M. graminicola has a long latent period during which it evades host defenses. Although this type of stealth pathogenicity occurs commonly in Mycosphaerella and other Dothideomycetes, the largest class of plant-pathogenic fungi, its genetic basis is not known. To address this problem, the genome of M. graminicola was sequenced completely. The finished genome contains 21 chromosomes, eight of which could be lost with no visible effect on the fungus and thus are dispensable. This eight-chromosome dispensome is dynamic in field and progeny isolates, is different from the core genome in gene and repeat content, and appears to have originated by ancient horizontal transfer from an unknown donor. Synteny plots of the M. graminicola chromosomes versus those of the only other sequenced Dothideomycete, Stagonospora nodorum, revealed conservation of gene content but not order or orientation, suggesting a high rate of intra-chromosomal rearrangement in one or both species. This observed "mesosynteny" is very different from synteny seen between other organisms. A surprising feature of the M. graminicola genome compared to other sequenced plant pathogens was that it contained very few genes for enzymes that break down plant cell walls, which was more similar to endophytes than to pathogens. The stealth pathogenesis of M. graminicola probably involves degradation of proteins rather than carbohydrates to evade host defenses during the biotrophic stage of infection and may have evolved from endophytic ancestors.</abstract><cop>San Francisco</cop><pub>Public Library of Science</pub><doi>10.1371/journal.pgen.1002070</doi><oa>free_for_read</oa></addata></record>
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subjects	Carbohydrates Chromosomes Disease Fungi Genomes Genomics Infections Pathogenesis
title	Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis: e1002070
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