Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)

Jason E. Stajich; Sarah K. Wilke; Dag Ahrén; Chun Hang Au; Bruce W. Birren; Mark Borodovsky; Claire Burns; Björn Canbäck; Lorna A. Casselton; C. K. Cheng; Jixin Deng; Fred S. Dietrich; David C. Fargo; Mark L. Farman; Allen C. Gathman; Jonathan Goldberg; Roderic Guigó; Patrick J. Hoegger; James B. Hooker; Ashleigh Huggins; Timothy Y. James; Takashi Kamada; Sreedhar Kilaru; Chinnapa Kodira; Ursula Kües; Doris Kupfer; H. S. Kwan; Alexandre Lomsadze; Weixi Li; Walt W. Lilly; Li Jun Ma; Aaron J. Mackey; Gerard Manning; Francis Martin; Hajime Muraguchi; Donald O. Natvig; Heather Palmerini; Marilee A. Ramesh; Cathy J. Rehmeyer; Bruce A. Roe; Narmada Shenoy; Mario Stanke; Vardges Ter-Hovhannisyan; Anders Tunlid; Rajesh Velagapudi; Todd J. Vision; Qiandong Zeng; Miriam E. Zolan; Patricia J. Pukkila

doi:10.1073/pnas.1003391107

Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)

Jason E. Stajich, Sarah K. Wilke, Dag Ahrén, Chun Hang Au, Bruce W. Birren, Mark Borodovsky, Claire Burns, Björn Canbäck, Lorna A. Casselton, C. K. Cheng, Jixin Deng, Fred S. Dietrich, David C. Fargo, Mark L. Farman, Allen C. Gathman, Jonathan Goldberg, Roderic Guigó, Patrick J. Hoegger, James B. Hooker, Ashleigh HugginsTimothy Y. James, Takashi Kamada, Sreedhar Kilaru, Chinnapa Kodira, Ursula Kües, Doris Kupfer, H. S. Kwan, Alexandre Lomsadze, Weixi Li, Walt W. Lilly, Li Jun Ma, Aaron J. Mackey, Gerard Manning, Francis Martin, Hajime Muraguchi, Donald O. Natvig, Heather Palmerini, Marilee A. Ramesh, Cathy J. Rehmeyer, Bruce A. Roe, Narmada Shenoy, Mario Stanke, Vardges Ter-Hovhannisyan, Anders Tunlid, Rajesh Velagapudi, Todd J. Vision, Qiandong Zeng, Miriam E. Zolan, Patricia J. Pukkila

Producción científica: Article › revisión exhaustiva

356 Citas (Scopus)

Resumen

The mushroom Coprinopsis cinerea is a classic experimental model for multicellular development in fungi because it grows on defined media, completes its life cycle in 2 weeks, produces some 10⁸ synchronized meiocytes, and can be manipulated at all stages in development by mutation and transformation. The 37-megabase genome of C. cinerea was sequenced and assembled into 13 chromosomes. Meiotic recombination rates vary greatly along the chromosomes, and retrotransposons are absent in large regions of the genome with low levels of meiotic recombination. Single-copy genes with identifiable orthologs in other basidiomycetes are predominant in low-recombination regions of the chromosome. In contrast, paralogous multicopy genes are found in the highly recombining regions, including a large family of protein kinases (FunK1) unique to multicellular fungi. Analyses of P450 and hydrophobin gene families confirmed that local gene duplications drive the expansions of paralogous copies and the expansions occur in independent lineages of Agaricomycotina fungi. Gene-expression patterns from microarrays were used to dissect the transcriptional program of dikaryon formation (mating). Several members of the FunK1 kinase family are differentially regulated during sexual morphogenesis, and coordinate regulation of adjacent duplications is rare. The genomes of C. cinerea and Laccaria bicolor, a symbiotic basidiomycete, share extensive regions of synteny. The largest syntenic blocks occur in regions with low meiotic recombination rates, no transposable elements, and tight gene spacing, where orthologous single-copy genes are overrepresented. The chromosome assembly of C. cinerea is an essential resource in understanding the evolution of multicellularity in the fungi.

Idioma original	English
Páginas (desde-hasta)	11889-11894
Número de páginas	6
Publicación	Proceedings of the National Academy of Sciences of the United States of America
Volumen	107
N.º	26
DOI	https://doi.org/10.1073/pnas.1003391107
Estado	Published - jun 29 2010

Financiación

Financiadores	Número del financiador
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences	R01GM043930
National Institute of General Medical Sciences DP2GM119177 Sophie Dumont National Institute of General Medical Sciences

ASJC Scopus subject areas

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10.1073/pnas.1003391107

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Stajich, J. E., Wilke, S. K., Ahrén, D., Au, C. H., Birren, B. W., Borodovsky, M., Burns, C., Canbäck, B., Casselton, L. A., Cheng, C. K., Deng, J., Dietrich, F. S., Fargo, D. C., Farman, M. L., Gathman, A. C., Goldberg, J., Guigó, R., Hoegger, P. J., Hooker, J. B., ... Pukkila, P. J. (2010). Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus). Proceedings of the National Academy of Sciences of the United States of America, 107(26), 11889-11894. https://doi.org/10.1073/pnas.1003391107

@article{7a5d9920faf2498a89a845e088917a5f,

title = "Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)",

abstract = "The mushroom Coprinopsis cinerea is a classic experimental model for multicellular development in fungi because it grows on defined media, completes its life cycle in 2 weeks, produces some 108 synchronized meiocytes, and can be manipulated at all stages in development by mutation and transformation. The 37-megabase genome of C. cinerea was sequenced and assembled into 13 chromosomes. Meiotic recombination rates vary greatly along the chromosomes, and retrotransposons are absent in large regions of the genome with low levels of meiotic recombination. Single-copy genes with identifiable orthologs in other basidiomycetes are predominant in low-recombination regions of the chromosome. In contrast, paralogous multicopy genes are found in the highly recombining regions, including a large family of protein kinases (FunK1) unique to multicellular fungi. Analyses of P450 and hydrophobin gene families confirmed that local gene duplications drive the expansions of paralogous copies and the expansions occur in independent lineages of Agaricomycotina fungi. Gene-expression patterns from microarrays were used to dissect the transcriptional program of dikaryon formation (mating). Several members of the FunK1 kinase family are differentially regulated during sexual morphogenesis, and coordinate regulation of adjacent duplications is rare. The genomes of C. cinerea and Laccaria bicolor, a symbiotic basidiomycete, share extensive regions of synteny. The largest syntenic blocks occur in regions with low meiotic recombination rates, no transposable elements, and tight gene spacing, where orthologous single-copy genes are overrepresented. The chromosome assembly of C. cinerea is an essential resource in understanding the evolution of multicellularity in the fungi.",

keywords = "Basidiomycete, Dikaryon formation, Gene families, Kinase, Meiotic recombination",

author = "Stajich, \{Jason E.\} and Wilke, \{Sarah K.\} and Dag Ahr{\'e}n and Au, \{Chun Hang\} and Birren, \{Bruce W.\} and Mark Borodovsky and Claire Burns and Bj{\"o}rn Canb{\"a}ck and Casselton, \{Lorna A.\} and Cheng, \{C. K.\} and Jixin Deng and Dietrich, \{Fred S.\} and Fargo, \{David C.\} and Farman, \{Mark L.\} and Gathman, \{Allen C.\} and Jonathan Goldberg and Roderic Guig{\'o} and Hoegger, \{Patrick J.\} and Hooker, \{James B.\} and Ashleigh Huggins and James, \{Timothy Y.\} and Takashi Kamada and Sreedhar Kilaru and Chinnapa Kodira and Ursula K{\"u}es and Doris Kupfer and Kwan, \{H. S.\} and Alexandre Lomsadze and Weixi Li and Lilly, \{Walt W.\} and Ma, \{Li Jun\} and Mackey, \{Aaron J.\} and Gerard Manning and Francis Martin and Hajime Muraguchi and Natvig, \{Donald O.\} and Heather Palmerini and Ramesh, \{Marilee A.\} and Rehmeyer, \{Cathy J.\} and Roe, \{Bruce A.\} and Narmada Shenoy and Mario Stanke and Vardges Ter-Hovhannisyan and Anders Tunlid and Rajesh Velagapudi and Vision, \{Todd J.\} and Qiandong Zeng and Zolan, \{Miriam E.\} and Pukkila, \{Patricia J.\}",

year = "2010",

month = jun,

day = "29",

doi = "10.1073/pnas.1003391107",

language = "English",

volume = "107",

pages = "11889--11894",

number = "26",

}

Stajich, JE, Wilke, SK, Ahrén, D, Au, CH, Birren, BW, Borodovsky, M, Burns, C, Canbäck, B, Casselton, LA, Cheng, CK, Deng, J, Dietrich, FS, Fargo, DC, Farman, ML, Gathman, AC, Goldberg, J, Guigó, R, Hoegger, PJ, Hooker, JB, Huggins, A, James, TY, Kamada, T, Kilaru, S, Kodira, C, Kües, U, Kupfer, D, Kwan, HS, Lomsadze, A, Li, W, Lilly, WW, Ma, LJ, Mackey, AJ, Manning, G, Martin, F, Muraguchi, H, Natvig, DO, Palmerini, H, Ramesh, MA, Rehmeyer, CJ, Roe, BA, Shenoy, N, Stanke, M, Ter-Hovhannisyan, V, Tunlid, A, Velagapudi, R, Vision, TJ, Zeng, Q, Zolan, ME & Pukkila, PJ 2010, 'Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)', Proceedings of the National Academy of Sciences of the United States of America, vol. 107, n.º 26, pp. 11889-11894. https://doi.org/10.1073/pnas.1003391107

Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus). / Stajich, Jason E.; Wilke, Sarah K.; Ahrén, Dag et al.
En: Proceedings of the National Academy of Sciences of the United States of America, Vol. 107, N.º 26, 29.06.2010, p. 11889-11894.

Producción científica: Article › revisión exhaustiva

TY - JOUR

T1 - Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)

AU - Stajich, Jason E.

AU - Wilke, Sarah K.

AU - Ahrén, Dag

AU - Au, Chun Hang

AU - Birren, Bruce W.

AU - Borodovsky, Mark

AU - Burns, Claire

AU - Canbäck, Björn

AU - Casselton, Lorna A.

AU - Cheng, C. K.

AU - Deng, Jixin

AU - Dietrich, Fred S.

AU - Fargo, David C.

AU - Farman, Mark L.

AU - Gathman, Allen C.

AU - Goldberg, Jonathan

AU - Guigó, Roderic

AU - Hoegger, Patrick J.

AU - Hooker, James B.

AU - Huggins, Ashleigh

AU - James, Timothy Y.

AU - Kamada, Takashi

AU - Kilaru, Sreedhar

AU - Kodira, Chinnapa

AU - Kües, Ursula

AU - Kupfer, Doris

AU - Kwan, H. S.

AU - Lomsadze, Alexandre

AU - Li, Weixi

AU - Lilly, Walt W.

AU - Ma, Li Jun

AU - Mackey, Aaron J.

AU - Manning, Gerard

AU - Martin, Francis

AU - Muraguchi, Hajime

AU - Natvig, Donald O.

AU - Palmerini, Heather

AU - Ramesh, Marilee A.

AU - Rehmeyer, Cathy J.

AU - Roe, Bruce A.

AU - Shenoy, Narmada

AU - Stanke, Mario

AU - Ter-Hovhannisyan, Vardges

AU - Tunlid, Anders

AU - Velagapudi, Rajesh

AU - Vision, Todd J.

AU - Zeng, Qiandong

AU - Zolan, Miriam E.

AU - Pukkila, Patricia J.

PY - 2010/6/29

Y1 - 2010/6/29

N2 - The mushroom Coprinopsis cinerea is a classic experimental model for multicellular development in fungi because it grows on defined media, completes its life cycle in 2 weeks, produces some 108 synchronized meiocytes, and can be manipulated at all stages in development by mutation and transformation. The 37-megabase genome of C. cinerea was sequenced and assembled into 13 chromosomes. Meiotic recombination rates vary greatly along the chromosomes, and retrotransposons are absent in large regions of the genome with low levels of meiotic recombination. Single-copy genes with identifiable orthologs in other basidiomycetes are predominant in low-recombination regions of the chromosome. In contrast, paralogous multicopy genes are found in the highly recombining regions, including a large family of protein kinases (FunK1) unique to multicellular fungi. Analyses of P450 and hydrophobin gene families confirmed that local gene duplications drive the expansions of paralogous copies and the expansions occur in independent lineages of Agaricomycotina fungi. Gene-expression patterns from microarrays were used to dissect the transcriptional program of dikaryon formation (mating). Several members of the FunK1 kinase family are differentially regulated during sexual morphogenesis, and coordinate regulation of adjacent duplications is rare. The genomes of C. cinerea and Laccaria bicolor, a symbiotic basidiomycete, share extensive regions of synteny. The largest syntenic blocks occur in regions with low meiotic recombination rates, no transposable elements, and tight gene spacing, where orthologous single-copy genes are overrepresented. The chromosome assembly of C. cinerea is an essential resource in understanding the evolution of multicellularity in the fungi.

AB - The mushroom Coprinopsis cinerea is a classic experimental model for multicellular development in fungi because it grows on defined media, completes its life cycle in 2 weeks, produces some 108 synchronized meiocytes, and can be manipulated at all stages in development by mutation and transformation. The 37-megabase genome of C. cinerea was sequenced and assembled into 13 chromosomes. Meiotic recombination rates vary greatly along the chromosomes, and retrotransposons are absent in large regions of the genome with low levels of meiotic recombination. Single-copy genes with identifiable orthologs in other basidiomycetes are predominant in low-recombination regions of the chromosome. In contrast, paralogous multicopy genes are found in the highly recombining regions, including a large family of protein kinases (FunK1) unique to multicellular fungi. Analyses of P450 and hydrophobin gene families confirmed that local gene duplications drive the expansions of paralogous copies and the expansions occur in independent lineages of Agaricomycotina fungi. Gene-expression patterns from microarrays were used to dissect the transcriptional program of dikaryon formation (mating). Several members of the FunK1 kinase family are differentially regulated during sexual morphogenesis, and coordinate regulation of adjacent duplications is rare. The genomes of C. cinerea and Laccaria bicolor, a symbiotic basidiomycete, share extensive regions of synteny. The largest syntenic blocks occur in regions with low meiotic recombination rates, no transposable elements, and tight gene spacing, where orthologous single-copy genes are overrepresented. The chromosome assembly of C. cinerea is an essential resource in understanding the evolution of multicellularity in the fungi.

KW - Basidiomycete

KW - Dikaryon formation

KW - Gene families

KW - Kinase

KW - Meiotic recombination

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UR - http://www.scopus.com/inward/citedby.url?scp=77955350734&partnerID=8YFLogxK

U2 - 10.1073/pnas.1003391107

DO - 10.1073/pnas.1003391107

M3 - Article

C2 - 20547848

AN - SCOPUS:77955350734

SN - 0027-8424

VL - 107

SP - 11889

EP - 11894

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 26

ER -

Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus)

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