The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont

E. Tisserant; A. Kohler; P. Dozolme-Seddas; R. Balestrini; K. Benabdellah; A. Colard; D. Croll; C. da Silva; S. K. Gomez; R. Koul; N. Ferrol; V. Fiorilli; D. Formey; P. H. Franken; N. Helber; M. Hijri; L. Lanfranco; E. Lindquist; Y. Liu; M. Malbreil; E. Morin; J. Poulain; H. Shapiro; D. van Tuinen; A. Waschke; C. Azcón-Aguilar; G. Bécard; P. Bonfante; M. J. Harrison; H. Küster; P. Lammers; U. Paszkowski; N. Requena; S. A. Rensing; C. Roux; I. R. Sanders; Y. Shachar-Hill; G. Tuskan; J. P.W. Young; V. Gianinazzi-Pearson; F. Martin

doi:10.1111/j.1469-8137.2011.03948.x

The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont

E. Tisserant, A. Kohler, P. Dozolme-Seddas, R. Balestrini, K. Benabdellah, A. Colard, D. Croll, C. da Silva, S. K. Gomez, R. Koul, N. Ferrol, V. Fiorilli, D. Formey, P. H. Franken, N. Helber, M. Hijri, L. Lanfranco, E. Lindquist, Y. Liu, M. MalbreilE. Morin, J. Poulain, H. Shapiro, D. van Tuinen, A. Waschke, C. Azcón-Aguilar, G. Bécard, P. Bonfante, M. J. Harrison, H. Küster, P. Lammers, U. Paszkowski, N. Requena, S. A. Rensing, C. Roux, I. R. Sanders, Y. Shachar-Hill, G. Tuskan, J. P.W. Young, V. Gianinazzi-Pearson, F. Martin

Research output: Contribution to journal › Article › peer-review

272 Scopus citations

Abstract

• The arbuscular mycorrhizal symbiosis is arguably the most ecologically important eukaryotic symbiosis, yet it is poorly understood at the molecular level. To provide novel insights into the molecular basis of symbiosis-associated traits, we report the first genome-wide analysis of the transcriptome from Glomus intraradices DAOM 197198. • We generated a set of 25906 nonredundant virtual transcripts (NRVTs) transcribed in germinated spores, extraradical mycelium and symbiotic roots using Sanger and 454 sequencing. NRVTs were used to construct an oligoarray for investigating gene expression. • We identified transcripts coding for the meiotic recombination machinery, as well as meiosis-specific proteins, suggesting that the lack of a known sexual cycle in G. intraradices is not a result of major deletions of genes essential for sexual reproduction and meiosis. Induced expression of genes encoding membrane transporters and small secreted proteins in intraradical mycelium, together with the lack of expression of hydrolytic enzymes acting on plant cell wall polysaccharides, are all features of G. intraradices that are shared with ectomycorrhizal symbionts and obligate biotrophic pathogens. • Our results illuminate the genetic basis of symbiosis-related traits of the most ancient lineage of plant biotrophs, advancing future research on these agriculturally and ecologically important symbionts.

Original language	English (US)
Pages (from-to)	755-769
Number of pages	15
Journal	New Phytologist
Volume	193
Issue number	3
DOIs	https://doi.org/10.1111/j.1469-8137.2011.03948.x
State	Published - Feb 2012
Externally published	Yes

Keywords

Glomeromycota
Glomus
Meiosis and recombination genes
Mycorrhiza
Small secreted proteins
Symbiosis
Transcript profiling

ASJC Scopus subject areas

Physiology
Plant Science

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10.1111/j.1469-8137.2011.03948.x

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Tisserant, E., Kohler, A., Dozolme-Seddas, P., Balestrini, R., Benabdellah, K., Colard, A., Croll, D., da Silva, C., Gomez, S. K., Koul, R., Ferrol, N., Fiorilli, V., Formey, D., Franken, P. H., Helber, N., Hijri, M., Lanfranco, L., Lindquist, E., Liu, Y., ... Martin, F. (2012). The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont. New Phytologist, 193(3), 755-769. https://doi.org/10.1111/j.1469-8137.2011.03948.x

Tisserant, E, Kohler, A, Dozolme-Seddas, P, Balestrini, R, Benabdellah, K, Colard, A, Croll, D, da Silva, C, Gomez, SK, Koul, R, Ferrol, N, Fiorilli, V, Formey, D, Franken, PH, Helber, N, Hijri, M, Lanfranco, L, Lindquist, E, Liu, Y, Malbreil, M, Morin, E, Poulain, J, Shapiro, H, van Tuinen, D, Waschke, A, Azcón-Aguilar, C, Bécard, G, Bonfante, P, Harrison, MJ, Küster, H, Lammers, P, Paszkowski, U, Requena, N, Rensing, SA, Roux, C, Sanders, IR, Shachar-Hill, Y, Tuskan, G, Young, JPW, Gianinazzi-Pearson, V & Martin, F 2012, 'The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont', New Phytologist, vol. 193, no. 3, pp. 755-769. https://doi.org/10.1111/j.1469-8137.2011.03948.x

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title = "The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont",

abstract = "• The arbuscular mycorrhizal symbiosis is arguably the most ecologically important eukaryotic symbiosis, yet it is poorly understood at the molecular level. To provide novel insights into the molecular basis of symbiosis-associated traits, we report the first genome-wide analysis of the transcriptome from Glomus intraradices DAOM 197198. • We generated a set of 25906 nonredundant virtual transcripts (NRVTs) transcribed in germinated spores, extraradical mycelium and symbiotic roots using Sanger and 454 sequencing. NRVTs were used to construct an oligoarray for investigating gene expression. • We identified transcripts coding for the meiotic recombination machinery, as well as meiosis-specific proteins, suggesting that the lack of a known sexual cycle in G. intraradices is not a result of major deletions of genes essential for sexual reproduction and meiosis. Induced expression of genes encoding membrane transporters and small secreted proteins in intraradical mycelium, together with the lack of expression of hydrolytic enzymes acting on plant cell wall polysaccharides, are all features of G. intraradices that are shared with ectomycorrhizal symbionts and obligate biotrophic pathogens. • Our results illuminate the genetic basis of symbiosis-related traits of the most ancient lineage of plant biotrophs, advancing future research on these agriculturally and ecologically important symbionts.",

keywords = "Glomeromycota, Glomus, Meiosis and recombination genes, Mycorrhiza, Small secreted proteins, Symbiosis, Transcript profiling",

author = "E. Tisserant and A. Kohler and P. Dozolme-Seddas and R. Balestrini and K. Benabdellah and A. Colard and D. Croll and {da Silva}, C. and Gomez, {S. K.} and R. Koul and N. Ferrol and V. Fiorilli and D. Formey and Franken, {P. H.} and N. Helber and M. Hijri and L. Lanfranco and E. Lindquist and Y. Liu and M. Malbreil and E. Morin and J. Poulain and H. Shapiro and {van Tuinen}, D. and A. Waschke and C. Azc{\'o}n-Aguilar and G. B{\'e}card and P. Bonfante and Harrison, {M. J.} and H. K{\"u}ster and P. Lammers and U. Paszkowski and N. Requena and Rensing, {S. A.} and C. Roux and Sanders, {I. R.} and Y. Shachar-Hill and G. Tuskan and Young, {J. P.W.} and V. Gianinazzi-Pearson and F. Martin",

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doi = "10.1111/j.1469-8137.2011.03948.x",

language = "English (US)",

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T1 - The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont

AU - Tisserant, E.

AU - Kohler, A.

AU - Dozolme-Seddas, P.

AU - Balestrini, R.

AU - Benabdellah, K.

AU - Colard, A.

AU - Croll, D.

AU - da Silva, C.

AU - Gomez, S. K.

AU - Koul, R.

AU - Ferrol, N.

AU - Fiorilli, V.

AU - Formey, D.

AU - Franken, P. H.

AU - Helber, N.

AU - Hijri, M.

AU - Lanfranco, L.

AU - Lindquist, E.

AU - Liu, Y.

AU - Malbreil, M.

AU - Morin, E.

AU - Poulain, J.

AU - Shapiro, H.

AU - van Tuinen, D.

AU - Waschke, A.

AU - Azcón-Aguilar, C.

AU - Bécard, G.

AU - Bonfante, P.

AU - Harrison, M. J.

AU - Küster, H.

AU - Lammers, P.

AU - Paszkowski, U.

AU - Requena, N.

AU - Rensing, S. A.

AU - Roux, C.

AU - Sanders, I. R.

AU - Shachar-Hill, Y.

AU - Tuskan, G.

AU - Young, J. P.W.

AU - Gianinazzi-Pearson, V.

AU - Martin, F.

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N2 - • The arbuscular mycorrhizal symbiosis is arguably the most ecologically important eukaryotic symbiosis, yet it is poorly understood at the molecular level. To provide novel insights into the molecular basis of symbiosis-associated traits, we report the first genome-wide analysis of the transcriptome from Glomus intraradices DAOM 197198. • We generated a set of 25906 nonredundant virtual transcripts (NRVTs) transcribed in germinated spores, extraradical mycelium and symbiotic roots using Sanger and 454 sequencing. NRVTs were used to construct an oligoarray for investigating gene expression. • We identified transcripts coding for the meiotic recombination machinery, as well as meiosis-specific proteins, suggesting that the lack of a known sexual cycle in G. intraradices is not a result of major deletions of genes essential for sexual reproduction and meiosis. Induced expression of genes encoding membrane transporters and small secreted proteins in intraradical mycelium, together with the lack of expression of hydrolytic enzymes acting on plant cell wall polysaccharides, are all features of G. intraradices that are shared with ectomycorrhizal symbionts and obligate biotrophic pathogens. • Our results illuminate the genetic basis of symbiosis-related traits of the most ancient lineage of plant biotrophs, advancing future research on these agriculturally and ecologically important symbionts.

AB - • The arbuscular mycorrhizal symbiosis is arguably the most ecologically important eukaryotic symbiosis, yet it is poorly understood at the molecular level. To provide novel insights into the molecular basis of symbiosis-associated traits, we report the first genome-wide analysis of the transcriptome from Glomus intraradices DAOM 197198. • We generated a set of 25906 nonredundant virtual transcripts (NRVTs) transcribed in germinated spores, extraradical mycelium and symbiotic roots using Sanger and 454 sequencing. NRVTs were used to construct an oligoarray for investigating gene expression. • We identified transcripts coding for the meiotic recombination machinery, as well as meiosis-specific proteins, suggesting that the lack of a known sexual cycle in G. intraradices is not a result of major deletions of genes essential for sexual reproduction and meiosis. Induced expression of genes encoding membrane transporters and small secreted proteins in intraradical mycelium, together with the lack of expression of hydrolytic enzymes acting on plant cell wall polysaccharides, are all features of G. intraradices that are shared with ectomycorrhizal symbionts and obligate biotrophic pathogens. • Our results illuminate the genetic basis of symbiosis-related traits of the most ancient lineage of plant biotrophs, advancing future research on these agriculturally and ecologically important symbionts.

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KW - Meiosis and recombination genes

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KW - Symbiosis

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The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont

Abstract

Keywords

ASJC Scopus subject areas

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