Footprints of parasitism in the genome of the parasitic flowering plant Cuscuta campestris

Alexander Vogel; Rainer Schwacke; Alisandra K. Denton; Björn Usadel; Julien Hollmann; Karsten Fischer; Anthony Bolger; Maximilian H.W. Schmidt; Marie E. Bolger; Heidrun Gundlach; Klaus F.X. Mayer; Hanna Weiss-Schneeweiss; Eva M. Temsch; Kirsten Krause

doi:10.1038/s41467-018-04344-z

Footprints of parasitism in the genome of the parasitic flowering plant Cuscuta campestris

Alexander Vogel, Rainer Schwacke, Alisandra K. Denton, Björn Usadel, Julien Hollmann, Karsten Fischer, Anthony Bolger, Maximilian H.W. Schmidt, Marie E. Bolger, Heidrun Gundlach, Klaus F.X. Mayer, Hanna Weiss-Schneeweiss, Eva M. Temsch, Kirsten Krause

Life Sciences

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

134 Scopus citations

Abstract

A parasitic lifestyle, where plants procure some or all of their nutrients from other living plants, has evolved independently in many dicotyledonous plant families and is a major threat for agriculture globally. Nevertheless, no genome sequence of a parasitic plant has been reported to date. Here we describe the genome sequence of the parasitic field dodder, Cuscuta campestris. The genome contains signatures of a fairly recent whole-genome duplication and lacks genes for pathways superfluous to a parasitic lifestyle. Specifically, genes needed for high photosynthetic activity are lost, explaining the low photosynthesis rates displayed by the parasite. Moreover, several genes involved in nutrient uptake processes from the soil are lost. On the other hand, evidence for horizontal gene transfer by way of genomic DNA integration from the parasite's hosts is found. We conclude that the parasitic lifestyle has left characteristic footprints in the C. campestris genome.

Original language	English
Article number	2515
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-04344-z
State	Published - 1 Dec 2018

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Vogel, A., Schwacke, R., Denton, A. K., Usadel, B., Hollmann, J., Fischer, K., Bolger, A., Schmidt, M. H. W., Bolger, M. E., Gundlach, H., Mayer, K. F. X., Weiss-Schneeweiss, H., Temsch, E. M., & Krause, K. (2018). Footprints of parasitism in the genome of the parasitic flowering plant Cuscuta campestris. Nature Communications, 9(1), Article 2515. https://doi.org/10.1038/s41467-018-04344-z

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abstract = "A parasitic lifestyle, where plants procure some or all of their nutrients from other living plants, has evolved independently in many dicotyledonous plant families and is a major threat for agriculture globally. Nevertheless, no genome sequence of a parasitic plant has been reported to date. Here we describe the genome sequence of the parasitic field dodder, Cuscuta campestris. The genome contains signatures of a fairly recent whole-genome duplication and lacks genes for pathways superfluous to a parasitic lifestyle. Specifically, genes needed for high photosynthetic activity are lost, explaining the low photosynthesis rates displayed by the parasite. Moreover, several genes involved in nutrient uptake processes from the soil are lost. On the other hand, evidence for horizontal gene transfer by way of genomic DNA integration from the parasite's hosts is found. We conclude that the parasitic lifestyle has left characteristic footprints in the C. campestris genome.",

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AU - Usadel, Björn

AU - Hollmann, Julien

AU - Fischer, Karsten

AU - Bolger, Anthony

AU - Schmidt, Maximilian H.W.

AU - Bolger, Marie E.

AU - Gundlach, Heidrun

AU - Mayer, Klaus F.X.

AU - Weiss-Schneeweiss, Hanna

AU - Temsch, Eva M.

AU - Krause, Kirsten

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AB - A parasitic lifestyle, where plants procure some or all of their nutrients from other living plants, has evolved independently in many dicotyledonous plant families and is a major threat for agriculture globally. Nevertheless, no genome sequence of a parasitic plant has been reported to date. Here we describe the genome sequence of the parasitic field dodder, Cuscuta campestris. The genome contains signatures of a fairly recent whole-genome duplication and lacks genes for pathways superfluous to a parasitic lifestyle. Specifically, genes needed for high photosynthetic activity are lost, explaining the low photosynthesis rates displayed by the parasite. Moreover, several genes involved in nutrient uptake processes from the soil are lost. On the other hand, evidence for horizontal gene transfer by way of genomic DNA integration from the parasite's hosts is found. We conclude that the parasitic lifestyle has left characteristic footprints in the C. campestris genome.

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Footprints of parasitism in the genome of the parasitic flowering plant Cuscuta campestris

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