The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

doi:10.1111/nph.15904

. 2019 Oct;224(2):886-901.

doi: 10.1111/nph.15904. Epub 2019 Jun 25.

The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

Affiliations

¹ Botanical Institute, Cluster of Excellence on Plant Sciences (CEPLAS), University of Cologne, 50674, Cologne, Germany.
² Department of Cell and Metabolic Biology, Institute of Plant Biochemistry, 06120, Halle (Saale), Germany.
³ Institute of Zoology, Terrestrial Ecology, Cluster of Excellence on Plant Sciences (CEPLAS), University of Cologne, 50674, Cologne, Germany.

PMID: 31074884
DOI: 10.1111/nph.15904

Free article

The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

Debika Sarkar et al. New Phytol. 2019 Oct.

Free article

. 2019 Oct;224(2):886-901.

doi: 10.1111/nph.15904. Epub 2019 Jun 25.

Authors

Affiliations

¹ Botanical Institute, Cluster of Excellence on Plant Sciences (CEPLAS), University of Cologne, 50674, Cologne, Germany.
² Department of Cell and Metabolic Biology, Institute of Plant Biochemistry, 06120, Halle (Saale), Germany.
³ Institute of Zoology, Terrestrial Ecology, Cluster of Excellence on Plant Sciences (CEPLAS), University of Cologne, 50674, Cologne, Germany.

PMID: 31074884
DOI: 10.1111/nph.15904

Abstract

In nature, beneficial and pathogenic fungi often simultaneously colonise plants. Despite substantial efforts to understand the composition of natural plant-microbe communities, the mechanisms driving such multipartite interactions remain largely unknown. Here we address how the interaction between the beneficial root endophyte Serendipita vermifera and the pathogen Bipolaris sorokiniana affects fungal behaviour and determines barley host responses using a gnotobiotic soil-based split-root system. Fungal confrontation in soil resulted in induction of B. sorokiniana genes involved in secondary metabolism and a significant repression of genes encoding putative effectors. In S. vermifera, genes encoding hydrolytic enzymes were strongly induced. This antagonistic response was not activated during the tripartite interaction in barley roots. Instead, we observed a specific induction of S. vermifera genes involved in detoxification and redox homeostasis. Pathogen infection but not endophyte colonisation resulted in substantial host transcriptional reprogramming and activation of defence. In the presence of S. vermifera, pathogen infection and disease symptoms were significantly reduced despite no marked alterations of the plant transcriptional response. The activation of stress response genes and concomitant repression of putative effector gene expression in B. sorokiniana during confrontation with the endophyte suggest a reduction of the pathogen's virulence potential before host plant infection.

Keywords: antagonism; diterpenoid metabolism; host defence; microbiota; phytoalexin.

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Transcript accumulation in a trifold interaction gives insight into mechanisms of biocontrol.
Franken P, Takken FLW, Rep M. Franken P, et al. New Phytol. 2019 Oct;224(2):547-549. doi: 10.1111/nph.16141. New Phytol. 2019. PMID: 31545885 No abstract available.

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References

1. Agler MT, Ruhe J, Kroll S, Morhenn C, Kim ST, Weigel D, Kemen EM. 2016. Microbial hub taxa link host and abiotic factors to plant microbiome variation. PLoS Biology 14: e1002352.
1. Almario J, Jeena G, Wunder J, Langen G, Zuccaro A, Coupland G, Bucher M. 2017. Root-associated fungal microbiota of non-mycorrhizal Arabis alpina and its contribution to plant phosphorus nutrition. Proceedings of the National Academy of Sciences, USA 114: E9403-E9412.
1. Bajaj R, Huang Y, Gebrechristos S, Mikolajczyk B, Brown H, Prasad R, Varma A, Bushley KE. 2018. Transcriptional responses of soybean roots to colonization with the root endophytic fungus Piriformospora indica reveals altered phenylpropanoid and secondary metabolism. Scientific Reports 8: 10227.
1. Banhara A, Ding Y, Kuhner R, Zuccaro A, Parniske M. 2015. Colonisation of root cells and plant growth promotion by Piriformospora indica occurs independently of plant common symbiosis genes. Frontiers in Plant Science 6: 667.
1. Benitez T, Rincon AM, Limon MC, Codon AC. 2004. Biocontrol mechanisms of Trichoderma strains. International Microbiology 7: 249-260.

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[1] Agler MT, Ruhe J, Kroll S, Morhenn C, Kim ST, Weigel D, Kemen EM. 2016. Microbial hub taxa link host and abiotic factors to plant microbiome variation. PLoS Biology 14: e1002352.

[2] Agler MT, Ruhe J, Kroll S, Morhenn C, Kim ST, Weigel D, Kemen EM. 2016. Microbial hub taxa link host and abiotic factors to plant microbiome variation. PLoS Biology 14: e1002352.

[3] Almario J, Jeena G, Wunder J, Langen G, Zuccaro A, Coupland G, Bucher M. 2017. Root-associated fungal microbiota of non-mycorrhizal Arabis alpina and its contribution to plant phosphorus nutrition. Proceedings of the National Academy of Sciences, USA 114: E9403-E9412.

[4] Almario J, Jeena G, Wunder J, Langen G, Zuccaro A, Coupland G, Bucher M. 2017. Root-associated fungal microbiota of non-mycorrhizal Arabis alpina and its contribution to plant phosphorus nutrition. Proceedings of the National Academy of Sciences, USA 114: E9403-E9412.

[5] Bajaj R, Huang Y, Gebrechristos S, Mikolajczyk B, Brown H, Prasad R, Varma A, Bushley KE. 2018. Transcriptional responses of soybean roots to colonization with the root endophytic fungus Piriformospora indica reveals altered phenylpropanoid and secondary metabolism. Scientific Reports 8: 10227.

[6] Bajaj R, Huang Y, Gebrechristos S, Mikolajczyk B, Brown H, Prasad R, Varma A, Bushley KE. 2018. Transcriptional responses of soybean roots to colonization with the root endophytic fungus Piriformospora indica reveals altered phenylpropanoid and secondary metabolism. Scientific Reports 8: 10227.

[7] Banhara A, Ding Y, Kuhner R, Zuccaro A, Parniske M. 2015. Colonisation of root cells and plant growth promotion by Piriformospora indica occurs independently of plant common symbiosis genes. Frontiers in Plant Science 6: 667.

[8] Banhara A, Ding Y, Kuhner R, Zuccaro A, Parniske M. 2015. Colonisation of root cells and plant growth promotion by Piriformospora indica occurs independently of plant common symbiosis genes. Frontiers in Plant Science 6: 667.

[9] Benitez T, Rincon AM, Limon MC, Codon AC. 2004. Biocontrol mechanisms of Trichoderma strains. International Microbiology 7: 249-260.

[10] Benitez T, Rincon AM, Limon MC, Codon AC. 2004. Biocontrol mechanisms of Trichoderma strains. International Microbiology 7: 249-260.

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The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

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The inconspicuous gatekeeper: endophytic Serendipita vermifera acts as extended plant protection barrier in the rhizosphere

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