Feathermoss and epiphytic Nostoc cooperate differently: expanding the spectrum of plant–cyanobacteria symbiosis View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2017-08-11

AUTHORS

Denis Warshan, Josh L Espinoza, Rhona K Stuart, R Alexander Richter, Sea-Yong Kim, Nicole Shapiro, Tanja Woyke, Nikos C Kyrpides, Kerrie Barry, Vasanth Singan, Erika Lindquist, Charles Ansong, Samuel O Purvine, Heather M Brewer, Philip D Weyman, Christopher L Dupont, Ulla Rasmussen

ABSTRACT

Dinitrogen (N2)-fixation by cyanobacteria in symbiosis with feathermosses is the primary pathway of biological nitrogen (N) input into boreal forests. Despite its significance, little is known about the cyanobacterial gene repertoire and regulatory rewiring needed for the establishment and maintenance of the symbiosis. To determine gene acquisitions and regulatory changes allowing cyanobacteria to form and maintain this symbiosis, we compared genomically closely related symbiotic-competent and -incompetent Nostoc strains using a proteogenomics approach and an experimental set up allowing for controlled chemical and physical contact between partners. Thirty-two gene families were found only in the genomes of symbiotic strains, including some never before associated with cyanobacterial symbiosis. We identified conserved orthologs that were differentially expressed in symbiotic strains, including protein families involved in chemotaxis and motility, NO regulation, sulfate/phosphate transport, and glycosyl-modifying and oxidative stress-mediating exoenzymes. The physical moss–cyanobacteria epiphytic symbiosis is distinct from other cyanobacteria–plant symbioses, with Nostoc retaining motility, and lacking modulation of N2-fixation, photosynthesis, GS-GOGAT cycle and heterocyst formation. The results expand our knowledge base of plant–cyanobacterial symbioses, provide a model of information and material exchange in this ecologically significant symbiosis, and suggest new currencies, namely nitric oxide and aliphatic sulfonates, may be involved in establishing and maintaining the cyanobacteria–feathermoss symbiosis. More... »

PAGES

2821-2833

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  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1038/ismej.2017.134

    DOI

    http://dx.doi.org/10.1038/ismej.2017.134

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1091161769

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/28800136


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