Abstract
BackgroundCyanobacteria of the genus Nostoc are capable of forming symbioses with a wide range of organism, including a diverse assemblage of cyanolichens. Only certain lineages of Nostoc appear to be able to form a close, stable symbiosis, raising the question whether symbiotic competence is determined by specific sets of genes and functionalities.ResultsWe present the complete genome sequencing, annotation and analysis of two lichen Nostoc strains. Comparison with other Nostoc genomes allowed identification of genes potentially involved in symbioses with a broad range of partners including lichen mycobionts. The presence of additional genes necessary for symbiotic competence is likely reflected in larger genome sizes of symbiotic Nostoc strains. Some of the identified genes are presumably involved in the initial recognition and establishment of the symbiotic association, while others may confer advantage to cyanobionts during cohabitation with a mycobiont in the lichen symbiosis.ConclusionsOur study presents the first genome sequencing and genome-scale analysis of lichen-associated Nostoc strains. These data provide insight into the molecular nature of the cyanolichen symbiosis and pinpoint candidate genes for further studies aimed at deciphering the genetic mechanisms behind the symbiotic competence of Nostoc. Since many phylogenetic studies have shown that Nostoc is a polyphyletic group that includes several lineages, this work also provides an improved molecular basis for demarcation of a Nostoc clade with symbiotic competence.
Highlights
Cyanobacteria of the genus Nostoc are capable of forming symbioses with a wide range of organism, including a diverse assemblage of cyanolichens
Based on the sequence coverage obtained, the linear replicons are present in higher copy numbers than the circular ones. pNPM9 and pNPM10 are characterized by a lower GC content (36.6% and 37.7%, respectively) than the rest of the genome (Table 2)
Comparative genome analysis of symbiotic and free-living cyanobacteria allowed the identification of several pathways that may contribute to symbiotic competence of Nostoc strains
Summary
Cyanobacteria of the genus Nostoc are capable of forming symbioses with a wide range of organism, including a diverse assemblage of cyanolichens. Certain lineages of Nostoc appear to be able to form a close, stable symbiosis, raising the question whether symbiotic competence is determined by specific sets of genes and functionalities. Lichens are symbiotic associations between a fungus (mycobiont) and a photosynthetic partner (photobiont) that can be an eukaryotic alga (phycobiont), a cyanobacterium (cyanobiont), or both [1]. The association of fungal mycobiont partner and the photobiont partner (e.g. Nostoc) can either be by codispersal, e.g. in the lecanoromycete lichen Lobaria pulmonaria [6], or de novo by the pairing of a germinating spore and a free-living photobiont, as generally found in the lecanoromycete genus Peltigera [7, 8]
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