Gene losses resulting in specialized metabolism in the earliest divergent symbiotic Frankia clade can be linked to its low saprotrophic capabilities
Berckx, F.; Nguyen, T. V.; Hilker, R.; Wibberg, D.; Battenberg, K.; Kalinowski, J.; Berry, A. M.; Pawlowski, K.
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Frankia cluster-2 are diazotrophs that engage in root nodule symbiosis with host plants of the Cucurbitales and the Rosales. They are rarely found in the soil in the absence of their hosts. Previous studies have shown that an assimilated nitrogen source, presumable arginine, is exported to the host in nodules of Datisca glomerata (Cucurbitales), but not in the nodules of Ceanothus thyrsiflorus (Rosales). To investigate if an assimilated nitrogen form is commonly exported by cluster-2 strains, and which nitrogen source would then be exported to C. thyrsiflorus, gene expression levels, metabolite profiles and enzyme activities were analysed. We found that the export of assimilated nitrogen in symbiosis is a common feature for Frankia cluster-2 strains, but which source is host-plant dependent. We also identified several gene losses. The ammonium assimilation via the GS/GOGAT cycle for export to the host, entails a high demand of 2-oxoglutarate from the TCA cycle. This specialised metabolism seems to have led to genome reduction: we show that Frankia cluster-2 strains have lost the glyoxylate shunt and succinate semialdehyde dehydrogenase, leading to a linearization of the TCA cycle. This could explain the low saprotrophic potential of Frankia cluster-2.
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