TY - JOUR AB - Dissolved organic nitrogen (DON) compounds such as methylamines (MAs) and glycine betaine (GBT) occur at detectable concentrations in marine habitats and are also produced and released by microalgae. For many marine bacteria, these DON compounds can serve as carbon, energy, and nitrogen sources, but microalgae usually cannot metabolize them. Interestingly though, it was previously shown that 'Donghicola' sp. strain KarMa—a member of the marine 'Rhodobacteraceae'—can cross-feed ammonium such that the ammonium it produces upon degrading monomethylamine (MMA) then serves as nitrogen source for the diatom 'Phaeodactylum tricornutum'; thus, these organisms form a mutual metabolic interaction under photoautotrophic conditions. In the present study, we investigated whether this interaction plays a broader role in bacteria–diatom interactions in general. Results showed that cross-feeding between strain KarMa and 'P. tricornutum' was also possible with di- and trimethylamine as well as with GBT. Further, cross-feeding of strain KarMa was also observed in cocultures with the diatoms 'Amphora coffeaeformis' and 'Thalassiosira pseudonana' with MMA as the sole nitrogen source. Regarding cross-feeding involving other 'Rhodobacteraceae' strains, the 'in silico' analysis of MA and GBT degradation pathways indicated that algae-associated 'Rhodobacteraceae'-type strains likely interact with 'P. tricornutum' in a similar manner as the strain KarMa does. For these types of strains (such as 'Celeribacter halophilus, Roseobacter denitrificans, Roseovarius indicus, Ruegeria pomeroyi, and Sulfitobacter noctilucicola'), ammonium cross-feeding after methylamine degradation showed species-specific patterns, whereas bacterial GBT degradation always led to diatom growth. Overall, the degradation of DON compounds by the 'Rhodobacteraceae' family and the subsequent cross-feeding of ammonium may represent a widespread, organism-specific, and regulated metabolic interaction for establishing and stabilizing associations with photoautotrophic diatoms in the oceans. AU - Zecher, Karsten AU - Hayes, Kristiane Rebecca AU - Philipp, Bodo DA - 2020-10-06 DO - 10.17879/54029478192 KW - methylamines KW - Rhodobacteraceae KW - diatoms KW - cross-feeding interaction KW - phycosphere KW - glycine betaine LA - eng N1 - Frontiers in Microbiology 11 (2020), 533894, 1-15 N1 - Finanziert durch den Open-Access-Publikationsfonds der Westfälischen Wilhelms-Universität Münster (WWU Münster). PY - 2020-10-06 TI - Evidence of Interdomain Ammonium Cross-Feeding From Methylamine- and Glycine Betaine-Degrading 'Rhodobacteraceae' to Diatoms as a Widespread Interaction in the Marine Phycosphere UR - https://nbn-resolving.org/urn:nbn:de:hbz:6-74019495756 Y2 - 2024-11-22T11:41:38 ER -