Thalassoporum longitrichum sp. nov., a marine epizoic cyanobacterium with anti-inflammatory potential, and the taxonomic reassessment of Limnothrix Meffert

The strain LEGE 10371, isolated from the surface of a marine sponge at Praia da Memoria, Portugal, was characterized as a new Thalassoporum species (Pseudanabaenales) using a polyphasic approach that included 16S rRNA gene phylogenetic analysis (Maximum Likelihood and Bayesian Inference), 16S-23S ITS secondary structures, p-distance calculations, MALDI-TOF MS profiling, and morphological analysis by optical and scanning electron microscopy, as well as ecological and biochemical characterization. Phylogenetically, LEGE 10371 clustered within the Thalassoporum clade, however distant from the other existent species of the genus. The p-distance analysis revealed low sequence identity with other Thalassoporum species, with a maximum value of 97.2% to Th. komareki. The MALDI-TOF profile displayed high-intensity peaks at approximately 3,000, 4,000, 6,000 and 8,000 m/z, representing strong candidates for diagnostic markers of the new species. Morphologically, the new species differ from the other species of the genus by presenting trichomes with more than 10 cells and lack of aerotopes. Biocompatibility of the fractions was evaluated in HaCaT keratinocytes, showing no cytotoxic effects at most tested concentrations. PCR screening targeting mcyE, sxtG, anaC, and cyrA confirmed the absence of the genetic potential for the production of major cyanotoxins. Chemical characterization revealed a pigment-rich profile dominated by chlorophyll-a and carotenoids, including {beta}-carotene, zeaxanthin, lutein, and mixoxanthophyll. Bioactivity assays showed superoxide anion radical scavenging by the aqueous fraction (IC2 {approx} 0.042-0.045 mg mL-{superscript 1}), strong nitric oxide radical scavenging by the acetonic fraction (IC = 0.045 mg mL-{superscript 1}), and lipoxygenase inhibition ([~]41%, for a fraction concentration of 0.25 mg mL-), suggesting a potential contribution of these fractions to modulate inflammation-related pathways. Additionally to this results, the polyphasic analysis permitted to confirm previous data that Pseudanabaena and Limnothrix represent the same generic entity. Both genera clustered together, presented high 16S rRNA gene identity (up to 99.9%) and share the same morphological and ecological features. Consequently, we formally proposed the synonimization of Limnothrix into Pseudanabaena.