Additional file 1: of Genome sequence of Epibacterium ulvae strain DSM 24752T, an indigoidine-producing, macroalga-associated member of the marine Roseobacter group

Table S1 Classification and general features of Epibacterium ulvae U95 T in accordance with the MIGS recommendations [22] published by the Genome Standards Consortium [23]. Table S2 Project information. Table S3 Gene comparisons of putative indigoidine biosynthesis clusters. Table S4 Gene clusters encoding proteins for chemotaxis-related methyl accepting proteins E. ulvae U95 T. Table S5 Gene clusters encoding proteins and extracellular s tructures for surface in E. ulvae U95 T. Table S6 Resistance proteins and transporters present in genome of Epibacterium ulvae U95 that provide protection against competing microorganisms. Drug resistance proteins and efflux pumps. Table S7. Resistance proteins and transporters present in genome of Epibacterium ulvae U95 that provide protection against competing microorganisms. DMT Transporter. Table S8 Protein secretory systems present in Epibacterium ulvae U95. Figure S1. Chrome Azurol S (CAS) assay for the determination of siderophore production. The strains were grown on iron depleted medium and the sterile filtrated supernatant of E. ulvae U95 T and R. denitrificans (R.d.) were used for the CAS assay. Deferoxamine mesylate (50 μM) used as positive control (+) and the iron depleted medium as negative control (−). Figure S2. Biofilm forming ability of different isolates under study. Error bars represents standard deviations from multiple cultures (n = 10). Figure S3. Above: PDA-chromatogram at 610 nm; below: MS mass chromatogram at m/z 249. (PDF 1182 kb)