Succinate-mediated symbiosis between Dialister hominis and an uncharacterized Segatella-like pectinophile.

OBJECTIVES: Syntrophy has been documented between pectinophiles and methanol-utilizing bacteria, along with instances of cross-feeding between pectinophiles and methanogens. However, studies on the ecology of pectinophiles in anaerobic digestion (AD) are lacking. Therefore, in this study, we aimed to elucidate the ecology of pectinophiles by isolating novel pectinophile forms and conducting a comprehensive analysis of their physiology and ecology. METHODS: Complex microbial communities from AD systems were enriched in a pectin-containing medium; subsequently, specific strains were isolated using a pectinophile isolation method. The carbon source assimilation and growth ability of the isolates, along with their symbiotic relationships, were evaluated using batch tests. RESULTS: Strain LPYR103-Pre exhibited 16S rRNA gene sequence similarity and average nucleotide identity values of 94.3 % and 77.9 %, respectively, compared to its closest related species, Segatella cerevisiae. Strain LPYR103-Pre demonstrated attenuated growth in the presence of eight common sugars but exhibited remarkably high growth in the presence of pectin, d-galacturonate, and d-glucuronate, with succinate being identified as a primary metabolite. Accumulation of succinate inhibited the growth of strain LPYR103-Pre. However, this growth impediment was alleviated by Dialister hominis LPYG114-Dih, whose growth required succinate. CONCLUSIONS: Our results elucidate the specific carbon source requirements of the Segatella-like strain LPYR103-Pre and succinate-mediated symbiosis involving D. hominis. These findings provide new insights into the degradation of pectin and its degradation products during AD, contributing to the identification of unknown pectinophiles.

Draft genome sequence and morphological data of Planifilum fimeticola PLACP1, a thermophilic chloramphenicol-resistant bacterium isolated from thermophilic sludge.

Planifilum is a thermophilic aerobic Actinomyces often found in compost that is suggested to play a primary role in the degradation of organic matter and is a potential antibiotic-resistance gene (ARG)-hosting bacterium during the composting process. Planifilum fimeticola PLACP1 was isolated from thermophilic sludge on a Columbia plate supplemented with chloramphenicol. PLACP1 was Gram-stain-positive with cells longer than 20 µm that branched and intertwined with each other. A draft genome sequence of P. fimeticola PLACP1 was generated using the Illumina NovaSeq system and deposited in the National Center for Biotechnology Information database under the BioProject accession numbers PRJDB17484 and SAMD00736731. The genome sequence comprised 3,395,140 bp, with 57.97 % GC content and 3,368 genes, including 3,267 protein-coding, 6 rRNA, and 56 tRNA genes. Based on the Comprehensive Antibiotic Resistance Database, 237 predicted gene products were related to ARGs, including 44 macrolide antibiotic-related genes (19 %) as the largest group. This dataset will be beneficial for the morphological identification, comparative genomic analyses, and ARG research in the genus Planifilum.