Roseateles amylovorans sp. nov., isolated from freshwater.

A Gram-stain-negative, rod-shaped, amylolytic bacterial strain, designated as bsSlp3-1T, was isolated from the Slepian water system, a freshwater reservoir. Strain bsSlp3-1T was found to be aerobic, oxidase-positive and catalase-negative, grew at 5-37 °C (optimum, 28 °C), pH 5.0-9.5 (optimum, pH 7.0) and low NaCl concentration (up to 1.0 %). Comparative analysis of 16S rRNA gene sequence similarity revealed that strain bsSlp3-1T clustered with Roseateles species and is closely related to Roseateles depolymerans KCTC 42856T (98.7 %) and Roseateles terrae CCUG 52222T (98.6 %). Whole-genome comparisons using average nucleotide identity and digital DNA-DNA hybridization values suggested that strain bsSlp3-1T represents a novel species within the genus Roseateles and is most closely related to Roseateles aquatilis CCUG 48205T (81.2 and 25.6 %, respectively). The genome of strain bsSlp3-1T consisted of a single circular chromosome with size 6 289 366 bp and DNA G+C content of 66.8 mol%. The predominant cellular fatty acids of bsSlp3-1T were cis-9-hexadecanoic and hexadecenoic acids. According to the data obtained in this work, strain bsSlp3-1T represents a novel Roseateles species for which the name Roseateles amylovorans sp. nov. is proposed. The type strain is bsSlp3-1T (=BIM B-1768T=NBIMCC 9098T=VKM B-3671T).

RiboGrove: a database of full-length prokaryotic 16S rRNA genes derived from completely assembled genomes.

16S rRNA gene is frequently used for the identification of prokaryotic organisms and for phylogeny inference. Several specialized public databases exist that contain complete and partial sequences of 16S rRNA genes. In this paper, we present RiboGrove: the first publicly available database that comprises only full-length sequences of 16S rRNA genes originating from completely assembled prokaryotic genomes deposited in RefSeq. Despite being strongly biased towards frequently sequenced genomes, RiboGrove is a useful complement to existing 16S rRNA resources and allows for analyses that would not be possible using amplicon-derived gene sequences. For instance, the absence of partial gene sequences in RiboGrove allowed us to make a summary of prokaryotic organisms, which lack core anti-Shine-Dalgarno sequence in their 16S rRNA genes. In this study, we describe the collected sequence data and present the results of exploratory data analysis of 16S rRNA gene sequences.

Barapost: Binning of Nucleotide Sequences According to Taxonomic Annotation.

Contemporary sequencing technologies, Oxford Nanopore in particular, provide a way to sequence multiple samples during single run using molecular barcodes. Specific circumstances, however, can make barcoding undesirable or unaffordable. Here, we introduce Barapost: a command-line toolkit that demultiplexes long nucleotide sequences relying on taxonomic annotation instead of barcoding.