Project description:We present the draft genome sequence for Bacillus sp. strain PF3, Bacillus sp. strain K6W, Cellulomonas sp. strain B12, Cellulomonas sp. strain K38, Cellulomonas sp. strain K39, and Cellulomonas sp. strain K42B. These bacteria were isolated from contaminated soils, and their genomes contain genes related to chromate transport and reduction.

Project description:Here, we report the complete-genome assemblies of biofilm isolates 201A and 204H. They possess six and seven plasmids, respectively, with a size ranging from 44 kb to 159 kb. Genomic comparisons place the two strains into one new species belonging to the genus Leisingera as novel representatives of the Roseobacter group.

Project description:Biotransformation of natural products by filamentous fungi is a powerful and effective approach to achieve derivatives with valuable new chemical and biological properties. Although diterpenoid substrates usually exhibit good susceptibility towards fungi enzymes, there have been no studies concerning the microbiological transformation of halimane-type diterpenoids up to now. In this work, we investigated the capability of Fusarium oxysporum (a fungus isolated from the rhizosphere of Senna spectabilis) and Myrothecium verrucaria (an endophyte) to transform halimane (1) and labdane (2) acids isolated from Hymenaea stigonocarpa (Fabaceae). Feeding experiments resulted in the production of six derivatives, including hydroxy, oxo, formyl and carboxy analogues. Incubation of 1 with F. oxysporum afforded 2-oxo-derivative (3), while bioconversion with M. verrucaria provided 18,19-dihydroxy (4), 18-formyl (5) and 18-carboxy (6) bioproducts. Transformation of substrate 2 mediated by F. oxysporum produced a 7α-hydroxy (7) derivative, while M. verrucaria yielded 7α- (7) and 3β-hydroxy (8) metabolites. Unlike F. oxysporum, which showed a preference to transform ring B, M. verrucaria exhibited the ability to hydroxylate both rings A and B from substrate 2. Additionally, compounds 1-8 were evaluated for inhibitory activity against Hr-AChE and Hu-BChE enzymes through ICER-IT-MS/MS assay.

Project description:The genomes of 11 conspecific Streptomyces strains, i.e., from the same species and inhabiting the same ecological niche, were sequenced and assembled. This data set offers an ideal framework to assess the genome evolution of Streptomyces species in their ecological context.

Project description:We report here the draft genome sequences of Hydrogenophaga sp. strains IBVHS1 and IBVHS2, two bacteria assembled from the metagenomes of surface samples from freshwater lakes. The genomes are >95% complete and may represent new species within the Hydrogenophaga genus, indicating a larger diversity than currently identified.

Project description:We report here the draft genome sequences of Sphingomonas sp. IBVSS1 and IBVSS2, two bacteria assembled from the metagenomes of surface samples from freshwater lakes. The genomes are >99% complete and may represent new species within the Sphingomonas genus, indicating a larger diversity than currently identified.

Project description:Here, we report the draft genome sequences of two related Streptomyces sp. strains, JV180 and SP18CM02. Despite their isolation from soils in Connecticut and Missouri (USA), respectively, they are strikingly similar in gene content. Both belong to the Streptomyces griseus clade and harbor several secondary metabolite biosynthetic gene clusters.

Project description:We report the draft genome sequences of Vibrio fortis strains AN-60 and S7-72, which were isolated from coral (Fungia sp.) from the Andaman Sea. The genome sizes for strains AN-60 and S7-72 are 5.43 and 5.53 Mb, respectively. Both strains harbor genes associated with protocatechuate and azathioprine degradation and the sulfate reduction pathway.

Project description:The thermophilic Moorella sp. strains E308F and E306M were isolated from an acidic hot spring in Japan. Here, we report the draft genome sequences of E308F (3.06 Mbp; G+C content, 54.0%) and E306M (2.99 Mbp; G+C content, 54.4%), to advance the genomic information available on the genus Moorella.

Project description:We report the complete genome sequences of two strains of the Alphaproteobacteria genus Rhodobacter, Rhodobacter blasticus 28/5, the source of the commercially available enzyme RsaI, and a new isolate of Rhodobacter sphaeroides 2.4.1. Both strains contain multiple restriction-modification systems, and their DNA methylation motifs are included in this report.