Project description:Isolation and culture of Marine bacteria

Project description:Isolation of SAR11 marine bacteria from cryopreserved seawater

Project description:Carbapenem-non-susceptible Bacteria Recovered from the Faeces of Dairy Cattle

Project description:Genome sequencing of gram-negative bacteria collected in Japan (JARBS-GNR project)

Project description:Illumina WGS of bacteria involved in Brisbane CR-Ab outbreak 2016-2018

Project description:Isolation of marine bacteria for the production of asparaginase

Project description:Previous studies have demonstrated that the iron content in marine heterotrophic bacteria is comparatively higher than that of phytoplankton. Therefore, they have been indicated to play a major role in the biogeochemical cycling of iron. In this study, we aimed to investigate the potential of viral lysis as a source of iron for marine heterotrophic bacteria. Viral lysates were derived from the marine heterotrophic bacterium, Vibrio natriegens PWH3a (A.K.A Vibrio alginolyticus). The bioavailability of Fe in the lysates was determined using a model heterotrophic bacterium, namely, Dokdonia sp. strain Dokd-P16, isolated from Fe-limited waters along Line P transect in the Northeastern Pacific Ocean. The bacteria were grown under Fe-deplete or Fe-replete conditions before being exposed to the viral lysate. Differential gene expression following exposure to the viral lysate was analyzed via RNA sequencing to identify differentially expressed genes under iron-replete and iron-deplete conditions. This study would provide novel insights into the role of viral lysis in heterotrophic bacteria in supplying bioavailable iron to other marine microorganisms under iron-limiting and non-limiting conditions. First, the marine heterotrophic bacterium genome, Dokdonia sp. strain Dokd-P16, was sequenced to provide a genomic context for the expression studies. Subsequently, the relative gene expression in Dokdonia sp. strain Dokd-P16 grown under Fe limiting and non-limiting conditions were analyzed. This transcriptomic approach would be utilized to elucidate genes regulated by Fe availability in Dokdonia sp. strain Dokd-P16, which indicate its Fe-related response viral lysate exposure. Taken together, in this study, the transcriptomic responses of Fe-limited and non-limited marine heterotrophic bacteria were analyzed, which provided novel insights into the biological availability of Fe from the viral lysates.

Project description:Genome sequencing of Gram-negative bacteria collected by Hiroshima University and National Institute of Infectious Diseases in Japan

Project description:Bacteria isolation from marine and lake Genome sequencing and assembly

Project description:Isolation and genomic characterization of bacteriophages targeting marine magnetotactic bacteria