Project description:Moorea producens overview

Project description:Moorea producens PAL 15AUG08-1 Genome sequencing and assembly

Project description:Moorea producens ASI16Jul14-2 genetic information: 16S sequence and vatiamide biosynthetic gene cluster

Project description:Moorena producens 3L strain:3L Genome sequencing and assembly

Project description:Moorena producens 3L strain:3L Genome sequencing and assembly

Project description:Crude extracts of Moorea producens JHB (with blank solvent controls), grown under normal conditions or with excess sodium iodide, and run by LCMS on a Thermo LTQ FT and LCQ Advantage, respectively. Isolated pure compound mzXML files from the LTQ FT by direct nanomate injection.

Project description:Culex quinquefasciatus JHB principal haplotype Genome sequencing and assembly

Project description:The tropical marine cyanobacterium Moorena producens JHB is a prolific source of secondary metabolites with potential biomedical utility. Previous studies of this strain led to the discovery of several novel compounds such as the hectochlorins and jamaicamides; however, bioinformatic analyses of its genome suggested that there were many more cryptic biosynthetic gene clusters yet to be characterized. To potentially stimulate the production of novel compounds from this strain, it was co-cultured with Candida albicans. From this experiment, we observed the increased production of a new compound that we characterize here as hectoramide B. Bioinformatic analysis of the M. producens JHB genome enabled the identification of a putative biosynthetic gene cluster responsible for hectoramide B biosynthesis. This work demonstrates that co-culture competition experiments can be a valuable method to facilitate the discovery of novel natural products from cyanobacteria.

Project description:Moorea bouillonii strain PNG 19MAY05-8 genome sequencing and assembly

Project description:BackgroundFilamentous tropical marine cyanobacteria such as Moorea producens strain JHB possess a rich community of heterotrophic bacteria on their polysaccharide sheaths; however, these bacterial communities have not yet been adequately studied or characterized.Results and discussionThrough efforts to sequence the genome of this cyanobacterial strain, the 5.99 MB genome of an unknown bacterium emerged from the metagenomic information, named here as Mor1. Analysis of its genome revealed that the bacterium is heterotrophic and belongs to the phylum Acidobacteria, subgroup 22; however, it is only 85 % identical to the nearest cultured representative. Comparative genomics further revealed that Mor1 has a large number of genes involved in transcriptional regulation, is completely devoid of transposases, is not able to synthesize the full complement of proteogenic amino acids and appears to lack genes for nitrate uptake. Mor1 was found to be present in lab cultures of M. producens collected from various locations, but not other cyanobacterial species. Diverse efforts failed to culture the bacterium separately from filaments of M. producens JHB. Additionally, a co-culturing experiment between M. producens JHB possessing Mor1 and cultures of other genera of cyanobacteria indicated that the bacterium was not transferable.ConclusionThe data presented support a specific relationship between this novel uncultured bacterium and M. producens, however, verification of this proposed relationship cannot be done until the "uncultured" bacterium can be cultured.