Complex microbiome underlying secondary and primary metabolism in the tunicate-
            <i>Prochloron</i>
            symbiosis

Donia, Mohamed S.; Fricke, W. Florian; Partensky, Frédéric; Cox, James E.; Elshahawi, Sherif I.; White, James R.; Phillippy, Adam M.; Schatz, Michael C.; Piel, Joern; Haygood, Margo G.; Ravel, Jacques; Schmidt, Eric W.

doi:10.1073/pnas.1111712108

Cited by 132 publications

(184 citation statements)

References 81 publications

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“…Beyond defense, symbiotic metabolites in ascidians are also known to have other roles. For example, mycosporine amino acids are critical to the defense of tropical ascidians against ultraviolet irradiation, but they are produced by symbiotic bacteria Donia et al, 2011a). Thus, symbiotic bacteria contribute critical secondary metabolites that are apparently necessary for the survival of the animals.…”

Section: Introductionmentioning

confidence: 99%

“…symbiotic bacteria produce a variety of toxic, cyclic peptides known as cyanobactins (Donia et al, 2008), as well as ultraviolet-protectant mycosporine amino acids (Donia et al, 2011a). Prochloron seems to be obligate for the host animals, yet horizontal transmission dominates for this group (Hirose and Fukuda, 2006;Hirose et al, 2009;Kojima and Hirose, 2010).…”

Section: Introductionmentioning

confidence: 99%

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Species specificity of symbiosis and secondary metabolism in ascidians

et al. 2014

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Ascidians contain abundant, diverse secondary metabolites, which are thought to serve a defensive role and which have been applied to drug discovery. It is known that bacteria in symbiosis with ascidians produce several of these metabolites, but very little is known about factors governing these 'chemical symbioses'. To examine this phenomenon across a wide geographical and species scale, we performed bacterial and chemical analyses of 32 different ascidians, mostly from the didemnid family from Florida, Southern California and a broad expanse of the tropical Pacific Ocean. Bacterial diversity analysis showed that ascidian microbiomes are highly diverse, and this diversity does not correlate with geographical location or latitude. Within a subset of species, ascidian microbiomes are also stable over time (R ¼ À 0.037, P-value ¼ 0.499). Ascidian microbiomes and metabolomes contain species-specific and location-specific components. Location-specific bacteria are found in low abundance in the ascidians and mostly represent strains that are widespread. Location-specific metabolites consist largely of lipids, which may reflect differences in water temperature. By contrast, species-specific bacteria are mostly abundant sequenced components of the microbiomes and include secondary metabolite producers as major components. Species-specific chemicals are dominated by secondary metabolites. Together with previous analyses that focused on single ascidian species or symbiont type, these results reveal fundamental properties of secondary metabolic symbiosis. Different ascidian species have established associations with many different bacterial symbionts, including those known to produce toxic chemicals. This implies a strong selection for this property and the independent origin of secondary metabolite-based associations in different ascidian species. The analysis here streamlines the connection of secondary metabolite to producing bacterium, enabling further biological and biotechnological studies.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Species specificity of symbiosis and secondary metabolism in ascidians

et al. 2014

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“…Like other tunicates, L. patella is a rich source of potentially bioactive drugs and drug leads (11), which in a few cases are known to be produced by symbiotic bacteria (7,8). Beyond the major symbiont, the cyanobacterium Prochloron didemni, L. patella harbors a complex microbiome (12). Some L. patella samples contain highly potent cytotoxic polyketides, patellazoles (13-15) (IC 50 332 pM, KB cells; Fig.…”

mentioning

confidence: 99%

Genome streamlining and chemical defense in a coral reef symbiosis

Kwan

Donia

Han

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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139

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Secondary metabolites are ubiquitous in bacteria, but by definition, they are thought to be nonessential. Highly toxic secondary metabolites such as patellazoles have been isolated from marine tunicates, where their exceptional potency and abundance implies a role in chemical defense, but their biological source is unknown. Here, we describe the association of the tunicate Lissoclinum patella with a symbiotic α-proteobacterium, Candidatus Endolissoclinum faulkneri, and present chemical and biological evidence that the bacterium synthesizes patellazoles. We sequenced and assembled the complete Ca. E. faulkneri genome, directly from metagenomic DNA obtained from the tunicate, where it accounted for 0.6% of sequence data. We show that the large patellazoles biosynthetic pathway is maintained, whereas the remainder of the genome is undergoing extensive streamlining to eliminate unneeded genes. The preservation of this pathway in streamlined bacteria demonstrates that secondary metabolism is an essential component of the symbiotic interaction.ascidian | trans-acyltransferase | natural products | polyketide | biosynthesis

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“…To find the patellazole biosynthetic gene cluster from uncultured bacteria, the whole genome of the host and symbiont were sequenced. 17 Engineering the patellin biosynthetic pathway in E. coli to produce novel peptide molecules was also discussed. 18 Dr Toshiyuki Wakimoto (University of Tokyo) described identification of the calyculin biosynthetic gene cluster from the marine sponge Discodermia calyx.…”

Section: Nonribosomal Peptide Synthetase (Nrps) Ribosomal Peptide Symentioning

confidence: 99%

The International Conference of Natural Product Biosynthesis (ICNPB, 8th US–Japan seminar on the Biosynthesis of Natural Products)

Awakawa

2012

J Antibiot

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Hideaki Oikawa (Hokkaido University) and the organizing committee, which covered many important topics on biosynthesis of bioactive natural products. Ninety-two participants attended the conference composed of nine sessions. The major topics of this meeting were analyses of biosynthetic routes or enzymes to produce secondary metabolites in microbes and plants, and redesign of the metabolites by engineering the biosynthetic routes or enzymes. This report will briefly summarize some presentations that were given at the conference.

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Complex microbiome underlying secondary and primary metabolism in the tunicate- Prochloron symbiosis

Cited by 132 publications

References 81 publications

Species specificity of symbiosis and secondary metabolism in ascidians

Species specificity of symbiosis and secondary metabolism in ascidians

Genome streamlining and chemical defense in a coral reef symbiosis

The International Conference of Natural Product Biosynthesis (ICNPB, 8th US–Japan seminar on the Biosynthesis of Natural Products)

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