Diverse Cone-Snail species harbor closely related Streptomyces species with conserved chemical and genetic profiles, including polycyclic tetramic acid macrolactams

Quezada, Michelle; Licona-Cassani, Cuauhtemoc; Cruz-Morales, Pablo; Salim, Angela A.; Marcellin, Esteban; Capon, Robert J.; Barona-Gomez, Francisco

Title: Diverse Cone-Snail species harbor closely related Streptomyces species with conserved chemical and genetic profiles, including polycyclic tetramic acid macrolactams
Creator: Quezada, Michelle; Licona-Cassani, Cuauhtemoc; Cruz-Morales, Pablo; Salim, Angela A.; Marcellin, Esteban; Capon, Robert J.; Barona-Gomez, Francisco
Relation: ARC
Relation: Frontiers Research Foundation Vol. 8, Issue November 2017, no. 2305
Publisher Link: http://dx.doi.org/10.3389/fmicb.2017.02305
Publisher: Frontiers in Microbiology
Resource Type: journal article
Date: 2017
Description: Streptomyces are Gram-positive bacteria that occupy diverse ecological niches including host-associations with animals and plants. Members of this genus are known for their overwhelming repertoire of natural products, which has been exploited for almost a century as a source of medicines and agrochemicals. Notwithstanding intense scientific and commercial interest in Streptomyces natural products, surprisingly little is known of the intra- and/or inter-species ecological roles played by these metabolites. In this report we describe the chemical structures, biological properties, and biosynthetic relationships between natural products produced by Streptomyces isolated from internal tissues of predatory Conus snails, collected from the Great Barrier Reef, Australia. Using chromatographic, spectroscopic and bioassays methodology, we demonstrate that Streptomyces isolated from five different Conus species produce identical chemical and antifungal profiles – comprising a suite of polycyclic tetramic acid macrolactams (PTMs). To investigate possible ecological (and evolutionary) relationships we used genome analyses to reveal a close taxonomic relationship with other sponge-derived and free-living PTM producing Streptomyces (i.e., Streptomyces albus). In-depth phylogenomic analysis of PTM biosynthetic gene clusters indicated PTM structure diversity was governed by a small repertoire of genetic elements, including discrete gene acquisition events involving dehydrogenases. Overall, our study shows a Streptomyces-Conus ecological relationship that is concomitant with specific PTM chemical profiles. We provide an evolutionary framework to explain this relationship, driven by anti-fungal properties that protect Conus snails from fungal pathogens.
Subject: Streptomyces; cone snails; natural product; phylogenomics; polycyclic tetramic acid macrolactams (PTMs)
Identifier: http://hdl.handle.net/1959.13/1383818
Identifier: uon:31985
Identifier: ISSN:1664-302X
Rights: Copyright © 2017 Quezada, Licona-Cassani, Cruz-Morales, Salim,Marcellin, Capon and Barona-Gómez. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
Language: eng
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