Robes, Jose Miguel D.Altamia, Marvin A.Murdock, Ethan G.Concepcion, GiselaHaygood, Margo G.Puri, Aaron W.2025-06-152022-06-14Robes, J. M. D., Altamia, M. A., Murdock, E. G., Concepcion, G. P., Haygood, M. G., & Puri, A. W. (2022). A conserved biosynthetic gene cluster is regulated by quorum sensing in a shipworm symbiont. <i>Applied and Environmental Microbiology</i>, <i>88</i>(11), Article e00270-22.0099-22401098-533610.1128/aem.00270-22https://hdl.handle.net/20.500.14697/573Bacterial symbionts often provide critical functions for their hosts. For example, wood-boring bivalves called shipworms rely on cellulolytic endosymbionts for wood digestion. However, how the relationship between shipworms and their bacterial symbionts is formed and maintained remains unknown. Quorum sensing (QS) often plays an important role in regulating symbiotic relationships. We identified and characterized a QS system found in <i>Teredinibacter</i> sp. strain 2052S, a gill isolate of the wood-boring shipworm <i>Bactronophorus</i> cf. <i>thoracites</i>. We determined that 2052S produces the signal N-decanoyl-l-homoserine lactone (C₁₀-HSL) and that this signal controls the activation of a biosynthetic gene cluster colocated in the symbiont genome that is conserved among all symbiotic <i>Teredinibacter</i> isolates. We subsequently identified extracellular metabolites associated with the QS regulon, including ones linked to the conserved biosynthetic gene cluster, using mass spectrometry-based molecular networking. Our results demonstrate that QS plays an important role in regulating secondary metabolism in this shipworm symbiont. This information provides a step toward deciphering the molecular details of the relationship between these symbionts and their hosts. Furthermore, because shipworm symbionts harbor vast yet underexplored biosynthetic potential, understanding how their secondary metabolism is regulated may aid future drug discovery efforts using these organisms.enShipwormsTranscriptionPlasmidsRNAArticleSDG 3 - Good health and well-beingSDG 9 - Industry, innovation and infrastructureSDG 14 - Life below watershipwormsquorum sensingdigestionwoodsymbiontscellulolytic microorganismstranscriptionmetabolomeplasmidsstrainsgenetic engineeringisolationcharacterizationRNAChallenge 2: Protect and restore ecosystems and biodiversityChallenge 4: Develop a sustainable and equitable ocean economyChallenge 9: Skills, knowledge, and technology for all