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Sulfur-oxidizing symbionts colonize the digestive tract of their Lucinid hosts
The ISME Journal ( IF 10.8 ) Pub Date : 2024-10-10 , DOI: 10.1093/ismejo/wrae200 Cristina M Alcaraz, Joana Séneca, Martin Kunert, Christopher Pree, Marta Sudo, Jillian M Petersen
The ISME Journal ( IF 10.8 ) Pub Date : 2024-10-10 , DOI: 10.1093/ismejo/wrae200 Cristina M Alcaraz, Joana Séneca, Martin Kunert, Christopher Pree, Marta Sudo, Jillian M Petersen
Like many marine invertebrates, marine lucinid clams have an intimate relationship with beneficial sulfur-oxidizing bacteria located within specialized gill cells known as bacteriocytes. Most previous research has focused on the symbionts in the gills of these (and other) symbiotic bivalves, often assuming that the symbionts only persistently colonize the gills, at least in the adult stage. We used 16S rRNA gene sequencing and digital polymerase chain reaction with symbiont-specific primers targeting the soxB gene on the foot, mantle, visceral mass, and gills of the lucinid clam Loripes orbiculatus. We also used fluorescence in situ hybridization with symbiont-specific probes to examine symbiont distribution at the level of the whole holobiont. Despite 40 years of research on these symbioses, we detected previously unknown populations of symbiont cells in several organs, including the digestive tract. As in the well-studied gills, symbionts in the digestive tract may be housed within host cells. A 14-month starvation experiment without hydrogen sulfide to power symbiont metabolism caused a larger reduction in symbiont numbers in the gills compared to the visceral mass, raising the possibility that symbionts in the digestive tract are persistent and may have a distinct physiology and role in the symbiosis compared with the gill symbionts. Our results highlight the unexpectedly complex relationships between marine lucinid clams and their symbionts and challenge the view that chemosynthetic symbionts are restricted to the gills of these hosts.
更新日期:2024-10-10
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