Régime xylophage et microflore digestive d'une galathée associée aux bois coulés profonds du Pacifique

Wood falls in the deep sea have recently become the focus of studies showing their importance as nutrients on the deep-sea Xoor. In such environments, Crustaceans constitute numerically the second-largest group after Mollusks. Many questions have arisen regarding their trophic role therein. A careful examination of the feeding appendages, gut contents, and gut lining of Munidopsis andamanica caught with wood falls revealed this species as a truly original detritivorous species using wood and the biofilm covering it as two main food sources. Comparing individuals from other geographic areas from substrates not reported highlights the galatheid crab as specialist of refractory substrates, especially vegetal remains. M. andamanica also exhibits a resident gut microXora consisting of bacteria and fungi possibly involved in the digestion of wood fragments. The results suggest that Crustaceans could be full-fledged actors in the food chains of sunken-wood ecosystems and that feeding habits of some squat lobsters could be different than scavenging.GDRE-DIWOOD research program (“Diversity, Establishment, and Function of Organisms Associated with Marine Wood Falls”

Exploring the bioactive landscape of the gut microbiota to identify metabolites underpinning human health

The healthy human gut is colonised by a diverse microbial community (gut microbiota) that provides a variety of ecological and metabolic functions relevant to host health and well-being. Our early understanding and appreciation of the functional capacity of the microbiota was primarily informed by culture-dependent analyses. However, it is now known that the vast majority of gut microbes are resistant to cultivation and remain unrepresented by cultured isolates. Consequently, much of our current awareness of the true biological potential inherent to these communities has been provided by culture-independent (meta)genomic approaches which have revealed that the genetic potential of the gut microbiota is as much as 150 times greater than that of the human genome itself. Despite these advances it is now increasingly accepted that efforts to dissect the functionalities encoded in the human microbiome have not kept pace with DNA sequencing based technologies. For instance, the microbiome encodes a plethora of bioactive peptides and metabolites that affect host health, however, the function(s), mechanism(s) of action and the genetic and regulatory networks underpinning these bioactives remain largely cryptic. Here, we explore the NF-?B suppressive bioactive landscape of the gut microbiota-in particular, we provide an overview of our current understanding of the gut microbiota and propose the integration of new culture-dependent approaches with improved screening, metabolomic and genetic strategies offers new opportunities to identify novel bioactives, and elucidate the relationship between the gut microbiota associated metabolome and host health