2022
DOI: 10.1101/2022.08.04.502725
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The hologenome of Osedax frankpressi reveals the genetic interplay for the symbiotic digestion of vertebrate bone

Abstract: The marine annelid Osedax has evolved a unique heterotrophic symbiosis that allows it to feed exclusively on sunken bones. Yet, the genetic and physiological principles sustaining this symbiosis are poorly understood. Here we show that Osedax frankpressi has a small, AT-rich genome shaped by extensive gene loss. While the Oceanospirillales endosymbiont of Osedax is enriched in genes for carbohydrate and nitrogen metabolism, O. frankpressi has undergone genetic changes to accommodate bone digestion, including t… Show more

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“…The vents that Alvinella inhabits are typically several kilometres below the surface, a depth where there is no ambient light source. We did not detect visual opsins in our predicted gene set, consistent with other deep sea annelids [89]. In contrast, the deep sea mussel Bathymodiolus platifrons does encode opsin-like genes [90].…”
Section: Absence Of Light Sensitive Proteinssupporting
confidence: 87%
“…The vents that Alvinella inhabits are typically several kilometres below the surface, a depth where there is no ambient light source. We did not detect visual opsins in our predicted gene set, consistent with other deep sea annelids [89]. In contrast, the deep sea mussel Bathymodiolus platifrons does encode opsin-like genes [90].…”
Section: Absence Of Light Sensitive Proteinssupporting
confidence: 87%