The lichen symbiosis re-viewed through the genomes of Cladonia grayi and its algal partner Asterochloris glomerata.
Daniele ArmaleoOlaf MüllerFrançois LutzoniÓlafur S AndréssonGuillaume BlancHelge B BodeFrank R CollartFrancesco Dal GrandeFred DietrichIgor V GrigorievSuzanne JonesonAlan KuoPeter E LarsenJohn M LogsdonDavid LopezFrancis MartinSusan P MayTami R McDonaldSabeeha S MerchantVivian MiaoEmmanuelle MorinRyoko OonoMatteo PellegriniNimrod RubinsteinMaria Virginia Sanchez-PuertaElizabeth SavelkoulImke SchmittJason C SlotDarren SoanesPéter SzövényiNicholas J TalbotClaire Veneault-FourreyBasil B XavierPublished in: BMC genomics (2019)
The surveyed genes affect stress resistance, signaling, genome reprogramming, nutritional and structural interactions. The alga carries many genes likely transferred horizontally through viruses, yet we found no evidence of inter-symbiont gene transfer. The presence in the photobiont of meiosis-specific genes supports the notion that sexual reproduction occurs in Asterochloris while they are free-living, a phenomenon with implications for the adaptability of lichens and the persistent autonomy of the symbionts. The diversity of the genes affecting the symbiosis suggests that lichens evolved by accretion of many scattered regulatory and structural changes rather than through introduction of a few key innovations. This predicts that paths to lichenization were variable in different phyla, which is consistent with the emerging consensus that ascolichens could have had a few independent origins.