Search results for "Russulaceae"

showing 4 items of 4 documents

Molecular evidence supports simultaneous association of the achlorophyllous orchid Chamaegastrodia inverta with ectomycorrhizal Ceratobasidiaceae and…

2020

Abstract Background Achlorophyllous orchids are mycoheterotrophic plants, which lack photosynthetic ability and associate with fungi to acquire carbon from different environmental sources. In tropical latitudes, achlorophyllous forest orchids show a preference to establish mycorrhizal relationships with saprotrophic fungi. However, a few of them have been recently found to associate with ectomycorrhizal fungi and there is still much to be learned about the identity of fungi associated with tropical orchids. The present study focused on mycorrhizal diversity in the achlorophyllous orchid C. inverta, an endangered species, which is endemic to southern China. The aim of this work was to identi…

0106 biological sciencesMicrobiology (medical)ChinaAchlorophyllous orchidslcsh:QR1-502HyphaeCeratobasidiaceaePlant-fungus interactions01 natural sciencesMicrobiologyPlant Rootslcsh:Microbiology03 medical and health sciencesOrchid mycorrhizaSymbiosisAscomycotaMycologyOrchid mycorrhizaMycorrhizaeBotanyEctomycorrhizal fungiRussulaDNA FungalOrchidaceaeSymbiosisMyceliumPhylogeny030304 developmental biology0303 health sciencesbiologySettore BIO/02 - Botanica SistematicaBasidiomycotaEndangered SpeciesCeratobasidiaceaeChaetomiumbiology.organism_classificationRussulaMycoheterotrophySeedlingsAchlorophyllous orchids Ceratobasidiaceae Ectomycorrhizal fungi Endangered species Orchid mycorrhiza Plant-fungus interactions Mycoheterotrophy RussulaSettore BIO/03 - Botanica Ambientale E ApplicataRussulaceae010606 plant biology & botanyResearch ArticleBMC Microbiology
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Pioneer trees of Betula pendula at a red gypsum landfill harbour specific structure and composition of root-associated microbial communities.

2020

The study of root-associated microbial communities is important to understand the natural processes involved in plant recolonisation at degraded areas. Root associated bacterial and fungal communities of woody species colonising a red gypsum landfill (a metal-enriched environment) were characterised through metabarcoding. Among trees naturally growing on the landfill, Betula pendula is the only tree species in the centre of the area, whereas companion tree species such as Populus nigra, P. tremula and Salix purpurea were present on the edges. The bacterial community was dominated by Proteobacteria (38%), Actinobacteria (35%) and Bacteroidetes (20%) and the most abundant bacterial OTU belong…

Environmental Engineering010504 meteorology & atmospheric sciences010501 environmental sciences01 natural sciencesCalcium SulfateActinobacteriaTreesBotanyEnvironmental ChemistryRevegetationWaste Management and DisposalComputingMilieux_MISCELLANEOUSBetula0105 earth and related environmental sciences[SDV.EE]Life Sciences [q-bio]/Ecology environmentbiologyMicrobiotaBacteroidetes15. Life on landSalix purpureabiology.organism_classificationPollutionWaste Disposal Facilities13. Climate actionBetula pendulaPyronemataceaeRussulaceaeProteobacteriaThe Science of the total environment
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Evolutionary transition to the ectomycorrhizal habit in the genomes of a hyperdiverse lineage of mushroom‐forming fungi

2022

International audience; Summary The ectomycorrhizal (ECM) symbiosis has independently evolved from diverse types of saprotrophic ancestors. In this study, we seek to identify genomic signatures of the transition to the ECM habit within the hyper-diverse Russulaceae. We present comparative analyses of the genomic architecture and the total and secreted gene repertoires of 18 species across the order Russulales of which 13 are newly sequenced, including a representative of a saprotrophic member of Russulaceae, Gloeopeniophorella convolvens. The genomes of ECM Russulaceae are characterized by a loss of genes for plant cell-wall degrading enzymes (PCWDEs), an expansion of genome size through in…

Transposable elementPhysiology[SDV]Life Sciences [q-bio]Lineage (evolution)russulaceaePlant SciencerussulalesGenomeEvolution MolecularHabitsMycorrhizaeevolutionary transitionSymbiosisSecondary metabolismGeneGenome sizeComputingMilieux_MISCELLANEOUSPhylogenybiology[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]syntenybiology.organism_classificationEvolutionary biologyDNA Transposable Elementssecondary metabolism clusterRussulaceaetransposable elementsAgaricalesectomycorrhizal habitRussulalesNew Phytologist
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Evolutionary priming and transition to the ectomycorrhizal habit in an iconic lineage of mushroom-forming fungi: is preadaptation a requirement?

2021

AbstractThe ectomycorrhizal symbiosis is an essential guild of many forested ecosystems and has a dynamic evolutionary history across kingdom Fungi, having independently evolved from diverse types of saprotrophic ancestors. In this study, we seek to identify genomic features of the transition to the ectomycorrhizal habit within the Russulaceae, one of the most diverse lineages of ectomycorrhizal fungi. We present comparative analyses of the pangenome and gene repertoires of 21 species across the order Russulales, including a closely related saprotrophic member of Russulaceae. The ectomycorrhizal Russulaceae is inferred to have originated around the Cretaceous-Paleogene extinction event (73.…

food.ingredientfoodSymbiosisbiologyEvolutionary biologyLineage (evolution)Russulaceaebiology.organism_classificationGloeopeniophorellaGenome sizeGenomeRussulalesSynteny
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