Add to ORKGMetabarcoding is an important tool for understanding fungal communities. The internal transcribed spacer (ITS) rDNA is the accepted fungal barcode but has known problems. The large subunit (LSU) rDNA has also been used to investigate fungal communities but available LSU metabarcoding primers were mostly designed to target Dikarya (Ascomycota + Basidiomycota) with little attention to early diverging fungi (EDF). However, evidence from multiple studies suggests that EDF comprise a large portion of unknown diversity in community sampling. Here, we investigate how DNA marker choice and methodological biases impact recovery of EDF from environmental samples. We focused on one EDF lineage, Zoopagomycota, as an example. We evaluated thre...
The kingdom Fungi is estimated to include 1.5 million or more species, playing key roles as decompos...
The nuclear ribosomal Internal Transcribed Spacer ITS region is widely used as a DNA metabarcoding m...
International audienceFungal communities associated with plants and soil influence plant fitness and...
Rapid development of high-throughput (HTS) molecular identification methods has revolutionized our k...
Fungi form diverse communities and play essential roles in many terrestrial ecosystems, yet there ar...
Metabarcoding has become an important tool in the discovery of biodiversity, including fungi, which ...
Fungi have crucial roles in ecosystems, and are important associates for many organisms. They are ad...
DNA metabarcoding has become a powerful approach for analysing complex communities from environmenta...
International audiencePlant pathogens such as rust fungi (Pucciniales) are of global economic and ec...
Fungi represent one of the most species rich lineages of Life. However, the majority of fungal biodi...
International audienceIn recent years, metabarcoding has become a key tool to describe microbial com...
True fungi (Fungi) and fungus-like organisms (e.g. Mycetozoa, Oomycota) constitute the second larges...
Full taxonomic characterisation of fungal communities is necessary for establishing ecological assoc...
International audienceFungal communities associated with plants and soil influence plant fitness and...
The kingdom Fungi is estimated to include 1.5 million or more species, playing key roles as decompos...
The nuclear ribosomal Internal Transcribed Spacer ITS region is widely used as a DNA metabarcoding m...
International audienceFungal communities associated with plants and soil influence plant fitness and...
Rapid development of high-throughput (HTS) molecular identification methods has revolutionized our k...
Fungi form diverse communities and play essential roles in many terrestrial ecosystems, yet there ar...
Metabarcoding has become an important tool in the discovery of biodiversity, including fungi, which ...
Fungi have crucial roles in ecosystems, and are important associates for many organisms. They are ad...
DNA metabarcoding has become a powerful approach for analysing complex communities from environmenta...
International audiencePlant pathogens such as rust fungi (Pucciniales) are of global economic and ec...
Fungi represent one of the most species rich lineages of Life. However, the majority of fungal biodi...
International audienceIn recent years, metabarcoding has become a key tool to describe microbial com...
True fungi (Fungi) and fungus-like organisms (e.g. Mycetozoa, Oomycota) constitute the second larges...
Full taxonomic characterisation of fungal communities is necessary for establishing ecological assoc...
International audienceFungal communities associated with plants and soil influence plant fitness and...
The kingdom Fungi is estimated to include 1.5 million or more species, playing key roles as decompos...
The nuclear ribosomal Internal Transcribed Spacer ITS region is widely used as a DNA metabarcoding m...
International audienceFungal communities associated with plants and soil influence plant fitness and...