Dokumentdetails
ID
doi:10.1186/s43008-024-00141-0...
Autor
Sørensen, Trine Petersen, Celine Muurmann, Asmus T. Christiansen, Johan V. Brundtø, Mathias L. Overgaard, Christina K. Boysen, Anders T. Wollenberg, Rasmus D. Larsen, Thomas O. Sørensen, Jens L. Nielsen, Kåre L. Sondergaard, Teis E.Langue
enEditor
BioMed Central
Kategorie
Mycology
Jahr
2024
Auflistungsdatum
10.04.2024
Schlüsselwörter
oxford nanopore sequencing ... ... cazymes secondary metabolites fungus apiosporaZusammenfassung
The Apiospora genus comprises filamentous fungi with promising potential, though its full capabilities remain undiscovered.
In this study, we present the first genome assembly of an Apiospora arundinis isolate, demonstrating a highly complete and contiguous assembly estimated to 48.8 Mb, with an N99 of 3.0 Mb.
Our analysis predicted a total of 15,725 genes, with functional annotations for 13,619 of them, revealing a fungus capable of producing very high amounts of carbohydrate-active enzymes (CAZymes) and secondary metabolites.
Through transcriptomic analysis, we observed differential gene expression in response to varying growth media, with several genes related to carbohydrate metabolism showing significant upregulation when the fungus was cultivated on a hay-based medium.
Finally, our metabolomic analysis unveiled a fungus capable of producing a diverse array of metabolites.
Sørensen, Trine,Petersen, Celine,Muurmann, Asmus T.,Christiansen, Johan V.,Brundtø, Mathias L.,Overgaard, Christina K.,Boysen, Anders T.,Wollenberg, Rasmus D.,Larsen, Thomas O.,Sørensen, Jens L.,Nielsen, Kåre L.,Sondergaard, Teis E., 2024, Apiospora arundinis, a panoply of carbohydrate-active enzymes and secondary metabolites, BioMed Central
