With an estimated 1.5 million species, Fungi represent one of the largest branches of the Tree of Life. They have an enormous impact on human affairs and ecosystem functioning, owing to their diverse activities as decomposers, pathogens, and mutualistic symbionts. And perhaps more than any other group of nonphotosynthetic organisms, fungi are essential biological components of the global carbon cycle. Collectively, they are capable of degrading almost any naturally occurring biopolymer and numerous human-made ones. As such, fungi hold considerable promise in the development of alternative fuels, carbon sequestration and bioremediation of contaminated ecosystems. The use of fungi for the continued benefit of humankind, however, requires an accurate understanding of how they interact in natural and synthetic communities. The ability to sample environments for complex fungal metagenomes is rapidly becoming a reality and will play an important part in harnessing fungi for industrial, energy and climate management purposes. However, our ability to accurately analyze these data relies on well-characterized, foundational reference data of fungal genomes. To bridge this gap in our understanding of fungal diversity, an international research team in collaboration with the Joint Genome Institute of the Department of Energy has embarked on a five-year project to sequence 1000 fungal genomes from across the Fungal Tree of Life.
How to site the dataset :
To respect the results of the dataset creator and updater, it is recommended to reference the dataset accession ID in the article ：
The dataset that support this study is DATAXXXXXX which was created in CNGBdb（https://db.cngb.org）