IMA genome‑F17

Brenda D. Wingfield(University of Pretoria), Dave K. Berger(University of Pretoria), Martin P. A. Coetzee(University of Pretoria), Tuan A. Duong(University of Pretoria), Anke Martin(University of Southern Queensland), Nam Q. Pham(University of Pretoria), Noëlani van den Berg(University of Pretoria), P. Markus Wilken(University of Pretoria), Kiruba S. Arun-Chinnappa(University of Southern Queensland), Irene Barnes(University of Pretoria), Sikelela Buthelezi(University of Pretoria), Buddhika A. Dahanayaka(University of Southern Queensland), Álvaro Durán(Advanced Resources International (United States)), Juanita Engelbrecht(University of Pretoria), Alice Feurtey(Kiel University), Arista Fourie(University of Pretoria), Gerda Fourie(University of Pretoria), Jesse Hartley(University of Pretoria), Eugene N. K. Kabwe(University of Pretoria), Mkhululi Maphosa(University of Pretoria), Deborah L. Narh Mensah(Institute for Scientific and Technological Information), David L. Nsibo(University of Pretoria), Lizel Potgieter(Max Planck Institute for Evolutionary Biology), Barsha Poudel(University of Southern Queensland), Eva H. Stukenbrock(Kiel University), Chanel Thomas(University of Pretoria), Niloofar Vaghefi(Agriculture and Food), Tanya Welgemoed(University of Pretoria), Michael J. Wingfield(University of Pretoria)
IMA Fungus
November 21, 2022
10.1186/s43008-022-00104-3
Cited by 27Open Access
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Abstract

example, Recently, the first chromosome-level Armillaria genome assembly became available, revealing genome-wide recombination in the genome of A. ostoyae

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