Jayakodi, M, Golicz, A A, Kreplak, J, Fechete, L I, Angra, D, Bednář, P, Bornhofen, E, Zhang, H, Boussageon, R, Kaur, S, Cheung, K, Čížková, J, Gundlach, H, Hallab, A, Imbert, B, Keeble-Gagnère, G, Koblížková, A, Kobrlová, L, Krejčí, P, Mouritzen, T W, Neumann, P, Nadzieja, M, Nielsen, L K, Novák, P, Orabi, J, Padmarasu, S, Robertson-Shersby-Harvie, T, Robledillo, L Á, Schiemann, A, Tanskanen, J, Törönen, P, Warsame, A O, Wittenberg, A H J, Himmelbach, A, Aubert, G, Courty, P-E, Doležel, J, Holm, L U, Janss, L L, Khazaei, H, Macas, J, Mascher, M, Smýkal, P, Snowdon, R J, Stein, N, Stoddard, F L, Stougaard, J, Tayeh, N, Torres, A M, Usadel, B, Schubert, I, O'Sullivan, D M, Schulman, A H & Andersen, S U 2023, ' The giant diploid faba genome unlocks variation in a global protein crop ', Nature, vol. 615, no. 7953, pp. 652-659 . https://doi.org/10.1038/s41586-023-05791-5 Nature 615(7953), 652-659 (2023). doi:10.1038/s41586-023-05791-5 Natureevents directory, 615(7953):652-659