There are 6 pages with 52 entries

Results
 Family  Genus  Specific epithet  Ploidy level  Chromosome number  Bs range  Complete citation reference
Phaeosphaeriaceae Parastagonospora nodorum 1,00 22 1 Richards, J. K., Stukenbrock, E. H., Carpenter, J., Liu, Z., Cowger, C., Faris, J. D., & Friesen, T. L. (2019). Local adaptation drives the diversification of effectors in the fungal wheat pathogen Parastagonospora nodorum in the United States. PLoS genet
Pleosporaceae Cochliobolus carbonum NA Bs Luo, C.-X., Yin, L.-F., Ohtaka, K., & Kusaba, M. (2007). The 1.6 Mb chromosome carrying the avirulence gene AvrPik in Magnaporthe oryzae isolate 84R-62B is a chimera containing chromosome 1 sequences. Mycological Research, 111<
Pleosporaceae Alternaria alternata NA Bs Luo, C.-X., Yin, L.-F., Ohtaka, K., & Kusaba, M. (2007). The 1.6 Mb chromosome carrying the avirulence gene AvrPik in Magnaporthe oryzae isolate 84R-62B is a chimera containing chromosome 1 sequences. Mycological Research, 111<
Pleosporaceae Cochliobolus heterostrophus NA 1 Tzeng, T. H., Lyngholm, L. K., Ford, C. F., & Bronson, C. R. (1992). A restriction fragment length polymorphism map and electrophoretic karyotype of the fungal maize pathogen Cochliobolus heterostrophus. Genetics, 130(1), 81–96.
Pleosporaceae Alternaria alternata NA 2 Wang, M., Fu, H., Shen, X. X., Ruan, R., Rokas, A., & Li, H. (2019). Genomic features and evolution of the conditionally dispensable chromosome in the tangerine pathotype of Alternaria alternata. Molecular plant pathology, 20(10), 1425-1438.
Pleosporaceae Alternaria alternata NA Bs Tsuge, T., Harimoto, Y., Akimitsu, K., Ohtani, K., Kodama, M., Akagi, Y., … Otani, H. (2013). Host-selective toxins produced by the plant pathogenic fungus Alternaria alternata. FEMS Microbiology Reviews, 37(1), 44–66.
Pleosporaceae Cochliobolus carbonum NA 1 Covert, S. F. (1998). Supernumerary chromosomes in filamentous fungi. Current Genetics, 33(5), 311–319
Pleosporaceae Cochliobolus heterostrophus NA 1 Covert, S. F. (1998). Supernumerary chromosomes in filamentous fungi. Current Genetics, 33(5), 311–319
Saccharomycetaceae Candida albicans 2,00 NA 1-3 Hirakawa, M. P., Chyou, D. E., Huang, D., Slan, A. R., & Bennett, R. J. (2017). Parasex generates phenotypic diversity de novo and impacts drug resistance and virulence in Candida albicans. Genetics, 207(3), 1195-1211.
Saccharomycetaceae Saccharomyces cerevisiae x paradoxus 32 Bs Boynton, P. J., Janzen, T., & Greig, D. (2018). Modeling the contributions of chromosome segregation errors and aneuploidy to Saccharomyces hybrid sterility. Yeast, 35(1), 85-98.

B-chrom database 2017