Jiang Y-L, Bao W-J, Liu F, Wang G-S, Yurkov A M, Ma Q, Hu Z-D, Chen X-H, Zhao W-N, Li A-H, Wang Q-M
School of Life Sciences, Institute of Life Sciences and Green Development, Hebei University, Baoding 071002, Hebei, China.
Aquatic Science Institute, Tibet Academy of Agriculture and Animal Husbandry Science, Lhasa 850000, Tibet, China.
Stud Mycol. 2024 Dec;109:57-153. doi: 10.3114/sim.2024.109.02. Epub 2024 Jun 27.
More than 2 000 yeast strains isolated from 1 200 samples mostly collected from Tibet and Yunnan provinces in China were identified as 462 species according to the internal transcribed spacer including the 5.8S rDNA (ITS) and the D1/D2 domains of the large subunit rDNA (LSU) sequence analyses. Among them, 70 new basidiomycetous yeast species were proposed based on the multi-locus phylogenetic analyses including the D1/D2 domains, the ITS, the small subunit rDNA (SSU), the largest subunit of RNA polymerase II (), the second largest subunit of RNA polymerase II () and translation elongation factor 1-α (), as well as the phenotypic comparisons. The average nucleotide identity (ANI) analysis with the genomic metric was also used in the evaluation of the species delimitation for the genera , and that contain closely related species with low sequence heterogeneity in both ITS and D1/D2 regions. Forty-six new species belonged to 16 genera in the , 13 new species occurred in 12 genera in the , three new species were distributed in three genera in the and eight new species were classified in seven newly established genera. One new family was also proposed based on one of these new genera. The analyses revealed several inaccurate species names attributed to genomes deposited in GenBank, indicating the necessity of a more rigorous quality checks of the genomes deposited in the public databases. Q.-M. Wang; Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang; Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M.Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang, Q.-M. Wang. Jiang Y-L, Bao W-J, Liu F, Wang G-S, Yurkov AM, Ma Q, Hu Z-D, Chen X-H, Zhao W-N, Li A-H, Wang Q-M (2024). Proposal of one new family, seven new genera and seventy new basidiomycetous yeast species mostly isolated from Tibet and Yunnan provinces, China. : 57-153. doi: 10.3114/sim.2024.109.02.
根据包括5.8S核糖体DNA(ITS)的内转录间隔区和大亚基核糖体DNA(LSU)序列分析的D1/D2结构域,从主要采集于中国西藏和云南省的1200份样本中分离出的2000多株酵母菌株被鉴定为462个物种。其中,基于包括D1/D2结构域、ITS、小亚基核糖体DNA(SSU)、RNA聚合酶II的最大亚基()、RNA聚合酶II的第二大亚基()和翻译延伸因子1-α()的多位点系统发育分析以及表型比较,提出了70个新的担子菌酵母物种。基因组指标的平均核苷酸同一性(ANI)分析也用于评估属、和中物种划分,这些属包含在ITS和D1/D2区域中具有低序列异质性的密切相关物种。46个新物种属于中的16个属,13个新物种出现在中的12个属,3个新物种分布在中的3个属,8个新物种归类于7个新建立的属。还基于这些新属之一提出了一个新科。分析揭示了一些归因于GenBank中存档基因组的不准确物种名称,表明有必要对公共数据库中存档的基因组进行更严格的质量检查。 王QM; 王QM,王QM,王QM,王QM,王QM,王QM,王QM; 王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM,王QM
蒋YL,鲍WJ,刘F,王GS,尤尔科夫AM,马Q,胡ZD,陈XH,赵WN,李AH,王QM(2024)。一个新科、七个新属和70个新担子菌酵母物种的提议,这些物种大多从中国西藏和云南省分离得到。 :57 - 153。doi: 10.3114/sim.2024.109.02。
