Identification and whole genome sequencing analysis of Bacillus subtilis K35-1, a highly efficient cellulose in forage degrading bacterium
文献类型: 外文期刊
作者: Wu, Dan 1 ; Feng, Jing 1 ; Wen, Dongxu 1 ; Wang, Hongzhuang 1 ; Lu, Sijia 3 ; Li, Kun 3 ; Sultan, Rizwana 4 ; Li, Bin 1 ;
作者机构: 1.Tibet Acad Agr & Anim Husb Sci, State Key Lab Hulless Barley & Yak Germplasm, Lhasa 850009, Peoples R China
2.Tibet Acad Agr & Anim Husb Sci, Inst Anim Husb & Vet Med, Lhasa 850009, Peoples R China
3.Nanjing Agr Univ, Coll Vet Med, Nanjing 210095, Peoples R China
4.Cholistan Univ Vet & Anim Sci CUVAS, Fac Vet Sci, Dept Pathol, Bahawalpur, Pakistan
关键词:
期刊名称:BMC MICROBIOLOGY ( 影响因子:4.2; 五年影响因子:4.8 )
ISSN: 1471-2180
年卷期: 2025 年 25 卷 1 期
页码:
收录情况: SCI
摘要: This study reports the isolation and characterization of Bacillus subtilis K35-1, a novel cellulolytic strain with exceptional forage degradation capabilities. From eight B. subtilis isolates obtained from yak rumen fluid through Congo red screening (hydrolysis capacity = 2.61 +/- 0.23), K35-1 demonstrated superior enzymatic performance, achieving peak cellulase (77.26 U/mL) and hemicellulase (222.85 nmol/min/mL) activities at 36 h of fermentation. The whole genome sequencing revealed a 4.06 Mb circular chromosome (GC content 43.83%) encoding 3,980 protein-coding sequences. Comprehensive CAZy annotation identified 703 carbohydrate-active enzymes, including: 87 cellulases spanning 7 GH families (GH5, GH6, GH9, GH12, GH44, GH45, GH48) and 34 hemicellulases from 4 GH families (GH10, GH11, GH26, GH30). Comparative genomic analysis showed K35-1 possesses 40% more glycoside hydrolases than reference strains (Srivastava et al., Mol Genet Genomics 298:361-74, 2023), explaining its enhanced degradation efficiency (53.2% cellulose reduction vs. 7.3% in conventional treatments). Functional annotation revealed: 275 carbohydrate metabolism genes (KEGG), 228 cell wall/membrane biogenesis genes (COG) and 53.91% reduced-virulence mutations (PHI database). The strain's robust enzymatic profile, coupled with minimal antibiotic resistance (11 genes, including ermB), positions K35-1 as both an efficient forage degrader and safe probiotic candidate. These findings provide a genomic foundation for developing novel feed additives to improve livestock nutrition.
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