Lin, L.; Zhang, Y.; Ren, F.; Ge, S.; Hao, Y.; Zhai, Z.; Zhang, M.; Li, S.; Zhao, L.; Sun, E.
Comparative Genomics Analysis Combined with Homologous Overexpression Reveals the Mechanism of Species-Specific Acid Stress Resistance in Bifidobacterium animalis. Foods 2025, 14, 4243.
https://doi.org/10.3390/foods14244243
AMA Style
Lin L, Zhang Y, Ren F, Ge S, Hao Y, Zhai Z, Zhang M, Li S, Zhao L, Sun E.
Comparative Genomics Analysis Combined with Homologous Overexpression Reveals the Mechanism of Species-Specific Acid Stress Resistance in Bifidobacterium animalis. Foods. 2025; 14(24):4243.
https://doi.org/10.3390/foods14244243
Chicago/Turabian Style
Lin, Li, Yanyu Zhang, Fazheng Ren, Shaoyang Ge, Yanling Hao, Zhengyuan Zhai, Ming Zhang, Shusen Li, Liang Zhao, and Erna Sun.
2025. "Comparative Genomics Analysis Combined with Homologous Overexpression Reveals the Mechanism of Species-Specific Acid Stress Resistance in Bifidobacterium animalis" Foods 14, no. 24: 4243.
https://doi.org/10.3390/foods14244243
APA Style
Lin, L., Zhang, Y., Ren, F., Ge, S., Hao, Y., Zhai, Z., Zhang, M., Li, S., Zhao, L., & Sun, E.
(2025). Comparative Genomics Analysis Combined with Homologous Overexpression Reveals the Mechanism of Species-Specific Acid Stress Resistance in Bifidobacterium animalis. Foods, 14(24), 4243.
https://doi.org/10.3390/foods14244243
