S. Chen Et Al. , "Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.," The Journal of nutritional biochemistry , vol.135, pp.109786, 2025
Chen, S. Et Al. 2025. Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.. The Journal of nutritional biochemistry , vol.135 , 109786.
Chen, S., Niu, X., Zhang, Y., Wen, J., Bao, M., Li, Y., ... Gao, Y.(2025). Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.. The Journal of nutritional biochemistry , vol.135, 109786.
Chen, Shengwei Et Al. "Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.," The Journal of nutritional biochemistry , vol.135, 109786, 2025
Chen, Shengwei Et Al. "Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.." The Journal of nutritional biochemistry , vol.135, pp.109786, 2025
Chen, S. Et Al. (2025) . "Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.." The Journal of nutritional biochemistry , vol.135, p.109786.
@article{article, author={Shengwei Chen Et Al. }, title={Butyrolactone-I from marine fungi alleviates intestinal barrier damage caused by DSS through regulating lactobacillus johnsonii and its metabolites in the intestine of mice.}, journal={The Journal of nutritional biochemistry}, year=2025, pages={109786} }