- Oct 01, 2024
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Xingan Zhao authored
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Xingan Zhao authored
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Kang Wang authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Kang Wang authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Kang Wang authored
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Xingan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
修改了主页的From both environmental and human health protection perspectives, the design of the safety module aims to detect environmental variations inside and outside the human body, such as temperature and oxygen concentration, to induce bacterial death. This ensures that the bacteria do not cause environmental pollution after being expelled.文本
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Pan Zhao authored
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Pan Zhao authored
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Wan LI authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Pan Zhao authored
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Wu Zhiling authored
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Pan Zhao authored
修改了主页的In the end, the safety module we designed can effectively prevent and treat abdominal infection in patients with liver disease, solve intestinal flora disorders, support intestinal barrier function repair and alleviate complications of hepatic encephalopathy.文本
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Pan Zhao authored
修改了主页的Insights from discussions with the Peking University Medical School team have inspired our approach to utilizing curli fibers.And we referred to a study published in Nature Communications And the PATCH system was used for plasmid design. 文本
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Pan Zhao authored
修改了主页的Additionally, we recognize that abdominal infections are a significant cause of recurrent hepatic encephalopathy and can lead to death[1][2]. In response, we aim to develop an engineered bacterium capable of resisting inflammation and repairing the intestinal barrier. 文本
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