The multifunctional metal-organic framework (MOF) materials with core-shell structure and sulfur-doping characteristics were designed for highly efficient adsorption and synergistic degradation of antibacterial drugs. This results were published in the Chemical Engineering Journal as “S-doped core-shell heterojunction fenton catalyst (Fe3O4-S@PVP@UIO-66-(SH)2) for enhanced activation of hydrox...

Recently, our college scholars cleverly designed a precision nanosystems with a synergistic effect of cascaded photodynamic therapy and nutritional immunotherapy, which effectively resists biofilm infections via a new antibacterial mechanism. The relevant achievements were published in Science advances under the title of "Targeting and Arginine driven Synergizing Photodynamic Therapy with Nutri...

Recently, Prof. Peng Guiqing's team, in collaboration with Prof. Xie Shengsong, identified mLST8, as a key host factor required for coronavirus replication. The research results were published in the international microbiology journal mBio entitled “mLST8 is essential for coronavirus replication and regulates its replication through the mTORC1 pathwayCoronaviruses can “use” and “hijack” ho...

Recently, a paper entitled “Gut microbiota-derived 3-phenylpropionic acid promotes intestinal epithelial barrier function via AhR signaling” has been published in the journal “Microbiome”. This work was completed by the professor Xianghua Yan research group from the National Key Laboratory of Agricultural Microbiology,Frontiers Science Center for Animal Breeding and Sustainable Production, ...

Recently, our college scholars explored a multifunctional catalyst with high adsorption property and hydrogen peroxide/persulfate activation properties for fluoroquinolones (FQs) prepared by using daidzein as a template based on molecular imprinting technology combined with Fe-MOF, and systematically analyzed the efficient degradation mechanism of the catalyst based on different oxidation systems for FQs in water environment. The relevant results were published as "Imprinting defective Fe-based metal-organic frameworks as an excellent platform for selective Fenton/persulfate. degradation of LEX: removal performance and mechanism, " in Applied Catalysis B: Environmental.

The animal cloning and stem cell research team led by Professor Miao Yiliang of our hospital published the latest research results entitled "KLF4 facilitates chromatin accessibility remodeling in porcine early embryos" in SCIENCE CHINA Life Sciences. This study comprehensively revealed the remodeling rules of chromatin openness during the development of fertilized pig embryos, and confirmed that the transcription factor KLF4 played an important role in regulating the chromatin openness of early pig embryos.