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  • PROJ Lipidomics of SOAT1 overexpressed DU145 cells

    Yuanyuan Luo, Dalian institute of chemical physics,2023.12.26

    Description

    OEP004895

  • PROJ Lipidomics of sphere-derived DU145 cells

    Yuanyuan Luo, Dalian institute of chemical physics,2023.12.26

    Description

    OEP004892

  • PROJ Lipidomics of sphere-derived 22Rv1 cells

    Yuanyuan Luo, Dalian institute of chemical physics,2023.12.26

    Description

    OEP004893

  • PROJ Interactions of PAH-degradation and nitrate-/sulfate-reducing assemblages in anaerobic sediment microbial community

    Meiying Xu, Guangdong Institute of Microbiology,2020.11.19

    Description

    Nitrate and sulfate are electron acceptors (EAs) for biodegradation of polycyclic aromatic hydrocarbons (PAHs) in anaerobic sediments. The efficiency of PAHs biodegradation depends on the strength of the interactions between PAH-degradation and EA-reduction assemblages.We detected the microbial communities using Illumina MiSeq sequencing, which was aim to study the microbial responses in sediment remediation with nitrate and sulfate stimulation.

    OEP001297

  • PROJ anoxic priming

    Jian Yang, China University of Geosciences (Wuhan),2023.12.27

    Description

    priming effect in lake sediments under oxic and anoxic conditions

    OEP004900

  • PROJ High-throughout prolifing of exosomal miRNAs from 4TO7 mouse breast tumor (house mouse)

    Lixing Zhan, Shanghai Institute of Nutrition and Health, CAS,2023.12.27

    Description

    The goals of this study are to explore the main miRNA compotents in tumor exosomes in the early stage of tumor growth. Methods: miRNA profiles of mouse breast tumor exosomes Overall design: RNA-seq of tumor exosomal miRNAs in the pre-metastatic stage of 4TO7 tumor growth.

    OEP004901

  • PROJ mangrove_project_0_5m

    Zhili He, Sun Yat-sen University,2023.12.27

    Description

    mangrove_project_0_5m

    OEP004907

  • PROJ Taxol pathway project

    Xing Yan, CAS Center for Excellence in Molecular Plant Science/Institute of Plant Physiology and Ecology,2023.12.26

    Description

    Taxol is a widely-applied anticancer drug that effectively inhibits microtubule dynamics in actively replicating cells. Over the decades, elucidation of Taxol biosynthetic pathway and revealing its key enzymatic reaction mechanisms have been an attractive challenge for academia and industry. In order to elucidate the biosynthetic pathways of Taxol and related taxoids and discover missing enzymes involved in the biosynthesis of Taxol and related toxoids, we performed the RNA-seq using Taxus twigs.

    OEP004887

  • PROJ Genetic variants associated with sweat gland phenotypes in 6,210 Han Chinese individuals

    Wenyan Chen, Shanghai Institute of Nutrition and Health,2023.10.10

    Description

    OEP004627

  • PROJ LHD_fungi

    Xing Xiang, ,2023.12.21

    Description

    OEP004875