Zhucui Li
Chinese Academy of Sciences
9 Papers
14 Citations
Zhucui Li is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Metabolite & Phosphorylation. The author has an hindex of 6, co-authored 9 publications. Previous affiliations of Zhucui Li include Nankai University & ShanghaiTech University.
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Papers
Comprehensive evaluation of untargeted metabolomics data processing software in feature detection, quantification and discriminating marker selection
TL;DR: Findings from comprehensive evaluation of untargeted metabolomics software would help guide future improvements of these widely used bioinformatics tools and enable users to properly interpret their metabolomics results.
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Graphene oxide-assisted nucleic acids assays using conjugated polyelectrolytes-based fluorescent signal transduction.
Fuwu Li,Jie Chao,Zhucui Li,S Xing,Shao Su,Xing Li,Shiping Song,Xiaolei Zuo,Chunhai Fan,Bin Liu,Wei Huang,Lianhui Wang +11 more
TL;DR: By using a cationic P2, this work has developed a sensitive homogeneous sensor for DNA and RNA detection with a detection limit of 50 pMDNA and RNA, which increased the sensitivity by 40-fold as compared to GO-free CPE-based sensors.
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Targeted cofactor quantification in metabolically engineered E. coli using solid phase extraction and hydrophilic interaction liquid chromatography-mass spectrometry.
TL;DR: An SPE-HILIC/MS approach for simultaneous determination of six cofactor targets in Escherichia coli cells revealed that optimal energy fitness was achieved in the highest-yield strain through combined modulation of a transhydrogenase and a NAD(+) kinase.
8
Exploiting High-Resolution Mass Spectrometry for Targeted Metabolite Quantification and 13 C-Labeling Metabolism Analysis
TL;DR: This chapter introduces an MS1/MS2-combined PRM workflow for quantification of central carbon metabolism intermediates, amino acids, and shikimate pathway-related metabolites and adapts this new approach to a dynamic 13C-labeling experiment and demonstrates its unique advantage in capturing and correcting isotopomer labeling curves to facilitate nonstationary 13C -labeling metabolism analysis.
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Numerical Model and Validation for Simulating the Cold Filling of the Molten Salt Receiver Tube
TL;DR: In this article, a numerical model for simulating the cold filling of a receiver tube is presented, which uses the volume of fraction method to track the interface betweent the molten salt and the air and the enthalpy method to describe the liquid-solid phase change.
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