李方廷中文主页--科学研究

• The multiple activations in budding yeast S-phase checkpoint are Poisson processes, PNAS Nexus（2023）2: gad342, https://doi.org/10.1093/pnasnexus/pgad342.

Ø Nonequilibrium states of living cell

• Phosphorylation energy and nonlinear kinetics as key determinants for G2/M transition in fission yeast cell cycle. arXiv:1610.09637. (Submitted to PNAS) .

• Positive and reverse mitotic wave under different phosphorylation energy (Under prepare)

• ATP hydrolysis kinetics and thermodynamics as determinants of calcium oscillation in pancreatic β cells.Phys. Rev. Research (2022) 4, 043142. https://doi.org/10.1103/PhysRevResearch.4.043142

Ø Modeling immune system

• A multicompartment mathematical model based on host immunity for dissecting COVID-19 heterogeneity. Heliyon (2022) 8(5) e09488.

• Dynamically modeling the effective range of IL-2 dosage in the treatment of systemic lupus erythematosus. iScience. (2022) 25(9):104911.

• Dynamical modelling of viral infection and cooperative immune protection in COVID-19 patients. PLoS Comput. Biol. (2023) 19(9): e1011383. https://doi.org/10.1371/journal.pcbi.1011383.

研究领域

研究方向

酵母基因调控网络的定量生物学研究。

活细胞体系的非平衡稳态研究。

免疫系统的定量生物学研究。

论文成果【查看更多】

Rapid Quantification of Polyhydroxyalkanoates Accumulated in Living Cells Based on Green Fluorescence Protein-Labeled Phasins: The qPHA Method, Biomacromolecules 2022, A multicompartment mathematical model based on host immunity for dissecting COVID-19 heterogeneity, Heliyon 2022, Dynamically modeling the effective range of IL-2 dosage in the treatment of systemic lupus erythematosus, iScience 2022, ATP hydrolysis kinetics and thermodynamics as determinants of calcium oscillation in pancreatic β cells, Phys. Rev. Research 2022, Stochasticity triggers activation of the S-phase checkpoint pathway in budding yeast, Physical Review X 2021, 11, 011004. Critical slowing down and attractive manifold: a mechanism for dynamic robustness in yeast cell-cycle process, Physical Review E 2020, 101, 042405.

专利

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著作成果

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科研项目【查看更多】

参加自然科学基金委重大项目（2021.01～2025.12）“生命系统中的非平衡统计物理和动力学研究”(NSFC12090054) 中课题“复杂生命系统的能量耗散和功能精确度” 参加国家重点研发计划（ 2019.01～2023.12）“高版本嗜盐模式微生物底盘细胞的构建”(2018YFA0900200) 中课题“嗜盐微生物的系统与定量生物学” 主持自然科学基金委面上基金（2022.01～2025.12）单细胞和多细胞体系的网络动力学研究：从酵母菌到免疫系统参加科技部 973 项目 “基因功能预测的生物信息学理论与应用”中子课题“蛋白质网络拓扑结构及动力学研究” 参加国家蛋白质计划“模式生物与细胞等功能系统的系统生物学研究”中子课题 “酵母转录调控网络的动力学性质研究”，子课题合作单位北京蛋白质中心参加国家自然科学基金创新群体“生物网络研究”