Xinhui Kou
Fudan University
13 Papers
1 Citations
Xinhui Kou is an academic researcher from Fudan University. The author has contributed to research in topics: Chemistry & Copolymer. The author has an hindex of 1, co-authored 1 publications.
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Papers
SNX10 (sorting nexin 10) inhibits colorectal cancer initiation and progression by controlling autophagic degradation of SRC
Sulin Zhang,Sulin Zhang,Zhiwen Yang,Wei-Lian Bao,Lixin Liu,Yan You,Xu Wang,Liming Shao,Wei Fu,Xinhui Kou,Weixing Shen,Congmin Yuan,Bin Hu,Wen-Zhen Dang,Kutty Selva Nandakumar,Hualiang Jiang,Mingyue Zheng,Xiaoyan Shen +17 more
TL;DR: A significant down regulation of SNX10 (sorting nexin 10) is reported in human CRC tissues, which is closely related to tumor differentiation, TNM stage, lymph node metastasis and survival period and it could be a potential therapeutic target for future development.
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Exploration of the Synergistic Effect in a One-Component Lewis Pair System: Serving as a Dual Initiator and Catalyst in the Ring-Opening Polymerization of Epoxides
TL;DR: In this article , a one-component Lewis pair strategy was adopted, and two delicate Lewis pairs 1−2 were rationally designed and conveniently synthesized, which exhibited activity (turnover frequency = 3600 h−1) with a living characteristic and low catalyst feeding (0.003 mol %) and afforded an extremely high-molecular-weight α-halide/ω-OH polypropylene oxide (PPO, Mn = 489.5 kg/mol) under mild conditions (−30 to 0 °C).
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Synthesis of Sequence-specific Poly(ester-carbonate) Copolymers via Chemoselective Terpolymerization Controlled by the Stoichiometric Ratio of Phosphazene/Triethylborane.
TL;DR: In this paper , the authors reported the terpolymerization of CO2/epoxide/anhydride by a binary organocatalytic C3N3-Py-P3/TEB (triethylborane) system.
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Controllable Synthesis of Heterofunctionalized Polyethers via Intramolecular Phosphonium Bisborane Lewis Pair-Catalyzed Immortal Ring-Opening Polymerization
TL;DR: In this paper , a metal-free phosphonium bisborane Lewis pair (PBB-Br) was demonstrated to realize the immortal ring-opening polymerization (iROP) of propylene oxide (PO) under mild conditions with alcohols as chain transfer agents (CTAs).
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Berberine Improves TNF-α-Induced Hepatic Insulin Resistance by Targeting MEKK1/MEK Pathway
TL;DR: BBR ameliorates TNF-α-induced hepatic insulin resistance by targeting MEKK1 and MEK1/2, and is proved to efficiently bind MEK 1/2.
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