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A database built with INDRA combining content from numerous readers and databases. This page allows you to curate the loaded statements. For more information please see the manual.

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INDRA is developed by indralabs, a part of the Harvard Medical School Laboratory of Systems Pharmacology.

This project, indra_db, is also developed by the indralab team. For more information on how we procure our sources, you can go here. This work was funded by ARO grant W911NF‐15‐1‐0544 under the DARPA Communicating with Computers program.

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USP9X activates cell cycle. 3 / 3

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"We proved that USP9X overexpression promoted proliferation and cell cycle and suppressed cell apoptosis in MCL cells."

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"Furthermore, our study revealed that the USP9X/CDC123 axis promotes the occurrence and development of breast cancer through regulating the cell cycle, and suggests that it may be a potential target for breast cancer intervention."

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"As transcriptional regulation of c-myc and cyclin D1 may be manifested indirectly by reduced cell cycle progression induced by USP9X knockdown, we need to clarify whether USP9X can regulate c-myc and cyclin D1 levels through the Wnt and beta- catenin pathway."

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USP9X activates cell cycle. 3 / 3

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