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机译:NUDT21通过将替代多腺苷酸连接到染色质信号传导来控制细胞命运
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Univ Calif Irvine Sch Med Dept Microbiol &
Mol Genet Irvine CA 92697 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Univ Calif Irvine Sch Med Dept Microbiol &
Mol Genet Irvine CA 92697 USA;
Harvard Med Sch Dept Cell Biol Boston MA 02115 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Harvard Med Sch Dept Cell Biol Boston MA 02115 USA;
Harvard Med Sch Howard Hughes Med Inst Brigham &
Womens Hosp Boston MA 02115 USA;
Univ Minnesota Coll Biol Sci Dept Biochem Mol Biol &
Biophys St Paul MN 55018 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
Harvard Med Sch Dept Cell Biol Boston MA 02115 USA;
NIEHS Epigenet &
Stem Cell Biol Lab POB 12233 Res Triangle Pk NC 27709 USA;
Univ Calif Irvine Sch Med Dept Microbiol &
Mol Genet Irvine CA 92697 USA;
Massachusetts Gen Hosp Dept Mol Biol Boston MA 02114 USA;
机译:NUDT21通过将替代多腺苷酸连接到染色质信号传导来控制细胞命运
机译:精子发生中的选择性切割和聚腺苷酸化将染色质调控与转录后调控联系起来
机译:Pax3的替代聚腺苷酸化控制肌肉干细胞的命运和肌肉功能
机译:具有生物功能的微腔平台,可解剖自分泌和旁分泌信号并控制造血干细胞和祖细胞的命运决定
机译:瞬时JAK / STAT信号动力学的分析预测了干细胞命运控制的控制模块。
机译:Nudt21通过将替代的聚腺苷酸化连接到染色质信号传导上来控制细胞命运
机译:NUDT21通过将替代多腺苷酸连接到染色质信号传导来控制细胞命运