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机译:EBF1和PAX5通过限制IL-7信号,MYC表达和叶酸新陈代谢来保护白血病转化
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Lab Single Cell Biol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Immunometab D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Immunometab D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Immunometab D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Lab Single Cell Biol D-79108 Freiburg Germany;
Max Planck Inst Immunobiol &
Epigenet Dept Cellular &
Mol Immunol D-79108 Freiburg Germany;
EBF1; Pax5; B-ALL; IL-7 signaling; cMyc; folate pathway;
机译:HDAC2通过EBF1,Pax5,Ikaros,Aiolos和E2A基因表达控制IgM H和L链基因表达。
机译:Ebf1杂合性导致pro-B细胞中DNA损伤的增加及其Pax5单倍体不足的协同转化
机译:不同的启动子介导白介素7和Pax5对Ebf1基因表达的调节。
机译:引力扰动和振动对节省空白血液血清T淋巴细胞中新陈代谢表达的影响(Jurkat细胞)
机译:使用体外结直肠癌的叶酸缺乏模型,叶酸缺乏对参与叶酸代谢和单碳转移反应的基因的mRNA和/或蛋白质表达的调节作用。
机译:Ebf1杂合性导致pro-B细胞中DNA损伤的增加及其Pax5单倍体不足的协同转化
机译:EBF1和PAX5通过限制IL-7信号,MYC表达和叶酸新陈代谢来保护白血病转化
机译:叶酸代谢对转移性乳腺癌基因表达的直接影响