机译:通用转录因子TFIIH的亚基结构
Department of Structural Biology, Stanford School of Medicine, Stanford CA 94305;
Department of Cell Biology, The Scripps Research Institute, La Jolla CA 92037;
Department of Structural Biology, Stanford School of Medicine, Stanford CA 94305;
Department of Structural Biology, Stanford School of Medicine, Stanford CA 94305;
Department of Cell Biology, The Scripps Research Institute, La Jolla CA 92037,Department of Biological, Chemical and Physical Sciences, Roosevelt University, Chicago IL 60605;
Department of Structural Biology, Stanford School of Medicine, Stanford CA 94305;
Department of Cell Biology, The Scripps Research Institute, La Jolla CA 92037;
Department of Structural Biology, Stanford School of Medicine, Stanford CA 94305;
cell cycle; DNA repair; xeroderrna pigmentosa; tricothiodystropy; cockayne syndrome;
机译:修复/转录因子XPIIH的XPB子单元与SUG1直接相互作用,SUG1是26S蛋白质和人工转录因子的一个子单元
机译:修复/转录因子TFIIH的XPB亚基与SUG1直接相互作用,SUG1是26S蛋白酶体和假定的转录因子的亚基
机译:通过有限的蛋白水解和质谱分析推导的人类转录/修复因子TFIIH的p62亚基的域结构。
机译:在计算机上预测与E2F转录因子家族相互作用的转录因子
机译:通过Cdk激活激酶Cak1p激活酵母TFIIH的Kin28p亚基的磷酸化
机译:通用转录因子TFIIH的亚基结构
机译:修复/转录因子TFIIH的XPB亚基直接与SUG1相互作用,SUG1是26S蛋白酶体和推定转录因子的亚基。