...
机译:循环机械张力增强DNA损伤,并激活P53-P21-RB途径,以诱导细胞核脉搏细胞的过早衰老
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
Third Mil Med Univ Xinqiao Hosp Dept Orthoped 183 Xinqiao Main St Chongqing 400037 Peoples R;
cyclic mechanical tension; Flexercell tension system; DNA damage; disc cell senescence; the mechanobiology of disc cells; intervertebral disc degeneration;
机译:循环机械张力增强DNA损伤并激活p53-p21-Rb途径,以诱导髓核细胞过早衰老
机译:17β-雌二醇通过调节ROS /NF-κB途径减轻TNF-α诱导的髓核细胞过早衰老
机译:自噬免受循环机械张力诱导的细胞凋亡的细胞核脉搏细胞
机译:ATP诱导的髓核细胞跨膜电位变化的新型测量系统
机译:IGF-1通过抑制SirT1和激活p53诱导细胞早衰
机译:循环机械张力增强DNA损伤并激活p53-p21-Rb途径以诱导髓核细胞过早衰老
机译:成熟的N-乙酰化脯氨酸-甘氨酸脯氨酸通过CXCR1依赖性ROS积累和DNA损伤诱导髓核细胞过早衰老,并增强了这些细胞对椎间盘稳态的破坏作用。