XPC:前往前所未有的DNA损伤传感器之地。
XPC: Going where no DNA damage sensor has gone before.
作者信息
Nemzow Leah, Lubin Abigail, Zhang Ling, Gong Feng
机构信息
Department of Biochemistry and Molecular Biology, University of Miami Miller, School of Medicine Miami, FL 33136, United States.
Department of Biochemistry and Molecular Biology, University of Miami Miller, School of Medicine Miami, FL 33136, United States.
出版信息
DNA Repair (Amst). 2015 Dec;36:19-27. doi: 10.1016/j.dnarep.2015.09.004. Epub 2015 Sep 9.
Abstract
XPC has long been considered instrumental in DNA damage recognition during global genome nucleotide excision repair (GG-NER). While this recognition is crucial for organismal health and survival, as XPC's recognition of lesions stimulates global genomic repair, more recent lines of research have uncovered many new non-canonical pathways in which XPC plays a role, such as base excision repair (BER), chromatin remodeling, cell signaling, proteolytic degradation, and cellular viability. Since the first discovery of its yeast homolog, Rad4, the involvement of XPC in cellular regulation has expanded considerably. Indeed, our understanding appears to barely scratch the surface of the incredible potential influence of XPC on maintaining proper cellular function. Here, we first review the canonical role of XPC in lesion recognition and then explore the new world of XPC function.
摘要
长期以来,XPC一直被认为在全基因组核苷酸切除修复(GG-NER)过程中对DNA损伤识别起着重要作用。虽然这种识别对机体健康和生存至关重要,因为XPC对损伤的识别会刺激全基因组修复,但最近的一系列研究发现了许多新的非经典途径,XPC在这些途径中发挥作用,如碱基切除修复(BER)、染色质重塑、细胞信号传导、蛋白水解降解和细胞活力维持。自从首次发现其酵母同源物Rad4以来,XPC在细胞调节中的作用已大幅扩展。事实上,我们的理解似乎只是触及了XPC对维持细胞正常功能的潜在巨大影响的表面。在这里,我们首先回顾XPC在损伤识别中的经典作用,然后探索XPC功能的新领域。
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