Department of Comparative Biomedical Sciences, School of Veterinary Medicine, Louisiana State University, Baton Rouge, LA 70803, USA.
Department of Biology, University of Louisiana at Lafayette, 410 E. St. Mary Blvd, Lafayette, LA 70503, USA.
J Mol Biol. 2019 Mar 29;431(7):1322-1338. doi: 10.1016/j.jmb.2019.02.010. Epub 2019 Feb 18.
Transcription coupled repair (TC-NER) is a subpathway of nucleotide excision repair triggered by stalling of RNA polymerase at DNA lesions. It has been suspected that transcriptional misincorporations of certain nucleotides opposite lesions that result in irreversible transcription stalling might be important for TC-NER. However, the spectra of nucleotide misincorporations opposite UV photoproducts and how they are implicated in transcriptional stalling and TC-NER in the cell remain unknown. Rad26, a low abundant yeast protein, and its human homolog CSB have been proposed to facilitate TC-NER in part by positioning and stabilizing stalling of RNA polymerase II (RNAPII) at DNA lesions. Here, we found that substantial AMPs but no other nucleotides are transcriptionally misincoporated and extended opposite UV photoproducts and adjacent bases in Saccharomyces cerevisiae. Rad26 does not significantly affect either the misincorporation or extension of AMPs. At normally low or moderately increased levels, Rad26 promotes error-free transcriptional bypass and TC-NER of UV photoproducts. However, Rad26 completely loses these functions when it is overexpressed to ~1/3 the level of RNAPII molecules. Also, Rad26 does not directly displace RNAPII but constitutively evicts Spt5, a key transcription elongation factor and TC-NER repressor, from the chromatin. Our results indicate that transcriptional nucleotide misincorporation is not implicated in TC-NER, and moderate eviction of Spt5 and promotion of error-free transcriptional bypass of DNA lesions by Rad26 facilitates TC-NER.
转录偶联修复(TC-NER)是由 RNA 聚合酶在 DNA 损伤处停滞引发的核苷酸切除修复的一个亚途径。人们怀疑,在损伤处导致转录不可逆停滞的某些核苷酸的转录错误掺入可能对 TC-NER 很重要。然而,UV 光产物对面的核苷酸错误掺入的光谱以及它们如何影响转录停滞和细胞中的 TC-NER 仍然未知。Rad26 是一种低丰度的酵母蛋白,其人类同源物 CSB 被提议部分通过定位和稳定 RNA 聚合酶 II(RNAPII)在 DNA 损伤处的停滞来促进 TC-NER。在这里,我们发现大量 AMP 但没有其他核苷酸在转录时错误掺入并延伸到 Saccharomyces cerevisiae 中的 UV 光产物和相邻碱基对面。Rad26 对 AMP 的错误掺入或延伸没有显著影响。在正常低水平或适度增加水平下,Rad26 促进 UV 光产物的无差错转录旁路和 TC-NER。然而,当 Rad26 过表达至 RNAPII 分子水平的约 1/3 时,它完全失去了这些功能。此外,Rad26 不会直接取代 RNAPII,而是持续将 Spt5(一种关键的转录延伸因子和 TC-NER 抑制剂)从染色质中驱逐出去。我们的结果表明,转录核苷酸错误掺入与 TC-NER 无关,而 Rad26 适度驱逐 Spt5 并促进 DNA 损伤的无差错转录旁路,有助于 TC-NER。
