背根神经节神经元DNA环组织:外周炎症的影响

K. Afanasieva, Dmytro E. Duzhyy, P. Belan, N. Voitenko, A. Sivolob
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摘要

. 染色质的环域组织在转录调控中起着重要作用,并且依赖于细胞的功能状态。这项工作的目的是研究可能的DNA环重组背神经节神经元在炎症性疼痛。方法。我们使用单细胞凝胶电泳(彗星测定)来分析从溶解的神经元中获得的类核DNA环迁移的动力学。结果。与炎症无关,神经元的特征是彗尾中DNA含量相对较低,这是由于环中DNA含量较低,这可以通过彗星测定(高达400kb)来解决。在炎症时,环的轮廓长度基本上减少,与相对较短(高达~100 kb)环的DNA相应增加平行。结论。炎症时DNA环的重组可能伴随着转录调控的显著变化。
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DNA loop organization in dorsal root ganglion neurons: effects of peripheral inflammation
. The loop domain organization of chromatin plays an important role in transcription regulation and is known to be dependent on the cell functional states. The aim of this work was to investigate the possible DNA loop reorganization in dorsal ganglion neurons upon inflammatory pain. Methods. We used single cell gel electrophoresis (the comet assay) to analyze the kinetics of the DNA loop migration from the nucleoids obtained from lysed neurons. Results. Independently of inflammation, the neurons are characterized by relatively low amount of DNA in the comet tails due to a low content of DNA in the loops, which may be resolved by the comet assay (up to ~400 kb). Upon inflammation the contour length of the loops essentially decreases, in parallel with a respective increase of DNA in relatively short (up to ~100 kb) loops. Conclusions. The reorganization of the DNA loops upon inflammation could be suggested to be accompanied by rather significant changes in the transcription regulation.
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