Wang T C, Smith K C
Department of Therapeutic Radiology, Stanford University School of Medicine, California 94305.
J Bacteriol. 1988 Jun;170(6):2555-9. doi: 10.1128/jb.170.6.2555-2559.1988.
Two mutations known to affect recombination in a recB recC sbsBC strain, recJ284::Tn10 and recN262, were examined for their effects on the postreplication repair of UV-damaged DNA. The recJ mutation did not affect the UV radiation sensitivity of uvrB and uvrB recF cells, but it increased the sensitivity of uvrB recN (approximately 3-fold) and uvrB recB (approximately 8-fold) cells. On the other hand, the recN mutation did not affect the UV sensitivity of uvrB recB cells, but it increased the sensitivity of uvrB (approximately 1.5-fold) and uvrB recF (approximately 4-fold) cells. DNA repair studies indicated that the recN mutation produced a partial deficiency in the postreplication repair of DNA double-strand breaks that arise from unrepaired daughter strand gaps, while the recJ mutation produced a deficiency in the repair of daughter strand gaps in uvrB recB cells (but not in uvrB cells) and a deficiency in the repair of both daughter strand gaps and double-strand breaks in uvrA recB recC shcBC cells. Together, these results indicate that the recJ and recN genes are involved in different aspects of postreplication repair.
研究了已知会影响recB recC sbsBC菌株重组的两种突变recJ284::Tn10和recN262对紫外线损伤DNA复制后修复的影响。recJ突变不影响uvrB和uvrB recF细胞对紫外线辐射的敏感性,但它增加了uvrB recN细胞(约3倍)和uvrB recB细胞(约8倍)的敏感性。另一方面,recN突变不影响uvrB recB细胞对紫外线的敏感性,但它增加了uvrB细胞(约1.5倍)和uvrB recF细胞(约4倍)的敏感性。DNA修复研究表明,recN突变在由未修复的子链缺口产生的DNA双链断裂的复制后修复中产生部分缺陷,而recJ突变在uvrB recB细胞(但不在uvrB细胞)的子链缺口修复中产生缺陷,在uvrA recB recC shcBC细胞的子链缺口和双链断裂修复中产生缺陷。总之,这些结果表明recJ和recN基因参与复制后修复的不同方面。