Dipartimento di Biologia e Biotecnologie L. Spallanzani, via Ferrata 9, 27100 Pavia, Italy.
J Plant Physiol. 2013 May 15;170(8):780-7. doi: 10.1016/j.jplph.2013.01.010. Epub 2013 Feb 19.
In plants, there is evidence that different dose rate exposures to gamma (γ) rays can cause different biological effects. The dynamics of DNA damage accumulation and molecular mechanisms that regulate recovery from radiation injury as a function of dose rate are poorly explored. To highlight dose-rate dependent differences in DNA damage, single cell gel electrophoresis was carried out on regenerating Petunia x hybrida leaf discs exposed to LDR (total dose 50 Gy, delivered at 0.33 Gy min(-1)) and HDR (total doses 50 and 100 Gy, delivered at 5.15 Gy min(-1)) γ-ray in the 0-24h time period after treatments. Significant fluctuations of double strand breaks and different repair capacities were observed between treatments in the 0-4h time period following irradiation. Dose-rate-dependent changes in the expression of the PhMT2 and PhAPX genes encoding a type 2 metallothionein and the cytosolic isoform of ascorbate peroxidase, respectively, were detected by Quantitative RealTime-Polymerase Chain Reaction. The PhMT2 and PhAPX genes were significantly up-regulated (3.0- and 0.7-fold) in response to HDR. The results are discussed in light of the potential practical applications of LDR-based treatments in mutation breeding.
在植物中,有证据表明,不同剂量率的γ射线照射会导致不同的生物学效应。辐射损伤修复过程中 DNA 损伤积累的动力学和调控分子机制随剂量率的变化尚未得到充分探索。为了强调 DNA 损伤的剂量率依赖性差异,对再生矮牵牛叶片圆片进行了单细胞凝胶电泳分析,这些叶片在处理后 0-24 小时内分别接受低剂量率(总剂量 50Gy,以 0.33Gy/min 的剂量率照射)和高剂量率(总剂量 50 和 100Gy,以 5.15Gy/min 的剂量率照射)γ射线照射。在辐照后 0-4 小时的时间内,不同处理之间观察到双链断裂的显著波动和不同的修复能力。通过定量实时聚合酶链反应检测到编码 2 型金属硫蛋白和细胞溶质抗坏血酸过氧化物酶同工型的 PhMT2 和 PhAPX 基因的表达随剂量率发生变化。HDR 处理显著上调了 PhMT2 和 PhAPX 基因(3.0-和 0.7 倍)的表达。结果结合低剂量率处理在诱变育种中的潜在实际应用进行了讨论。
