紫外辐射诱导植物叶片DNA损伤敏感性差异

单细胞凝胶电泳（彗星检测,cometassay）技术已广泛应用于动物细胞DNA损伤检测,但在植物细胞DNA损伤检测中的应用尚不多见。本研究通过对动物细胞彗星检测方法的改进,利用植物细胞原生质体作为材料,研究了不同发育期九里香（Murraya panicuata）叶片对UV-B诱导的DNA损伤的敏感性差异。彗星检测结果表明,九里香叶片DNA的损伤程度与UV-B辐射的剂量呈正相关：在相同UV—B辐射剂量下,九里香幼嫩叶片比成熟叶片的DNA损伤量大,表明其幼嫩叶片对UV-B辐射的敏感性比成熟叶片高。     

DNA断裂检测方法──单细胞凝胶电泳法

单细胞凝胶电泳(single cell gel electrophoresis assay,SCGE)也叫彗星试验(comet assay),是一种快速、敏感、简便、廉价的检测单个哺乳动物细胞DNA断裂的技术,目前已用于检测氧化、紫外线和电离辐射引起的损伤,以及三氯乙烷、丙烯酰胺等化学物及老化、吸烟所致损害的研究.文章介绍SCGE的发展、检测分析方法、原理及其在DNA损伤与修复、生物监测、遗传毒理研究、肿瘤治疗方案优化和疗效研究方面的应用前景．     

Genetic damage in multiple organs of acutely exercised rats

The aim of this study was to investigate the effects of acute exercise on genomic damage in an animal model. Male adult Wistar rats were divided into the following groups: control and acute exercised (experimental). For this purpose, 15 animals were accustomed to running on a rodent treadmill for 15 min per day for 5 days (10–20 m min^?1; 08 grade). After 4 days at rest, active animals ran on the treadmill (22 m min^?1, 58 grade) till exhaustion. Cells from peripheral blood, liver, heart, and brain were collected after 0, 2, and 6 h after exercise. The results showed that acute exercise was able to induce genetic damage in peripheral blood cells after 2 and 6 h of exercise, whereas liver pointed out genetic damage for all periods evaluated. No genetic damage was induced either in brain or in heart cells. In conclusion, our results suggest that acute exercise could contribute to the genetic damage in peripheral blood and liver cells. It seems that liver is a sensitive organ to the genotoxic insult after acute exercise. Copyright © 2010 John Wiley & Sons, Ltd.     

Assessment of DNA damage in sperm after repeated non‐invasive sampling in zebrafish Danio rerio

Repeated non‐invasive sampling of zebrafish Danio rerio sperm was conducted, sperm counts were obtained and a method for measurement of DNA damage in sperm was developed and validated (single‐cell gel electrophoresis, comet, assay). DNA damage in sperm increased with concentration of hydrogen peroxide (H₂O₂, 0–200 µM), and in vitro exposure of sperm to 200 µM H₂O₂ produced 88·7 ± 3·9% tail DNA compared to unexposed controls [12 ± 0·7% tail DNA (mean ± s.e ., n = 3)]. Frequency of sperm sampling (sampled every 2, 4 or 7 days) did not affect DNA damage in sperm, but sperm counts decreased 57 and 22% for fish sampled every 2 or 4 days, respectively.     

重金属诱导拟南芥原生质体DNA损伤的单细胞凝胶电泳检测

以拟南芥原生质体为实验体系,研究不同浓度的3种重金属离子对拟南芥原生质体的毒性和DNA损伤的差异。结果表明,用1-5mmol·L^-1的Zn^2＋、Cd^2＋和Cu^2＋分别处理的拟南芥原生质体,2小时内活力逐渐下降,并表现出明显的浓度依赖性：与相同浓度的Cd^2＋和Cu^2＋相比,Zn^2＋对拟南芥原生质体活力的影响程度较小,表现出较低的毒性。单细胞凝胶电泳检测发现,用0．1-0．8mmol·L^-1的Zn^2＋、Cd^2＋和Cu^2＋分别处理拟南芥原生质体30分钟,以OTM值表示的原生质体DNA损伤量随重金属离子浓度的增加而递增：相同浓度（0．5mmol·L^-1）的3种重金属离子相比,Zn^2＋对原生质体的遗传毒性明显低于Cu^2＋和Cd^2＋。综合原生质体活力和DNA损伤的单细胞凝胶电泳检测结果,发现ZnO^2＋对拟南芥原生质体的遗传毒性较低,而CdO^2＋和Cu^2＋的遗传毒性较高。本研究建立的拟南芥原生质体实验体系,结合运用单细胞凝胶电泳技术,能够快速、灵敏地检测重金属对植物细胞的遗传毒性。     

The effect of Helicobacter pylori infection on levels of DNA damage in gastric epithelial cells

Background. Helicobacter pylori infection leads to an increased risk of developing gastric cancer. The mechanism through which this occurs is not known. We aimed to determine the effect of H. pylori and gastritis on levels of DNA damage in gastric epithelial cells. Methods. Epithelial cells were isolated from antral biopsies from 111 patients. DNA damage was determined using single cell gel electrophoresis and the proportion of cells with damage calculated before and 6 weeks after eradication of H. pylori. Cell suspensions generated by sequential digestions of the same biopsies were assayed to determine the effect of cell position within the gastric pit on DNA damage. Results. DNA damage was significantly higher in normal gastric mucosa than in H. pylori gastritis [median (interquartile range) 65% (58.5–75.8), n = 18 and 21% (11.9–29.8), n = 65, respectively, p < .001]. Intermediate levels were found in reactive gastritis [55.5% (41.3–71.7), n = 13] and H. pylori negative chronic gastritis [50.5% (36.3–60.0), n = 15]. DNA damage rose 6 weeks after successful eradication of H. pylori[to 39.5% (26.3–51.0), p = .007] but was still lower than in normal mucosa. Chronic inflammation was the most important histological factor that determined DNA damage. DNA damage fell with increasing digestion times (r = –.92 and –.88 for normal mucosa and H. pylori gastritis, respectively). Conclusions. Lower levels of DNA damage in cells isolated from H. pylori infected gastric biopsies may be a reflection of increased cell turnover in H. pylori gastritis. The investigation of mature gastric epithelial cells for DNA damage is unlikely to elucidate the mechanisms underlying gastric carcinogenesis.     

Statistical Analysis of the Comet Assay Using a Mixture of Gamma Distributions

Tail moments in the single cell gel electrophoresis (comet) assay usually do not follow a normal distribution, making the statistical analysis complicated. Researchers have used a wide variety of statistical techniques in an attempt to overcome this problem. In many cases, the tail moments follow a bimodal distribution that can be modeled with a mixture of gamma distributions. This bimodality may be due to cells being in two different stages of the cell cycle at the time of treatment. Maximum likelihood, modified to accommodate censored data, can be used to estimate the five parameters of the gamma mixture distribution for each slide. A weighted analysis of variance on the parameter estimates for the gamma mixtures can be performed to determine differences in DNA damage between treatments. These methods were applied to an experiment on the effect of thymidine kinase in DNA damage and repair. Analysis based on the mixture of gamma distributions was found to be more statistically valid, more powerful, and more informative than analysis based on log-transformed tail moments.     

紫外辐射诱导烟草原生质体中DNA损伤的彗星电泳检测

以烟草原生质体为材料,采用彗星电泳检测用0.5W·m^-2紫外线以不同时间（0、5、10、30、60和120s）诱导的烟草原生质体中DNA的损伤。结果表明,在0～10s的时间内代表DNA损伤程度的尾矩、Olive尾矩等参数与紫外线照射时间具有良好的时间依赖关系。本文建立的烟草原生质体体系采用彗星电泳技术,可以快速而灵敏地检测紫外线对植物细胞的损伤程度。     

Electrophoretic karyotype polymorphism of sibling species of the Paramecium aurelia complex

Variability of karyotypes is one of the main mechanisms of speciation in organisms. Electrophoretic karyotypes of the macronucleus (MAC) obtained by pulsed-field gel electrophoresis were compared for 86 strains of all 15 sibling species of the Paramecium aurelia complex in order to determine if karyotype differences corresponded to biological species boundaries. Because the electrophoretic karyotype of the MAC reflects indirectly the frequency and distribution of fragmentation sites in the micronuclear (MIC) chromosomes, any change in MAC electrophoretic karyotype may be a marker of certain chromosomal mutations in the MIC. Thirteen main variants of electrophoretic MAC karyotypes were observed in this species complex. Ten of them appeared to correspond to biological species, while the three other variants characterized several species each. Intraspecific polymorphism was observed for several species: in some cases a certain variant of MAC karyotype was specific for all strains from the same part of the world. Distribution of the MAC karyotype variants along molecular phylogenetic trees of the P. aurelia complex shows that isolation of each species or group of species of this complex was accompanied by divergence in the molecular organization of the genome.     

SCGE法检测敌敌畏对大鳞副泥鳅DNA损伤的研究

目的 采用SCGE技术检测敌敌畏对大鳞副泥鳅DNA的损伤效应.方法 设置敌敌畏0.64 μg/L、1.28μg./L、1.92μg/L、2.56μg/L、3.20μg/L 5个浓度组和一个空白对照组(15尾大鳞副泥鳅/组),通过单细胞凝胶电泳技术(scGE)研究各浓度敌敌畏处理组在分别处理l d、2 d、3 d后对大鳞...     

Protection by tropolones against H2O2-induced DNA damage and apoptosis in cultured Jurkat cells

Tropolones, the naturally occurring compounds responsible for the durability of heartwood of several cupressaceous trees, have been shown to possess both metal chelating and antioxidant properties. However, little is known about the ability of tropolone and its derivatives to protect cultured cells from oxidative stress-mediated damage. In this study, the effect of tropolones on hydrogen peroxide-induced DNA damage and apoptosis was investigated in cultured Jurkat cells. Tropolone, added to the cells 15 min before the addition of glucose oxidase, provided a dose dependent protection against hydrogen peroxide induced DNA damage. The IC₅₀ value observed was about 15 μM for tropolone. Similar dose dependent protection was also observed with three other tropolone derivatives such as trimethylcolchicinic acid, purpurogallin and β-thujaplicin (the IC₅₀ values were 34, 70 and 74 μM, respectively), but not with colchicine and tetramethyl purpurogallin ester. Hydrogen peroxide-induced apoptosis was also inhibited by tropolone. However, in the absence of exogenous H₂O₂ but in the presence of non-toxic concentrations of exogenous iron (100 μM Fe³⁺), tropolone dramatically increased the formation of single strand breaks at molar ratios of tropolone to iron lower than 3 to 1, while, when the ratio increased over 3, no toxicity was observed. In conclusion, the results presented in this study indicate that the protection offered by tropolone against hydrogen peroxide-induced DNA damage and apoptosis was due to formation of a redox-inactive iron complex, while its enhancement of iron-mediated DNA damage at ratios of [tropolone]/[Fe³⁺] lower than 3, was due to formation of a lipophilic iron complex which facilitates iron transport through cell membrane in a redox-active form.     

Effects of heavy metals Cd2+, Pb2+ and Zn2+ on DNA damage of loach Misgurnus anguillicaudatus

The effects of heavy metals Cd2+, Pb2+ and Zn2+ at 0.05, 0.5 and 5.0 mg/L level and their interactions at 0.5 mg/L level on DNA damage in hepatopancreas of loach Misgurnus anguillicaudatus for 1-35 days exposure were examined by single cell gel electrophoresis (SCGE). For each test group, 20 loaches with similar body size (5.17-7.99g; 11.79-13.21 cm) were selected and kept in aquaria with dechlori-nated water at (22±1)℃ and fed a commercial diet every 48 h. According to the percentage of damaged DNA with tail and its TL/D (tail length to diameter of nucleus) value, the relationship between DNA damage degree and heavy metal dose and exposure time was determined. Results showed that the percentage of damaged DNA and the TL/D value were increased with the prolonged exposure time. The highest percentage (84.85%) of damaged DNA was shown in 5.0 mg/L Zn2+ group after 28 days exposure and the biggest TL/D value (2.50) in all treated groups after 35 days exposure. During the first treated week, the damnification of DNA was mainly recognized as the first level, after that time, the third damaged level was mostly observed and the percentage of damaged DNA was beyond 80%. The joint toxic effects among Cd2+, Pb2+ or Zn2+ revealed much complexity, but it generally displayed that the presence of Cd2+ could enhance the genotoxicity of Pb2+ or Zn2+. In conclusion, the results suggested that there was a significant time-and dose-depended relationship between the heavy metal and DNA damage in hepatopancreas of loach, and SCGE could represent a useful means to evaluate the genotoxicity of environmental contamination on aquatic organisms.     

Single cell gel electrophoresis assay (comet assay): its importance in human biology

The estimation of genetic instability by direct extent of DNA damage and repair is an important aspect of studies on mutagenesis, carcinogenesis, aging and evolution. Different methods have been introduced from time to time in an effort to meet this need. Single cell gel electrophoresis (SCGE) assay is a new, simple and sensitive method of evaluating DNA damage and repair at individual cell level. This assay can be performed on extremely small number of cells and results can be obtained within a relatively short time. The SCGE assay has the potential to play an important role not only in the understanding of some of the fundamental aspects of human biology but also can be helpful in many practical ways. For reprint requests.     

The neutral comet assay is sufficient to identify an apoptotic ‘window’ by visual inspection

As a sensitive technique for measuring DNA damage, the alkaline comet assay (capable of detecting and distinguishing apoptotic and necrotic damage) shows significantly greater ability to detect DNA breaks than a neutral counterpart. Using a heat shock model, we show that the fraction of visually detectable comets decreases using the neutral assay as cell death shifts from apoptosis to necrosis. We also show a virtual absence of neutral comets in cells dying by necrosis in another model. We conclude that the non-denaturing assay allows identification of putative apoptotic windows by showing sensitivity to apoptotic, but not necrotic, DNA damage.     

Comparison of the effect of raw and blanched‐frozen broccoli on DNA damage in colonocytes

Consumption of cruciferous vegetables may protect against colorectal cancer. Cruciferous vegetables are rich in a number of bioactive constituents including polyphenols, vitamins and glucosinolates. Before consumption, cruciferous vegetables often undergo some form of processing that reduces their content of bioactive constituents and may determine whether they exert protective effects. The aim of this study was to compare the ability of raw and blanched‐frozen broccoli to protect colonocytes against DNA damage, improve antioxidant status and induce xenobiotic metabolizing enzymes (XME). Fifteen Landrace × Large White male pigs were divided into five age‐matched and weight‐matched sets (79 days, SD 3, and 34·7 kg, SD 3·9, respectively). Each set consisted of siblings to minimize genetic variation. Within each set, pigs received a cereal‐based diet, unsupplemented (control) or supplemented with 600 g day^?1 of raw or blanched‐frozen broccoli for 12 days. The consumption of raw broccoli caused a significant 27% increase in DNA damage in colonocytes (p = 0·03) relative to the control diet, whereas blanched‐frozen broccoli had no significant effect. Both broccoli diets had no significant effect on plasma antioxidant status or hepatic and colonic XME. This study is the first to report that the consumption of raw broccoli can damage DNA in porcine colonocytes. Copyright © 2015 John Wiley & Sons, Ltd.     

单细胞凝胶电泳技术及在土壤生态毒理学中的应用

单细胞凝胶电泳技术又称为彗星实验,是最近几年发展起来的一种快速、简单、灵敏、可靠的检测细胞核DNA损伤的技术。总结了近几年来单细胞凝胶电泳技术的发展、原理、方法及其应用,并指出其下一步的发展趋势。彗星实验中,镶嵌于琼脂糖中的细胞核在电场中向正极移动,因细胞核与DNA片段迁移速率不同,而形成类似“彗星”的图像。目前采用的彗星实验有多种,可以检测诸如DNA双链断裂、单链断裂、碱不稳定位点等多种类型的DNA损伤。碱性彗星实验因其高灵敏度而被广泛采用。彗星实验的主要步骤包括细胞核悬浮液的获得、彗星电泳胶板制备、细胞裂解、DNA变性解旋、电泳、中和、染色和观察等。目前彗星实验广泛应用于各个研究领域,近年来开始用于环境污染的基因毒性研究和生物监测,并取得了迅速发展。     

CometChip: A High-throughput 96-Well Platform for Measuring DNA Damage in Microarrayed Human Cells

DNA damaging agents can promote aging, disease and cancer and they are ubiquitous in the environment and produced within human cells as normal cellular metabolites. Ironically, at high doses DNA damaging agents are also used to treat cancer. The ability to quantify DNA damage responses is thus critical in the public health, pharmaceutical and clinical domains. Here, we describe a novel platform that exploits microfabrication techniques to pattern cells in a fixed microarray. The ‘CometChip’ is based upon the well-established single cell gel electrophoresis assay (a.k.a. the comet assay), which estimates the level of DNA damage by evaluating the extent of DNA migration through a matrix in an electrical field. The type of damage measured by this assay includes abasic sites, crosslinks, and strand breaks. Instead of being randomly dispersed in agarose in the traditional assay, cells are captured into an agarose microwell array by gravity. The platform also expands from the size of a standard microscope slide to a 96-well format, enabling parallel processing. Here we describe the protocols of using the chip to evaluate DNA damage caused by known genotoxic agents and the cellular repair response followed after exposure. Through the integration of biological and engineering principles, this method potentiates robust and sensitive measurements of DNA damage in human cells and provides the necessary throughput for genotoxicity testing, drug development, epidemiological studies and clinical assays.     

应用蝌蚪快速检测环境变异的两种方法--微核试验和单细胞凝胶电泳

本文介绍了应用无尾两栖类动物的蝌蚪进行环境监测的两种方法——微核试验和单细胞凝胶电泳。此两种环境检测的方法与其他环境检测方法相比具有快速,简便,易操作,适于检测现场应用,可大面积推广等优点。     

Comparison of the in vivo and in vitro genotoxicity of glyphosate isopropylamine salt in three different organisms

There is considerable controversy with regard to the genotoxicity of glyphosate, with some reports stating that this compound is non-toxic for fish, birds and mammals. In this work, we used the comet assay to examine the genotoxicity of glyphosate isopropylamine (0.7, 7, 70 and 700 μM) in human lymphocytes, erythrocytes of Oreochromis niloticus and staminal nuclei of Tradescantia (4430) in vitro and in vivo. Cells, nuclei and fish that had and had not been exposed to 5 mM N-nitrosodiethylamine (NDEA) were used as positive and negative controls, respectively. Significant (p < 0.01) genetic damage was observed in vivo and in vitro in all cell types and organisms tested. Human lymphocytes and Tradescantia hairs showed lower genetic damage in vivo compared to in vitro, possibly because of efficient metabolization of the herbicide. In O. niloticus erythrocytes, significant (p < 0.001) genotoxicity was observed at ≥ 7 μM, whereas in vitro, glyphosphate was genotoxic in human lymphocytes and Tradescantia hairs at ≥ 0.7 μM. These results indicate that glyphosate is genotoxic in the cells and organisms studied at concentrations of 0.7–7 μM.     

溴氰菊酯对真鲷肝胰脏组织及细胞DNA的损伤

为研究溴氰菊酯亚急性染毒对真鲷肝胰脏的毒性作用,将真鲷分为5组进行不同剂量半静置染毒.染毒25 d后取真鲷肝胰脏进行组织切片显微观察,并采用彗星试验技术对其肝胰脏细胞进行DNA损伤分析.结果表明: 在0.025、0.125、0.250和0.375 μg·L^-1暴露浓度下,真鲷肝胰脏组织出现了不同程度的淤血、细胞核浓缩、细胞坏死等病理性损伤,且染毒浓度越高组织细胞损伤越显著.与空白对照组相比,各染毒浓度组肝胰脏细胞DNA均有不同程度损伤,彗星拖尾率、彗尾DNA相对含量、Olive距等指标均与对照有显著性差异.一元回归分析表明,染毒浓度与拖尾率、彗星尾长等参数呈极显著正相关; 染毒浓度与各指标均呈线性关系,回归方程拟合度(R)极高,范围为0.909～0.996.表明溴氰菊酯对真鲷肝胰脏组织和细胞DNA均可产生不同程度损伤,且损伤程度与染毒浓度之间具有高度线性相关关系.