In Vitro Antioxidant and Radio Protective Activities of Lycopene from Tomato Extract against Radiation—Induced DNA Aberration

Background: The accumulation of free radicals is linked to a number of diseases. Free radicals can be scavenged by antioxidants and reduce their harmful effects. It is therefore essential to look for naturally occurring antioxidants that come from plants, as synthetic antioxidants are toxic, carcinogenic and problematic for the environment. Lycopene is one of the carotenoids, a pigment that dissolves in fat and has antioxidant properties. Materials and Methods: The antioxidant and free radical scavenging activity were assessed using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay. The impact of lycopene on bacteria (E. coli) susceptibility to γ-radiation was examined by radio sensitivity assay. The study also examined the induction of strand breaks in plasmid pUC19 DNA and how lycopene extract protected the DNA from γ-radiation in vitro. Results: At varying concentrations, lycopene demonstrated its ability to scavenge free radicals such as 2, 2-diphenyl-1-picrylhydrazyl (DPPH). IC50 for lycopene was determined at 112 μg/mL which was almost partial to IC50 of standard antioxidant L-ascorbic acid. The D10 value 180 Gy of E. coli was found to be >2-fold higher in the extract-containing lycopene sample than in the extract-free controls. The lycopene extracts inhibited the radiation-induced deterioration of the plasmid pUC19 DNA. At an IC50 concentration, lycopene provided the highest level of protection. Conclusion: Lycopene functions as an efficient free radical scavenger and possible natural antioxidant source. For cancer patients and others who frequently expose themselves to radiation, lycopene may be a useful plant-based pharmaceutical product for treating a variety of diseases caused by free radicals.

环三聚磷腈多齿配体的合成及DNA的切割活性

为了得到具有核酸切割功能的人工核酸酶,设计合成了5种环三聚磷腈多齿配体,并初步检测了其对DNA的切割活性.目标化合物的结构由IR,1HNMR,31P NMR,13C NMR和ESI-MS确认.在生理条件下对pUC19 DNA切割活性的初步实验结果表明,在化合物5a^5e的Cu(Ⅱ)配合物存在下,保温24 h后,pUC19 DNA由FormⅠ断裂为FormⅡ,即合成目标化合物有明显的DNA切割活性.同时,考察了配合物5b+Cu在不同时间下对DNA的切割活性的影响.

溴代色胺酮铁(Ⅱ)配合物的合成、晶体结构及与DNA的作用研究

以天然的生物碱色胺酮(Try)为起始原料,合成了卤代衍生物8-溴色胺酮和其铁配合物[Fe(8-Br-Try)4](1)。X单晶衍射分析表明,配合物1是由中心铁(Ⅱ)原子与两个8-溴色胺酮配体三齿螯合配位,形成一个六配位的变型八面体几何构型。采用紫外吸收光谱和荧光光谱等分析方法研究了配合物1与G-四链体HTG21DNA的相互作用,发现这个化合物与DNA的结合能力较强,它与DNA的紫外结合常数为8.70×10~6 dm^3·mol^(-1)。琼脂糖凝胶电泳实验进一步表明,配合物1能对pUC19质粒DNA产生切割作用。

γ射线诱导DNA损伤中DNA浓度和剂量率的影响

在进行辐射致DNA损伤中,DNA浓度和剂量率是两个重要的因素。利用γ射线在不同的剂量率下对不同浓度的质粒DNApUC19水溶液进行了辐照,利用凝胶电泳对辐照后的样品进行分析。结果表明,在同一剂量下被辐照的DNA样品,随浓度的降低DNA损伤越来越严重;通过分析软件和理论公式得到的每个DNA上的双链断裂数随着DNA浓度的变化呈现为非线性趋势。

人类染色体8q24.1带特异性微小卫星DNA的筛选

本研究运用人类高分辨染色体显微切割、ＰＣＲ技术获得的８ｑ２４．１带特异性探针池，构建了该区带的ｐＵＣ１９文库，从中筛选出４８个含ＣＡ重复顺序的微小卫星ＤＮＡ的克隆，已完成１２个克隆的序列分析，发现了一个世界上至今未曾报道过的、在正常人群中已检出１１个等位片段的、杂合度在中国汉族人群和美国盎格鲁撤克逊族人群中分别达０．８４和０．８３的高度多态的微小卫星ＤＮＡ（编号：Ｄ８Ｓ７Ｆ），经ＰＣＲ检测人鼠杂种细胞系列，证实其来源于人８号染色体。

一株基因克隆干扰菌的鉴定及其发酵液降解DNA活性分析

旨在寻找导致基因克隆失败的原因,检测整个电泳环境中是否存在对DNA有强降解力的菌株。依据菌体形态,革兰氏反应以及16S rDNA序列对DNA降解菌株进行鉴定,琼脂糖凝胶电泳分析菌株对DNA的降解活性。结果显示,从DNA电泳槽中分离到了一株菌,革兰氏染色鉴定为阴性菌,对该菌进行液体培养,利用质粒pUC19作为底物,检测该菌发酵液对DNA的降解能力,发现该菌发酵液能够迅速并彻底地降解DNA,其最佳降解温度为45℃,将该菌命名为DD(DNA degrading)。对该菌的16S rDNA进行测序比对后,发现其与粘质沙雷氏菌(Serrtia marcescens)的16S rDNA序列同源性高达100%。结合菌体形态,革兰氏反应以及16S rDNA序列结果,DD菌株为一株粘质沙雷氏菌,DNA降解活性分析显示其具有很强的DNA降解能力。

二乙烯三胺多齿配体的合成及DNA的切割活性

为了得到具有核酸切割功能的人工核酸酶,设计合成了二乙烯三胺单齿、双齿、四齿配体,目标化合物的结构经红外、核磁氢谱、碳谱和电喷雾质谱确认。在磷酸氢钠-磷酸二氢钠缓冲溶液中对质粒DNA切割活性的初步实验结果表明:在多齿配体的锌(Ⅱ)配合物存在下,37℃保温48 h后,质粒DNA由Form Ⅰ断裂为Form Ⅱ,即合成的目标化合物有明显的切割活性。通过T4连接酶实验证明了目标化合物对DNA的切割为水解切割机制。