摘要:砷是环境中的主要污染物,粮⾷中积累的砷不断升⾼,植物络合素是植物体内⼀种最有效的解毒物质,这类巯基化合物通过与有毒元素络合来进⾏解毒,植物络合素含量⼀般通过液相⾊谱测定,本试验利⽤植物络合素标准物质,通过改变各种试验条件来检测标样和样品中各种-SH化合物的分离效果,并测定标样的回收率来检验测定⽅法的准确度,通过对样品提取阶段和衍⽣化阶段不同实验条件设定发现,提取质量和衍⽣化过程中TCEP的浓度对于实验的准确度有着重要影响,加标回收试验得到了PCs分离和测定的最优实验条件(0.3g-tcep50mmol/L)。利⽤该条件分析了砷处理不同时间后晋麦85根系中PCs的种类和含量,发现砷胁迫下,苗期、分蘖期和拔节期⼩麦根系中PC2和PC3的含量均显著增加。25304
毕业论文关键词:砷;植物络合素;超⾼效液相⾊谱;回收率;⼩麦
Phytochelatins in wheat response to arsenic stress and its measurements
Abstract:Arsenic is the main pollutant in the environment, the accumulation of arsenic in food is rising,
plant pheromone is one of the most effective detoxification substances in plants, such mercapto compounds
can combine with toxic elements complex to detoxify.The content of the phytochelatins is generally
determined by liquid chromatography. In this experiment, the plant cotrimins standard material was used to
detect the separation effect of various compounds in the samples and changing the various test conditions.
The accuracy of the method was determined by the different experimental conditions of the sample
extraction stage and the derivatization stage. The concentration of TCEP in the extraction quality and
derivatization process had an important effect on the accuracy of the experiment. The calibration was
carried out. The optimum experimental conditions (0.3g-tcep50mmol / L) were determined. The results
showed that the contents of PC2 and PC3 in root system of wheat were significantly increased under
arsenic stress, seedling stage, tillering stage and jointing stage.
Key words: arsenic;phytochelidin;UPLC;Recovery rate; Wheat
目录
摘要 1
关键词 1
Abstract 1
Key words 1
引⾔ 1
1 材料与⽅法 2
1.1标准液的配制 2
1. 2苗期⼩麦的培养与处理 2
1.3 ⼩麦长期溶液培养 2
1.4 植物组织中 PCs 的提取及其柱前衍⽣化反应 . 2
1.5 样品提取条件优化 3
1.6 加标回收试验 3
1.7试验结果的收集和处理 3
2 结果与分析 3
2.1 标准曲线的制作 3
2.2 不同试验条件对不同-SH化合物分离结果的影响 4
2.3 加标回收率的测定 8
2.4 植物络合素对于植物砷胁迫的响应 8
3 讨论9
3.1 提取质量和TCEP浓度对UPLC测定的影响 9
3.2加标回收试验验证最优实验条件 10
3.3 其他实验条件对试验结果的影响 10
3.4 植物络合素对于植物砷胁迫的响应 10
致谢. 10
参考⽂献. 10引⾔ 砷是⼟壤中主要污染物之⼀。在污染的⼟壤上⽣长的粮⾷作物中砷的积累量较⾼,已经威胁到⼈类健康。植物络合素(phytochelatins PCs)是植物体内重要的重⾦属结合多肽,根系中的PCs可与重⾦属结合从⽽减少重⾦属向地上部的转运。植物络合素(phytochelatins, PCs)⼴泛分布于植物界,它是植物响应重⾦属胁迫时细胞质中合成的⼀类低分⼦多肽,其化学结构为(γ-Glu-Cys)n-Gly(n常为2-5),富含巯基[1],其分⼦量⼀般为1.5-4.0 KD。PCs⼴泛分布于植物、藻类及真菌中PCs⾸次是从粟酒裂殖酵母 植物络合素在小麦响应砷胁迫过程中的作用及其测定方法:http://www.youerw.com/shengwu/lunwen_19004.html