Optimization Tests of Antagonistic Interaction between Lead / Iron and Lead / Zinc, IN-VITRO Investigations on the Plant: PHASEOLUS VULGARIS

N. Sahraoui, A. Tamrabet, M. Abdedaim, F. Hamriche
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Abstract

Lead pollution is a global problem, currently under a general awareness. Recent research has confirmed the impact of this pollutant in exposed organisms. Emission sources of lead are multiples and more particularly the emissions of exhaust gases of vehicles because of its use as Tetraethyl lead  Pb (C2H5)4 was the main constituent of antiknock agents added to gasoline to increase the octane rating.  Knowing that exposure to lead causes lead poisoning, the reflection on the modalities of detoxification needed. It is in this vein that we try to offer our looking for away to detoxification by means of the interaction between lead and iron on one side and lead and zinc of another side of the plant in vitro “PHASEOLUS VULGARIS”. In order to determine the most reliable results in terms of limitations of the toxic effects of lead exposure on the plant in other words antagonism. The choice of iron and zinc is justified by their biological role, in addition they are desired item
铅/铁和铅/锌拮抗相互作用的优化试验——以菜豆为研究对象
铅污染是一个全球性的问题,目前已经引起了普遍的认识。最近的研究证实了这种污染物对暴露的生物体的影响。铅的排放源是多重的,特别是汽车尾气的排放,因为它作为四乙基铅的使用,铅(C2H5)4是添加到汽油中的抗爆剂的主要成分,以提高辛烷值。认识到接触铅会导致铅中毒,需要对解毒方式进行思考。正是在这种情况下,我们试图通过在离体植物“PHASEOLUS VULGARIS”中一边的铅和铁以及另一边的铅和锌之间的相互作用来寻找解毒的途径。为了确定最可靠的结果关于铅暴露对植物的毒性作用的限制,也就是拮抗作用。铁和锌的选择是合理的,因为它们的生物学作用,此外,它们是理想的项目
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