汞、铜和锌对鲣鱼对氧磷酶(PON)活性的影响

Busra Sahin, S. Çenesiz
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引用次数: 0

摘要

由于我们在环境污染中经常遇到的重金属污垢通过生化酶反应对生物体产生有害影响,本研究研究了环境污染中常见的汞(Hg+2)、铜(Cu+2)和锌(Zn+2)重金属离子对鲣鱼肌肉组织PON(对氧氧化酶)酶活性的影响。在研究中,25鲣鱼(S. sarda)的肌肉组织新鲜获得的三顺地区的海。通过添加不同体积的重金属溶液来测定PON酶活性的变化。不同体积下Hg+2重金属离子的PON酶活性分别为30.9383 U/mLdak、29.0598 U/mLdak、26.3799 U/mLdak、23.9443 U/mLdak、20.6725 U/mLdak,不同体积下Cu+2重金属离子的PON酶活性分别为19.7949 U/mLdak、19.4807 U/mLdak、19.1864 U/mLdak、19.1200 U/mLdak、18.9037 U/mLdak,不同体积下Zn+2重金属离子的PON酶活性分别为23.8305 U/mLdak、23.0781 U/mLdak、22.9073 U/mLdak,22.4324 U/mLdak, 21.8159 U/mLdak。根据这些获得的数据,计算活性(%)值并绘制活性(%)图。研究结果确定,Cu+2和Zn+2重金属离子浓度的增加会导致PON酶活性的降低,但不同浓度之间的差异无统计学意义。结果表明,Hg+2重金属离子浓度的升高对PON酶活性有抑制作用,不同浓度对PON酶活性的影响有统计学意义(p < 0.05)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of mercury, copper, and zinc on paraoxonase (PON) enzyme activity in Bonito (Sarda sarda) fish
Since heavy metal dirtiness, which we frequently encounter in environmental pollution causes harmful effects on the organism through biochemical enzyme reactions, in this study, the effects of mercury (Hg+2), copper (Cu+2), and zinc (Zn+2) heavy metal ions, which are common in environmental pollution, on PON (paraoxonase) enzyme activity in muscle tissue of bonito (Sarda sarda) were investigated. In the study, 25 bonito (S. sarda) fish muscle tissues freshly obtained from the Samsun region sea were used. The changes in PON enzyme activity were determined by adding different volumes of heavy metal solutions. PON enzyme activities of Hg+2 heavy metal ion used in different volumes were calculated as 30.9383 U/mLdak, 29.0598 U/mLdak, 26.3799 U/mLdak, 23.9443 U/mLdak, 20.6725 U/mLdak, PON enzyme activities of Cu+2 heavy metal ion used in different volumes were calculated as 19.7949 U/mLdak, 19.4807 U/mLdak 19.1864 U/mLdak, 19.1200 U/mLdak, 18.9037 U/mLdak and PON enzyme activities of Zn+2 heavy metal ion used in different volumes were calculated as 23.8305 U/mLdak, 23.0781 U/mLdak, 22.9073 U/mLdak, 22.4324 U/mLdak, 21.8159 U/mLdak. As a result of these obtained data, activity (%) values were calculated and activity (%) graphs were drawn. As a result of the study, it was determined that increasing concentrations of Cu+2 and Zn+2 heavy metal ions caused a decrease in PON enzyme activity, but there was no statistically significant difference between the different concentrations used. It was determined that increasing concentrations of Hg+2 heavy metal ion inhibited the PON enzyme activity, caused a statistically significant decrease between the activities depending on the different concentrations used (p < 0.05).
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