Affecting the activity of soybean lipoxygenase-1

Hanqing Wu
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引用次数: 27

Abstract

The iron content in soybean lipoxygenase-1 is important for enzyme activity. If the iron is removed by a chelating agent, the activity of the enzyme will decrease. The active center includes the iron ligands and the surrounding environment, and any conformational change in the active center may affect the activity of the enzyme. It is shown that the activity of soybean lipoxygenase-1 is enhanced by chloride anion, phosphate, formate, borate, etc., especially at a lower concentration of substrate. It is also shown that one of four thiols in soybean lipoxygenase-1 is accessible to DTNB at 0.1% SDS without losing great activity, and that all four thiols are accessible to DTNB at 1% SDS and lose all activity. Two or three of the four thiols are accessible to mercuric cyanide without losing great activity. These results support the hypothesis that only one, or possibly two cysteines are responsible for the loss of activity. Two-substrate and two-product binding site models are proposed here and discussed in view of high-resolution X-ray crystal structure.

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影响大豆脂氧化酶-1活性的研究
大豆脂氧化酶-1中铁的含量对酶的活性有重要影响。如果铁被螯合剂除去,酶的活性就会降低。活性中心包括铁配体和周围环境,活性中心的任何构象变化都可能影响酶的活性。结果表明,氯阴离子、磷酸盐、甲酸盐、硼酸盐等均能增强大豆脂氧合酶-1的活性,尤其是在较低浓度的底物条件下。大豆脂氧合酶-1中的4种硫醇在0.1% SDS条件下可被DTNB接近而不丧失活性;在1% SDS条件下,4种硫醇均可被DTNB接近而丧失活性。四种硫醇中的两种或三种可以被氰化物汞接触而不会失去很大的活性。这些结果支持了只有一种或可能是两种半胱氨酸导致活动丧失的假设。本文提出了双底物和双产物结合位点模型,并从高分辨率x射线晶体结构的角度进行了讨论。
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