Pflanzenphysiologisches Institut der Universität, Bern, Switzerland.
Plant Physiol. 1988 Dec;88(4):1407-10. doi: 10.1104/pp.88.4.1407.
Plants cultivated with Cd can produce large amounts of phytochelatins. Since these compounds contain much cysteine, these plants should have an increased rate of assimilatory sulfate reduction, the biosynthetic pathway leading to cysteine. To test this prediction, the effect of Cd on growth, sulfate assimilation in vivo and extractable activity of two enzymes of sulfate reduction, ATP-sulfurylase (EC 2.7.7.4) and adenosine 5'-phosphosulfate sulfotransferase were measured in maize (Zea mays L.) seedlings. For comparison, nitrate reductase activity was determined. In 9-day-old cultures, the increase in fresh and dry weight was significantly inhibited by 50 micromolar and more Cd in the roots and by 100 and 200 micromolar in the shoots. Seedlings cultivated with 50 micromolar Cd for 5 days incorporated more label from (35)SO(4) (2-) into higher molecular weight compounds than did controls, indicating that the predicted increase in the rate of assimilatory sulfate reduction took place. Consistent with this finding, an increased level of the extractable activity of both ATP-sulfurylase and adenosine 5'-phosphosulfate sulfotransferase was measured in the roots of these plants at 50 micromolar Cd and at higher concentrations. This effect was reversible after removal of Cd from the nutrient solution. In the leaves, a significant positive effect of Cd was detected at 5 micromolar for ATP-sulfurylase and at 5 and 20 micromolar for adenosine 5'-phosphosulfate sulfotransferase. At higher Cd concentrations, both enzyme activities were at levels below the control. Nitrate reductase (EC 1.6.6.1) activity decreased at 50 micromolar or more Cd in the roots and was similarly affected as ATP-sulfurylase activity in the primary leaves.
植物在镉的作用下可以产生大量的植物螯合肽。由于这些化合物含有大量的半胱氨酸,因此这些植物应该具有更高的同化硫酸还原率,这是通向半胱氨酸的生物合成途径。为了验证这一预测,我们在玉米(Zea mays L.)幼苗中测定了 Cd 对生长、体内硫酸盐同化以及两种硫酸盐还原酶(ATP-硫酸化酶(EC 2.7.7.4)和腺苷 5'-磷酸硫酸转移酶)的可提取物活性的影响。为了进行比较,还测定了硝酸还原酶的活性。在 9 天大的培养物中,根中 50 微摩尔及以上的 Cd 和茎中 100 和 200 微摩尔的 Cd 显著抑制了鲜重和干重的增加。用 50 微摩尔 Cd 培养 5 天的幼苗比对照植物更多地将(35)SO(4)(2-)掺入高分子量化合物中,表明预测的同化硫酸还原率增加了。这一发现与在这些植物的根部测量到的 ATP-硫酸化酶和腺苷 5'-磷酸硫酸转移酶的可提取物活性均增加的结果一致,在 50 微摩尔 Cd 和更高浓度下均观察到这种情况。从营养液中去除 Cd 后,这种效应是可逆的。在叶片中,在 5 微摩尔 Cd 时检测到 ATP-硫酸化酶的显著正效应,在 5 和 20 微摩尔 Cd 时检测到腺苷 5'-磷酸硫酸转移酶的显著正效应。在更高的 Cd 浓度下,两种酶的活性均低于对照水平。根中 50 微摩尔或更高的 Cd 会降低硝酸还原酶(EC 1.6.6.1)的活性,并且与初级叶片中的 ATP-硫酸化酶活性受到相似的影响。