黑色素中的离子交换：使用镧系元素探针的电子自旋共振研究。

Ion-exchange in melanin: an electron spin resonance study with lanthanide probes.

作者信息

Sarna T, Hyde J S, Swartz H M

出版信息

Science. 1976 Jun 11;192(4244):1132-4. doi: 10.1126/science.179142.

Abstract

Changes are induced in the electron spin resonance signal amplitude and microwave power saturation of the naturally occurring free radical in melanin by bound paramagnetic ions. The changes serve as experimental observables in competition experiments between diamagnetic and paramagnetic metal ions for melanin binding sites and between melanin and ethylenediaminetetraacetic acid for paramagnetic metal ions. Evidence is presented for the existence of several specific types of metal binding sites. The interaction of copper with free radicals leading to loss of electron spin resonance signal amplitude is magnetic in nature and not, as has been supposed, chemical.

摘要

结合的顺磁性离子会引起黑色素中天然存在的自由基的电子自旋共振信号幅度和微波功率饱和度的变化。这些变化可作为抗磁性和顺磁性金属离子争夺黑色素结合位点以及黑色素和顺磁性金属离子争夺乙二胺四乙酸的竞争实验中的实验观测值。有证据表明存在几种特定类型的金属结合位点。铜与自由基的相互作用导致电子自旋共振信号幅度的损失，其本质是磁性的，而非如人们所认为的那样是化学性的。

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黑色素中的离子交换：使用镧系元素探针的电子自旋共振研究。

Ion-exchange in melanin: an electron spin resonance study with lanthanide probes.

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