Bekasova O D, Brekhovskikh A A
Biofizika. 2004 Jul-Aug;49(4):692-9.
The absorption and energy transfer between pigments in Nostoc muscorum by the action of 10(-4) M Cd2+, when the cyanobacterium remains viable, and in the presence of 10(-3) M Cd2+, which causes the death of cells during 3-4 weeks of incubation, were studied. A comparative study by the methods of absorption and fluorescence spectrophotometry at 295 and 77 K, including derivative spectroscopy and deconvolution of emission spectra into a number of Gaussian components, showed that, in the presence of 10(-4) M Cd2+, the energy transfer from phycobilisomes to chlorophyll of photosystem I increased. After incubation with 10(-3) M Cd2+, the energy transfer from phycobilisomes to chlorophyll of photosystem II decreased, and the transfer to photosystem I was absent. New bands in the absorption spectra, in the second derivative of absorption spectra, and in the fluorescence spectra at 77 K of cyanobacterium were observed after 7 days of incubation with cadmium. We belive that these bands are due to the formation of CdS particles and Cd-pigment complexes. The conclusion about the dual effect of Cd2+ on the functioning of the energy transfer chain in N. muscorum was derived.
研究了念珠藻在10⁻⁴ M Cd²⁺作用下(此时蓝藻仍具活力)以及在10⁻³ M Cd²⁺存在时(10⁻³ M Cd²⁺会在3 - 4周的培养过程中导致细胞死亡)色素之间的吸收和能量转移。通过在295 K和77 K下采用吸收和荧光分光光度法进行的比较研究,包括导数光谱法以及将发射光谱解卷积为多个高斯分量,结果表明,在10⁻⁴ M Cd²⁺存在时,从藻胆体到光系统I叶绿素的能量转移增加。在用10⁻³ M Cd²⁺孵育后,从藻胆体到光系统II叶绿素的能量转移减少,且不存在向光系统I的转移。在用镉孵育7天后,在蓝藻的吸收光谱、吸收光谱的二阶导数以及77 K下的荧光光谱中观察到了新的谱带。我们认为这些谱带是由于CdS颗粒和Cd - 色素复合物的形成。得出了Cd²⁺对念珠藻能量转移链功能具有双重作用的结论。