共查询到12条相似文献,搜索用时 125 毫秒
1.
发菜藻胆体的分离和光谱特性的研究 总被引:2,自引:0,他引:2
完整藻胆体和不完整藻胆体的吸收峰都在618nm。完整藻胆体的室温荧光峰位于670nm以上,而不完整藻胆体则在670nm以下。完整藻胆体的77K荧光发射光谱中只有648nm一个荧光发射带;而在不完整藻胆体,则有2个或3个发射带,它们位于684nm,666nm和648nm,依次属于别藻蓝蛋白-B,别藻蓝蛋白和C-藻蓝蛋白的荧光。 相似文献
2.
完整藻胆体和不完整藻胆体的吸收峰都在618nm。完整藻胆体的室温荧光峰位于670nm 以上,而不完整藻胆体则在670nm以下。完整藻胆体的77K荧光发射光谱中只有648nm一个荧光发射带;而在不完整藻胆体,则有2个或3个发射带,它们位于684nm,666nm和648nm, 依次属于别藻蓝蛋白 — B,别藻蓝蛋白和C — 藻蓝蛋白的荧光。 相似文献
3.
完整藻胆体的室温荧光峰位于678nm附近,而不完整藻胆体其峰位于673nm以下。在液氮温度下,完整藻胆体的F686与F666相对荧光强度比值超过10,F686与F655之比值超过20。不完整藻胆体的F686与F666和F686与F655之比值远低于完整藻胆体。可用室温荧光峰的波长位置和液氮温度下F686与F655和F666的相对荧光强度比值来判断藻胆体的完整性和解离程度。而液氮温度下F686与F655,F666之比值是更灵敏的指标。
相似文献
4.
多变鱼腥藻藻胆体的分离和荧光鉴定其完整性与解离程度 总被引:6,自引:0,他引:6
完整藻胆体的室温荧光峰位于678nm附近,而不完整藻胆体其峰位于673nm以下。在液氮温度下,完整藻胆体的F686与F666相对荧光强度比值超过10,F686与F655之比值超过20。不完整藻胆体的F686与F666和F686与F655之比值远低于完整藻胆体。可用室温荧光峰的波长位置和液氮温度下F686与F655和F666的相对荧光强度比值来判断藻胆体的完整性和解离程度。而液氮温度下F686与F655,F666之比值是更灵敏的指标。 相似文献
5.
多变鱼腥藻(Anabaena variabilis)藻胆体一类囊体膜的吸收峰位于678,624,490,438和418nm.当用580nm波长光激发藻胆体一类囊体膜中藻胆蛋白时,室温荧光峰位于662nm,在680nm附近有一肩;液氮温度荧光峰位于655,666,695和730nm.这说明藻胆蛋白捕获的光能能有效地传给叶绿素a.当用436nm波长光激发藻胆体一类囊性膜中叶绿素a时,室温荧光峰(?)于683nm;液氮温室荧光峰在730nm,另一小峰在695nm.表明叶绿素a捕获的光能不能传递给藻胆蛋白.藻胆体一类囊体膜放氧速率为245μmoleO_2/小时,毫克叶绿素,电境照片显示在类囊体膜上有大量藻胆体.用0.3M蔗糖,O.05M磷酸缓冲溶液洗藻胆体一类囊体膜,能使藻胆体与类囊体膜分开.对藻胆体与类囊体之间的光能传递进行了讨论. 相似文献
6.
多变鱼腥藻(Anabaena variabilis)藻胆体——类囊体膜光能传递的研究 总被引:2,自引:1,他引:1
多变鱼腥藻(Anabaena variabilis)藻胆体一类囊体膜的吸收峰位于678,624,490,438和418nm.当用580nm波长光激发藻胆体一类囊体膜中藻胆蛋白时,室温荧光峰位于662nm,在680nm附近有一肩;液氮温度荧光峰位于655,666,695和730nm.这说明藻胆蛋白捕获的光能能有效地传给叶绿素a.当用436nm波长光激发藻胆体一类囊性膜中叶绿素a时,室温荧光峰(?)于683nm;液氮温室荧光峰在730nm,另一小峰在695nm.表明叶绿素a捕获的光能不能传递给藻胆蛋白.藻胆体一类囊体膜放氧速率为245μmoleO_2/小时,毫克叶绿素,电境照片显示在类囊体膜上有大量藻胆体.用0.3M蔗糖,O.05M磷酸缓冲溶液洗藻胆体一类囊体膜,能使藻胆体与类囊体膜分开.对藻胆体与类囊体之间的光能传递进行了讨论. 相似文献
7.
研究了层理鞭枝藻藻胆体在不同浓度磷酸缓冲溶液中解离过程中荧光发射光谱的变化和光能传递。完整藻胆体的77K荧光光谱中只有一个峰,位于685nm它是末端发射体(核心-膜连接多肽和别藻蓝蛋白-B)的荧光峰。部分解离藻胆体的荧光光谱的主峰位移至652nm:次峰位于685nm;660nm为一弱荧光发射肩。它们依次为C-藻蓝蛋白,末端发射体和别藻蓝蛋白的荧光。严重解离藻胆体的荧光主峰移644nm;次峰由685nm移至682nm;660nm荧光发射肩消失。这表明C-藻蓝蛋白所捕获的光能已不能传递给别藻蓝蛋白,但可传递给末端发射体洞时又表明C-藻蓝蛋白不仅与别藻蓝蛋白相连接而且还与末端发射体相连接。提出该藻胆体光能传递链如下:核心-膜连接多肽藻红蓝蛋白→C-藻蓝蛋白→别藻蓝蛋白别藻蓝蛋白-B 相似文献
8.
螺旋藻(Spirulina platensis)藻胆体在解离过程中荧光发射光谱和光能传递的研究 总被引:1,自引:0,他引:1
对螺旋藻(Spirulinaplatensis)藻胆体在室温和77K处于不同浓度磷缓冲溶液和不同解离时间的荧光发射光谱进行了研究。藻胆体在0.9mol/L磷酸缓冲溶液中,由于没有发生解离,光能传递效率高,在77K荧光发射光谱中只有一个峰,位于687nm,属于别藻蓝蛋白-B。当藻胆体悬浮在0.3mol/L磷酸缓冲溶液中1分钟,77K荧光光谱的主峰出现在684nm.又出现655nm和666nm荧光峰,它们依次属子C-藻蓝蛋白和别藻蓝蛋白。在2小时;655nm荧先峰成为主峰,684nm荧光峰为次峰,666nm荧光肩消失。这表明C-藻蓝蛋白所捕获的先能已不能传递给别藻蓝蛋白,但能传给别藻蓝蛋白-B。我们提出在螺旋藻藻胆体中存在两类C-藻蓝蛋白,一是与别藻蓝蛋白相连接,另一是与别藻蓝蛋白-B相连接。 相似文献
9.
螺旋藻(Spirulina platensis)藻胆体在解离过程中荧光发射光谱和光能传递的研究 总被引:1,自引:0,他引:1
对螺旋藻(Spirulinaplatensis)藻胆体在室温和77K处于不同浓度磷缓冲溶液和不同解离时间的荧光发射光谱进行了研究。藻胆体在0.9mol/L磷酸缓冲溶液中,由于没有发生解离,光能传递效率高,在77K荧光发射光谱中只有一个峰,位于687nm,属于别藻蓝蛋白-B。当藻胆体悬浮在0.3mol/L磷酸缓冲溶液中1分钟,77K荧光光谱的主峰出现在684nm.又出现655nm和666nm荧光峰,它们依次属子C-藻蓝蛋白和别藻蓝蛋白。在2小时;655nm荧先峰成为主峰,684nm荧光峰为次峰,666nm荧光肩消失。这表明C-藻蓝蛋白所捕获的先能已不能传递给别藻蓝蛋白,但能传给别藻蓝蛋白-B。我们提出在螺旋藻藻胆体中存在两类C-藻蓝蛋白,一是与别藻蓝蛋白相连接,另一是与别藻蓝蛋白-B相连接。 相似文献
10.
研究了层理鞭枝藻胆体在不同浓度磷酸冲溶液中解离过程中荧光发射光谱的变化和光能传递,完整藻胆体的77K荧光光谱中只有一个峰,位于685nm,它是末端发射体(核心-膜连接多肽和别蓝蛋白-B)的荧光峰,部分解离藻胆体的荧光光谱的主峰位移至652nm,次峰位于685nm;660nm为一弱荧光发射肩,它们依次为C-藻蓝蛋白,末端发射体和别藻蓝蛋白的荧光。严重解离藻胆体的荧光主峰移至644nm;次峰由685n 相似文献
11.
Spectral changes in fluorescence of phycobilisomes (PBS) of A. variabilis treated with proteinase K were studied at room and liquid nitrogen temperature. In control PBS, the relative yield of 77 K fluorescence of F686 was very high, and those of F655 and F666 were low. In PBS treated with proteinase K for less than 1 h, F686 decreased, and F655 and F666 increased. In PBS treated with proteinase K for 2 h, F655 was the main peak of fluorescence emission, F686 was the second peak, the fluorescence emission peak of F666 disappeared. In PBS treated with proteinase K for more than 8 h, F655 showed only one fluorescence emission peak.We suggested that phycobiliporteins in the PBS of A. variabilis constitute an energy transfer chain, shown as follows:{fx91-1}The linkages between APC and APC-B, C-PC and APC, and C-PC and APC-B had different sensitivity towards proteinase K. 相似文献
12.
Since akinete germination is triggered by light and the action spectrum for this process has features in common with the spectra of the two photochromic pigments, phycochromes b and d, a search was made for the presence of these phycochromes in akinetes of the blue-green alga. Anabaena variabilis Kützing. Allophycocyanin-B was also looked for, since the action spectrum for akinete germination points to a possible participation of this pigment too. Isoelectric focusing was used for purification of the pigments. The different fractions were investigated for phycochromes b and d by measuring the absorbance difference spectra: for phycochrome b. 500 nm irradiated minus 570 nm irradiated, and for phycochrome d, 650 nm irradiated minus 610 nm irradiated. For determination of allophycocyanin-B. fourth derivative analysis of absorption spectra was made for some of the fractions from the isoelectric focusing column. Phycochrome b was also assayed for by measuring in vivo absorption difference spectra. The assays were positive for all three pigments. The complete photosynthetic pigment systems were also studied by in vivo fluorescence measurements on both akinetes and vegetative cells of Anabaena variabilis. Fluorescence emission and excitation spectra at selected emission wavelengths were measured at room temperature and liquid nitrogen temperature. The energy transfer from phycoerythrocyanin to phycocyanin is very efficient under all conditions, as is the energy transfer from phycocyanin to allophycocyanin at room temperature. At low temperature, however, phycocyanin is partly decoupled from allophycocyanin, particularly in the akinetes; the energy transfer from allophycocyanin to chlorophyll a is less efficient at low temperature in both types of cells, but especially in akinetes. Delayed light emission was measured for both types of cells and found to be very weak in akinetes compared to vegetative cells. From this study it would seem that akinetes lack an active photosystem II, although the 691 nm peak in the 570 nm excited low temperature fluorescence emission spectrum proves the presence of photosystem II chlorophyll, and also its energetic connection to the phycobilisomes. 相似文献