phycobilisome

  • 网络藻胆体;藻胆蛋白体
phycobilisomephycobilisome
  1. Linker proteins play an important role in the phycobilisome assembly and energy-transformation modification .

    连接蛋白在藻胆体的组装和能量传递中起重要作用。

  2. Isolation and spectroscopic studies of phycobilisome core

    藻胆体核心的分离和光谱研究

  3. Studies on the Paths of Energy Transfer in the Rod Core Complex of Phycobilisome

    藻胆体杆核复合物的能量传递途径研究

  4. Observation of the phycobilisome 's morphology with scanning tunnelling microscope

    用扫描隧道显微镜(STM)对藻胆体形貌的观察

  5. Energy Transfer among Proteins in the Phycobilisome of Red Algae ⅰ . Energy Transfer in Synthesized Complex of R PC / APC

    红藻藻胆体内部蛋白间的能量传递研究Ⅰ.人工合成R-PE/R-PC/APC复合物内的能量传递

  6. The reconstitution of the phycobilisome core with the phycocyanin from Spirulina platensis was made .

    用钝顶螺旋藻进行了藻胆体核心和藻蓝蛋白重组的研究。

  7. Artificial conjugate is more stable than natural phycobilisome in low ion strength and low temperature ( 40C ), but efficiency of energy transfer is comparatively lower .

    人工构建的交联物和天然的藻胆体相比,对低离子强度和低温(4℃)更为稳定,但能量传递效率相对较低。

  8. The Structure-Function Relationship of Core Complexes in Phycobilisome (ⅱ) ── Studies on Chromophore-Chromophore Interactions in Four Allophycocyanin Complexes

    藻胆体核心复合物结构与功能的研究(Ⅱ)&4种变藻蓝蛋白复合物发色团相互作用机制

  9. In vivo , the process of phycobilisome assembly and the phycobiliprotein biosynthesis is highly ordered and catalyzed by a series of enzymes .

    在体内,藻胆体的装配和藻胆蛋白的生物合成是一个高度有序的过程,需要各种酶的催化。

  10. The result of the 77K fluorescence emission spectrum of the reconstituted complex of the phycobilisome core with the phycocyanin also indicated that the phycocyanin and the phycobilisome core had reconstituted .

    在液氮温度荧光发射光谱中,其结果也表明藻蓝蛋白与藻胆体核心发生了重组。