光合磷酸化

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  • photophosphorylation;photosynthetic phosphorylation
光合磷酸化光合磷酸化
  1. 高施磷量(P2O5375kg/hm2)时,旗叶的叶绿素b含量(Chlb)减少、希尔反应和非环式光合磷酸化活性受到抑制,对磷肥的响应规律基本一致。

    Under high phosphorus level ( 375 kg / ha ), Chlb content , Hill reaction and non-cycle photophosphorylation activities of flag leaves were retarded , and these parameters showed a similar regularity change indicating they were more sensitive to phosphorus than the other parameters determined .

  2. 研究了红霉素对叶绿体能量转换的效应,获知:10(-4)M红霉素抑制循环和非循环光合磷酸化,这种抑制是与反应底物ADP非竞争性的。

    The effects of erythromycin on energy-transducing functions of chloroplasts were investigated . The following results were obtained : 1 . At the concentration of 10 ~ ( - 4 ) M , erythromycin inhibited both cyclic and noncyclic photophosphorylation in isolated spinach chloroplasts .

  3. (Zn·Cd)S:Ag-KI催化的光合磷酸化

    The photophosphorylation catalyzed by ( Zn · CD ) s : Ag - ki

  4. 铝主要积累在根部,少部分转移到地上部分。5.0ppm以上的铝对叶绿体Hill反应和光合磷酸化作用以及根线粒体呼吸和氧化磷酸化作用均有较明显抑制作用。

    Aluminium inhibited the Hill reaction and photophosphorylation of chloroplasts as well as the respiration and oxidative phosphorylation of mitochondria in roots .

  5. 从试验结果还可看出,非环式光合磷酸化与希尔反应活性及ATP酶活性呈明显的正相关。

    The activities of non-cyclic PSP showed significant positive correlation with the activities of Hill reaction and ATPase .

  6. 这现象可能是造成变绿初期测得的非循环光合磷酸化ATP形成能力特别低的原因。

    This phenomenon may have some relation to the extraordinarily low capacity of ATP formation of noncyclic photophosphorylation at the early stage of greening .

  7. LaCl3、PrCl3对叶绿体光合磷酸化偶联因子活性影响的研究

    Influence of lacl_3 and prcl_3 on photophosphorylation coupled factor active

  8. LaCl3和PrCl3对菠菜离体叶绿体光合磷酸化作用的影响

    Effect of LaCl_3 , PrCl_3 on Photophosphorylation of Spinach Chloroplasts

  9. 黄化幼苗变绿时,同化CO2能力之发生时间与光合磷酸化活力之发生时间差别不大,但以叶绿素为基础计算,前者的活力较早达到恒定。

    During greening of etiolated wheat seedlings , the appearance of CO_2 assimilation was approximately simultaneous to that of the photophosphorylation capacity , but the activity calculated on chlorophyll basis , seemed to reach a maximum much earlier .

  10. 光合磷酸化偶联机制研究&Ⅸ.抗生素HP-1对光合磷酸化的解联作用

    Studies on the coupling mechanism of photophosphorylation ⅸ . the uncoupling effect of antibiotic hp-1 on photophosphorylation

  11. 叶绿体的电子传递和光合磷酸化

    Photosynthetic Electron Transport and Photosynthetic Phosphorylation of Chloroplast

  12. 6-苄基氨基比林、激动素对水分胁迫条件下小麦旗叶光合磷酸化活力的影响

    Effect of 6-BA or KT on Photophosphorylation Activity in Wheat Flag Leaves Under Water Stress

  13. 非循环光合磷酸化中由水提供的电子被用来还原产物。

    Electrons from water involved in non cyclic photophosphorylation are used to reduce the added substance .

  14. 黄化小麦幼苗初变绿时,光合磷酸化活力之发生远较叶绿素的生成为迟。

    When etiolated wheat seedlings were illuminated , chlorophyll appeared immediately , but no photophosphorylation activity could be found .

  15. 用四环素处理菠菜的离体叶绿体,研究它对菠菜叶绿体的光合磷酸化作用和电子传递等反应的影响。

    The first study investigated the effects of tetracycline on photophosphorylation , electron transport and P / O ratio of spinach chloroplasts .

  16. 文中对此中间产物积聚与转化速度较光合磷酸化过程为慢的现象分析了它可能的原因,并且将此中间产物与叶绿醌的一些性貭的类似之处作了讨论。

    Possible reasons for the discrepancy in the velocities of the accumulation and transformation of the intermediates compared with that of the process of photophosphorylation are suggested and the similarities of the accumulated intermediates to plastoquinone are discussed .

  17. 土壤干旱对小麦绿色器官光合电子传递和光合磷酸化活力的影响

    Effect of Soil Drought on Electron Transport Rate and Photophosphorylation Level of Different Green Organs in Wheat

  18. 光合能量转换参数Hill反应和光合磷酸化活力也随叶片衰老进程逐渐降低,总的来看,染色体臂1BL,7BL,1BS,4BS,5BS和6BS对上述参数有负效应;

    The activity of parameters about energy exchange of photosynthesis , such as Hill reaction and photosynthetic phosphorylation decreased gradually during the leaf aging .

  19. 光合磷酸化的研究&XVII.循环光合磷酸化与短波光反应的关系

    Studies on photophosphorylation & xvii . relation between cyclic photophosphorylation and the short wave light reaction

  20. 光合磷酸化的研究Ⅲ.闪光下的光合磷酸化作用

    Studies on photophosphorylation III. photophosphorylation of chloroplasts in flashing light

  21. 光呼吸加强,乙醇酸氧化酶活性提高了7.52% ̄67.82%;光合磷酸化受到抑制,叶绿体光合磷酸化活性下降了24.46% ̄77.99%。

    The photophosphorylation activity and glycolate oxidase activity were decreased by 24.46 % ~ 77.99 % and 7.52 % ~ 67.82 % respectively .

  22. 光合磷酸化的研究&Ⅻ.细菌载色体的非循环光合磷酸化

    Studies on photophosphorylation & xii . non-cyclic photophosphorylation in chromatophores of photosynthetic bacteria

  23. 光合磷酸化的研究&ⅪⅤ.甘薯(Ipomaeabatatas)叶细胞制剂中的内源循环光合磷酸化作用

    Studies on photophosphorylation & ⅹⅳ . the identification of endogenous cyclic photophosphorylation in sweet potato ( ipomaea batatas ) leat cell preparations