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photosynthetic energy conversion
相关语句
  光合能量转换
     The present paper reviewed the dynamic changes in thylakoid membranes during photosynthetic energy conversion, the regulation of ATP/NADPH ratio, the responses of primary reaction to changing light conditions, and the coordination between photosynthetic energy conversion and CO2 assimilation.
     本文主要综述了光合能量转换过程中类囊体膜的动态结构变化、同化力组分调节、光合作用原初反应对光照变化的响应及能量转换反应与二氧化碳同化过程的配合等。
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  “photosynthetic energy conversion”译为未确定词的双语例句
     ATP synthase is a key enzyme of photosynthetic energy conversion, which catalyzses ATP synthesis using a transmembrane proton motive force that is generated by the proton translocation coupling of the photosynthetic electron transport.
     本论文工作主要是研究四环素对光合磷酸化作用的促进作用及其在ATP合酶上的作用部位,和通过定点突变研究合酶中具有重要功能的ε亚基的结构与功能。
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  相似匹配句对
     The energy of D.
     根部能量的积累随放牧强度的提高而逐渐减少。
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     The energy of the N-
     N粒子的散射态和束缚态的能量分别为
短句来源
     Photosynthetic Efficiency
     光合作用效率
短句来源
     Photosynthetic unit
     光合单位
短句来源
     GENETIC ANALYSIS OF MAIN ECONOMIC AND PHOTOSYNTHETIC TRAITS IN ENERGY SUGARCANE
     能源甘蔗主要经济和光合性状的遗传分析
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  photosynthetic energy conversion
The mechanisms of these reactions and their implications for photosynthetic energy conversion are discussed.
      
In vitro models for photosynthetic energy conversion
      
Slippage in terms of photosynthetic energy conversion implies a less than theoretical stoichiometry of energy-transduction process(es) such as the dissipation of intermediates of O2 evolution and of ATP synthesis (H+/e- and H+/ATP ratios).
      
Discovery of pheophytin function in the photosynthetic energy conversion as the primary electron acceptor of Photosystem II
      
The biochemical isolation of pure and active proteins or chlorophyll protein complexes has been crucial for elucidating the mechanism of photosynthetic energy conversion.
      
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The hybrid rice Le/Qi from crossing US rice Lemont with South China rice Qiguizao possesses improved integrated photosynthetic capacity both in light interception and light conversion efficiency, comparing with its parents, Therefore, give remarkably higher solar energy use efficiency of 53%~62% and 8%~15% than Lemont and Qiguizao, respectively, both in Arkansas of USA and in Guangzhou of China. Extended experiments with 12 hybrid combinations from US rice and South China rice demonstrated that nearly all the...

The hybrid rice Le/Qi from crossing US rice Lemont with South China rice Qiguizao possesses improved integrated photosynthetic capacity both in light interception and light conversion efficiency, comparing with its parents, Therefore, give remarkably higher solar energy use efficiency of 53%~62% and 8%~15% than Lemont and Qiguizao, respectively, both in Arkansas of USA and in Guangzhou of China. Extended experiments with 12 hybrid combinations from US rice and South China rice demonstrated that nearly all the hybrids possessed remakably improved integrated photosynthetic capacity, quicker development of leaf area, as indicated by higher biomass production over US parents, and stronger capacity to scavenge toxic free radicals, therefore, giving higher efficiency of photosynthetic energy conversion under high light intensity over South China parents.

由美国水稻Lemont和中国华南水稻七桂早所组配成的杂种稻Le/Qi,既具有较高的光能截获能力,又具有较高的光能转化效率,其整体光合能力和亲本相比,得到了明显的改进。不论是在美国阿肯色州,还是在中国广州,Le/Qi较之Lemont及七桂早,光能利用率分别提高了53%~62%及8%~15%,比美国亲本具有明显为高的产量,比中国亲本明显提高了品质,增加了经济产值。利用由美国水稻和中国华南水稻所组配成的12对杂种组合进行扩大试验的结果表明,几乎所有杂种都显示了整体光合能力的明显改进,比美国亲本具有明显为快的叶面积发展能力,表现在明显为高的生物学产量上;比中国华南亲本具有明显增强了清除有害自由基的能力,从而提高了在高光强下的光合作用光能转化效率。

We compared the photosynthetic rate, CO 2 uptake curves of light saturation, Ruisco activities of plants grown under different CO 2 concentration in the air. The results show that under enriched CO 2 conditions plants occupied higher photosynthetic rate during the whole growth season and did not show any down regulation. The photosynthetic rate is constituted by 2 components, one of which is a CO 2 concentration dependant CO 2 uptake(Δ P c ) which changes with CO 2 concentration in the air, and the...

We compared the photosynthetic rate, CO 2 uptake curves of light saturation, Ruisco activities of plants grown under different CO 2 concentration in the air. The results show that under enriched CO 2 conditions plants occupied higher photosynthetic rate during the whole growth season and did not show any down regulation. The photosynthetic rate is constituted by 2 components, one of which is a CO 2 concentration dependant CO 2 uptake(Δ P c ) which changes with CO 2 concentration in the air, and the other is the structure of photosystem dependant CO 2 uptake(Δ P s ) that has a nature of photosynthetic energy conversion or electron transport, which is an adaptation of plant to the high CO 2 and does not change with the short term variation of concentration in the air. The CO 2 concentration determines the affinity to Rubisco, and the structure of photosystem effects the efficacy of photosynthetic electron transportaion. Thus influence of CO 2 on the photosynthetic rate(Δ P ) can be presented as the following:Δ P =Δ P c +Δ P s .

比较分析了植物光合同化 CO2 速率、Rubisco活性等性状对长期和短期高浓度 CO2 的反应 .结果表明 :所研究的植物在高浓度 CO2 下生长 ,可以长期保持高的 CO2 同化速率 ;长期在高浓度 CO2 下生长植物的光合速率增加有两个来源 ,其一 ,是 CO2 浓度增加而增加的底物浓度效应 (Δ Pc) ,它的大小随外界短期 CO2 浓度改变而改变 ,其二 ,是植物光合系统结构改变而提高光合能量转换或是电子传递效率所产生的光合速率增加 (ΔPs) ,它的大小不随外界短期 CO2 浓度变化而改变。植物光合速率对大气 CO2 浓度升高的增加量是上述两者之和

Photosynthesis is the most important chemical reaction on the earth, by which plants convert CO2, water and other inorganic materials to organic compounds and oxygen. Photosynthesis consists of a series of partial reaction steps. Photosynthetic apparatus operate adaptively in response to changing environment. The present paper reviewed the dynamic changes in thylakoid membranes during photosynthetic energy conversion, the regulation of ATP/NADPH ratio, the responses of primary reaction to changing light...

Photosynthesis is the most important chemical reaction on the earth, by which plants convert CO2, water and other inorganic materials to organic compounds and oxygen. Photosynthesis consists of a series of partial reaction steps. Photosynthetic apparatus operate adaptively in response to changing environment. The present paper reviewed the dynamic changes in thylakoid membranes during photosynthetic energy conversion, the regulation of ATP/NADPH ratio, the responses of primary reaction to changing light conditions, and the coordination between photosynthetic energy conversion and CO2 assimilation.

光合作用是地球上最重要的化学反应,由种类繁多、性质各异的反应步骤联系起来。要使光合机构在不断变化的环境中仍能适应运转,它需要随时协调各个部分反应间的关系。本文主要综述了光合能量转换过程中类囊体膜的动态结构变化、同化力组分调节、光合作用原初反应对光照变化的响应及能量转换反应与二氧化碳同化过程的配合等。

 
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