photorespiration

photorespiration

1. When C3 plants are under environmental stress, photorespiration corresponds to metabolism which eludes the stress, especially when the environmental stress is severe.

C3植物在受到环境胁迫时，可以通过光呼吸协调代谢功能，在一定程度上发挥规避环境、尤其是极端环境胁迫的效应。

2. EBR did not influence photorespiration.

EBR未导致光呼吸的变化。

3. THE EFFECTS OF NITROGEN NUTRITION ON PHOTOSYNTHE SIS AND PHOTORESPIRATION OF JUTE LEAVES, WITH SPECICAL REFERENCE TO THE RELATION BETWEEN PHOTORESPIRATION AND NITRATE REDUCTION

不同氮素营养对黄麻叶片的光合作用、光呼吸的影响及光呼吸与硝酸还原的关系

4. Effects of Two Inhibitors of Photorespiration on Quality, Yield and Some Physiological Properties of Strawberry

两种光呼吸抑制剂对草莓若干生理指标及产量品质的影响

5. Glycolate oxidase (GLO) is a key enzyme in photorespiration metabolism.

乙醇酸氧化酶（Glycolate oxidase，简称GLO）是光呼吸代谢的关键酶，光呼吸可能在调控植物光合作用以及适应生物和非生物胁迫中起重要作用。

6. they experience decreased carbohydrate production under hot, dry conditions as a result of the effects of photorespiration.

他们经历减碳水化合物生产条件下炎热干燥的光呼吸的影响。

7. Photorespiration rate

光呼吸

8. It always accompanies photosynthesis.There are certein relationship between photosynthesis, photorespiration and biomass yield.

光呼吸和光合作用是伴随发生的，光合速率、光呼吸和作物产量三者之间存在一定的关系，从理论上讲，如光呼吸弱，净光合速率就大，产量也可能会高。

9. Photorespiration is a process that plants consume oxygen and release carbon dioxide in the light.

光呼吸（Photorespiration）是绿色植物在光下依赖氧气并释放CO2的过程。

10. Photosynthetic electron transport rate (JF) was the highest under 100%sunlight, accompanied by a high partitioning ratio to photorespiration (Jo/JF) (Fig.1, Table 1).

叶片总的非环式电子流速率及其分配到光呼吸的比例在100%光强下最高。

11. The co-operation of leaf orientation, photorespiration and thermal dissipation alleviate photoinhibition in young leaves of soybean plants

叶角、光呼吸和热耗散协同作用减轻大豆幼叶光抑制

12. Thus C4 plants lessen photorespiration by carrying out photosynthesis only in cells that are insulated from high levels of CO2.

因此C4植物减少光呼吸的光合作用仅在细胞免受高水平的二氧化碳。

13. Hence photorespiration of C3 plants under environmental stress leads to a new direction of research in environmental ecology and photorespiration.

因此，可通过调节C3植物的光呼吸规避环境胁迫，这为光呼吸研究在环境生态学领域的拓展指出新的方向。

14. Serine is also a product of photorespiration and other metabolic reactions.

在光呼吸和其它代谢反应的产物中也有丝氨酸的存在。

15. They are characterized by high carbon dioxide compensation points owing to PHOTORESPIRATION.

它们光呼吸很明显因而具有较高的二氧化碳补偿点。

16. Study on the Relationship Between the Photorespiration in Wheat Leaves and the Protein Accumulation in Wheat Seeds

小麦叶片光呼吸与蛋白质积累关系的研究

17. The Relation Between Photorespiration and Active Oxygen Species Accumulation in Wheat Seedlings

小麦幼苗光呼吸与活性氧累积的关系

18. Keywords drought stress;photorespiration;grapevine;xanthophyll cycle;photoinhibition.;

干旱胁迫;葡萄;光呼吸;叶黄素循环;光抑制;

19. The Long-term Adaptation of Low-light Type Dioscorea zingiberensis to Different Light: The Change of Photosynthesis Rate, Photorespiration and Electron Transfer Rate

弱光生态型盾叶薯蓣对不同光照的长期适应--光合速率、光呼吸和电子传递速率的变化

20. Discussion on Industrialization Development of Photorespiration Chemical Control Technique

我国光呼吸化学控制技术的产业化探讨

21. Photorespiration is an important metabolic process in C3 plants.

摘要光呼吸是C3植物体内重要的代谢过程。

22. Keywords Rice;2.3-epoxypropionic acid potassium;Photorespiration;Inhibition;

水稻;2．3-环氧丙酸钾;光呼吸;抑制剂;

23. Responses of Photorespiration to Chilling Stress in Rice with Different Chilling Tolerance

水稻不同耐冷品种光呼吸对低温的反应

24. The reduction of dissolved oxygen resulted in a decreased photorespiration in alga cells and hence an increased photosynthesis, and consequently an enhanced growth rate and biomass accumulation.

溶解氧的减少，使得藻细胞的光呼吸作用下降，光合作用速率提高，使藻细胞生物量增加。

25. and photorespiration.

相关条目 ...

26. AC reagent raises photosynthetic rate was related to decrease of nitrate reductase activity and appropriate inhibition of photorespiration.

研究指出：AC药剂增强光合速率与减小硝酸还原酶活性和适当抑制光呼吸有关。

27. It was further confirmed by a plotting with two competitive substrates.The oxidizing activity of GO towards glycerate might result in a futile cycle of NADH dissipation in photorespiration pathway.

结合植物光呼吸途径，推测GO氧化甘油酸这一活性可能与羟基丙酮酸还原酶共同作用，在羟基丙酮酸和甘油酸之间形成无效循环，导致植物体内主要还原力NADH的净消耗。

28. A balance is reached between the CO2 captured by photosynthesis and the one released by respiration and photorespiration.

被光合作用捕获以及因为呼吸和光呼吸所释放的CO2之间达到平衡。

29. Physiological Meaning and Control of Plant Photorespiration

试论植物光呼吸的生理意义及其调节控制

30. 18. The British team decided to look for a substance that would block the enzyme's function in photorespiration while allowing it to function in photosynthesis.

这个英国的科学家小组下决心寻找一种物质，这种物质能阻遏酶的光呼吸的功能，而让它发挥光合作用的功能。