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1
Control of Photosynthetic Sucrose Synthesis by Fructose 2,6-Bisphosphate : I. Coordination of CO(2) Fixation and Sucrose Synthesis.果糖-2,6-二磷酸对光合蔗糖合成的调控:I. 二氧化碳固定与蔗糖合成的协调
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2
Effect of N-source on soybean leaf sucrose phosphate synthase, starch formation, and whole plant growth.氮源对大豆叶片蔗糖磷酸合成酶、淀粉形成和植株整体生长的影响。
Plant Physiol. 1984 Jun;75(2):483-8. doi: 10.1104/pp.75.2.483.
3
Characterization of diurnal changes in activities of enzymes involved in sucrose biosynthesis.鉴定蔗糖生物合成过程中相关酶活性的昼夜变化。
Plant Physiol. 1983 Oct;73(2):428-33. doi: 10.1104/pp.73.2.428.
4
Changes in Photosystem II Account for the Circadian Rhythm in Photosynthesis in Gonyaulax polyedra.光合作用中光系统 II 的变化解释了聚球藻的昼夜节律。
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5
Regulation of Sucrose Synthesis by Cytoplasmic Fructosebisphosphatase and Sucrose Phosphate Synthase during Photosynthesis in Varying Light and Carbon Dioxide.在光照和二氧化碳变化条件下光合作用中细胞质果糖-1,6-二磷酸酶和蔗糖磷酸合成酶对蔗糖合成的调节。
Plant Physiol. 1983 Jul;72(3):767-74. doi: 10.1104/pp.72.3.767.
6
Role of sucrose-phosphate synthase in partitioning of carbon in leaves.蔗糖磷酸合酶在叶片碳分配中的作用。
Plant Physiol. 1983 Apr;71(4):818-21. doi: 10.1104/pp.71.4.818.
7
Biochemical Basis for Partitioning of Photosynthetically Fixed Carbon between Starch and Sucrose in Soybean (Glycine max Merr.) Leaves.大豆叶片中光合作用固定碳在淀粉和蔗糖之间分配的生化基础。
Plant Physiol. 1982 Mar;69(3):691-6. doi: 10.1104/pp.69.3.691.
8
A circadian rhythm in the rate of light-induced electron flow in three leguminous species.三种豆科植物中光诱导电子流速率的昼夜节律。
Plant Physiol. 1981 Nov;68(5):1041-6. doi: 10.1104/pp.68.5.1041.
9
Maintenance of High Photosynthetic Rates during the Accumulation of High Leaf Starch Levels in Sunflower and Soybean.在向日葵和大豆叶片淀粉积累过程中保持高光效。
Plant Physiol. 1980 Sep;66(3):528-31. doi: 10.1104/pp.66.3.528.
10
Day/Night Changes in the Sensitivity of Phosphoenolpyruvate Carboxylase to Malate during Crassulacean Acid Metabolism.景天酸代谢过程中磷酸烯醇式丙酮酸羧化酶对苹果酸敏感性的昼夜变化
Plant Physiol. 1980 May;65(5):792-6. doi: 10.1104/pp.65.5.792.

大豆叶片光合作用、蔗糖磷酸合成酶活性和气孔阻力的内源性节律。

Endogenous Rhythms in Photosynthesis, Sucrose Phosphate Synthase Activity, and Stomatal Resistance in Leaves of Soybean (Glycine max [L.] Merr.).

机构信息

United States Department of Agriculture, Agricultural Research Service, North Carolina State University Raleigh, North Carolina 27695-7631.

出版信息

Plant Physiol. 1985 Feb;77(2):275-80. doi: 10.1104/pp.77.2.275.

DOI:10.1104/pp.77.2.275
PMID:16664041
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1064502/
Abstract

Experiments were conducted with soybean (Glycine max [L.] Merr. cv ;Ransom') plants to determine if diurnal rhythms in net carbon dioxide exchange rate (CER), stomatal resistance, and sucrose-phosphate synthase (SPS) activity persisted in constant environmental conditions (constant light, LL; constant dark DD) and to assess the importance of these rhythms to the production of nonstructural carbohydrates (starch, sucrose, and hexose). Rhythms in CER, stomatal resistance, and SPS activity were observed in constant environmental conditions but the rhythms differed in period length, amplitude, and phase. The results indicated that these photosynthetic parameters are not controlled in a coordinated manner. The activity of UDPG pyrophosphorylase, another enzyme involved in sucrose formation, did not fluctuate rhythmically in constant conditions but increased with time in plants in LL. In LL, the rhythm in CER was correlated positively with fluctuations in total chlorophyll (r = 0.810) and chlorophyll a (r = 0.791) concentrations which suggested that changes in pigment concentration were associated with, but not necessarily the underlying mechanism of, the rhythm in photosynthetic rate. Assimilate export rate, net starch accumulation rate, and leaf sucrose concentration also fluctuated in constant light. No single photosynthetic parameter was closely correlated with fluctuations in assimilate export during LL; thus, assimilate export may have been controlled by interactions among the endogenous rhythms in CER, SPS activity, or other metabolic factors which were not measured in the present study.

摘要

我们用大豆(Glycine max [L.] Merr. cv ;Ransom')植株进行了实验,以确定在持续的环境条件(持续光照,LL;持续黑暗,DD)下,净二氧化碳交换率(CER)、气孔阻力和蔗糖磷酸合酶(SPS)活性是否存在昼夜节律,以及评估这些节律对非结构性碳水化合物(淀粉、蔗糖和己糖)产生的重要性。在持续的环境条件下观察到 CER、气孔阻力和 SPS 活性的节律,但节律在周期长度、幅度和相位上存在差异。结果表明,这些光合作用参数不是以协调的方式控制的。参与蔗糖形成的另一种酶 UDPG 焦磷酸化酶的活性在持续条件下没有节律性波动,但在 LL 中的植物中随时间增加。在 LL 中,CER 的节律与总叶绿素(r = 0.810)和叶绿素 a(r = 0.791)浓度的波动呈正相关,这表明色素浓度的变化与光合速率的节律有关,但不一定是其潜在机制。在持续光照下,同化产物输出率、净淀粉积累率和叶片蔗糖浓度也波动。在 LL 期间,没有一个单一的光合作用参数与同化产物输出的波动密切相关;因此,同化产物输出可能是由 CER、SPS 活性或其他在本研究中未测量的代谢因子的内源性节律之间的相互作用控制的。