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A CO2 Concentrating System in Leaves of Higher C3-Plants Predicted by a Model Based on RuBP Carboxylase/Oxygenase Kinetics and 14CO2/12CO2 Exchange

机译：基于RuBP羧化酶/加氧酶动力学和14CO2 / 12CO2交换的模型预测高等C3植物叶片中的CO2浓缩系统

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Mächler, F., Lehnherr, B., Schnyder, H. and Nösberger, J. 1985. A CO2 concentrating system in leaves of higher C3-plants predicted by a model based on RuBP carboxylase/oxygenase kinetics and 14CO2/12CO2 exchange.−J. exp. Bot. 36: 1542-1550. A model is presented which compares the ratio of the two activities of the enzyme nbulose bisphosphate carboxylase/oxygenase as determined in vitro with the ratio of photosynthesis to photorespiration in leaves as determined from differential 14CO2/12CO2 uptake or from CO2 compensation concentration. Discrepancies between measurements made in vitro and in vivo are attributed to the effect of a CO2 concentrating system in the leaf cells. Interference from dark respiration is discussed. A CO2 concentrating system is postulated which is efficient mainly at low temperature and low CO2 concentration

机译：Mächler，F.，Lehnherr，B.，Schnyder，H.和Nösberger，J.1985。基于RuBP羧化酶/加氧酶动力学和14CO2 / 12CO2交换的模型预测，较高C3植物叶片中的CO2浓缩系统。 J.实验t 36：1542-1550。提出了一个模型，该模型将体外测定的核糖双磷酸双磷酸酯羧化酶/加氧酶的两种活性的比率与叶片的光合作用与光呼吸的比率进行比较，叶片的光合作用和光呼吸的比率由差异的14CO2 / 12CO2吸收或由CO2补偿浓度决定。在体外和体内进行的测量之间的差异归因于叶细胞中CO2浓缩系统的作用。讨论了来自暗呼吸的干扰。假设有一个二氧化碳浓缩系统，该系统主要在低温和低二氧化碳浓度下有效

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MÄCHLER, F.; LEHNHERR, B.; SCHNYDER, H.; NOSBERGER, J.;
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3. Changes in growth CO2 result in rapid adjustments of ribulose-1,5-bisphosphate carboxylase/oxygenase small subunit gene expression in expanding and mature leaves of rice [J] . Gesch RW, Boote KJ, Vu JCV, Plant physiology . 1998,第2期

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6. Carbon Dioxide Exchanges in Leaves. I. Discrimination Between 14CO2 and 12CO2 in Photosynthesis [O] . E. W. Yemm, R. G. S. Bidwell 1969

机译：叶片中的二氧化碳交换。 I.光合作用中14CO2和12CO2的区分
7. Carbon Dioxide Exchanges in Leaves. I. Discrimination Between 14CO2 and 12CO2 in Photosynthesis 1 [O] . Yemm, E. W., Bidwell, R. G. S. 1969

机译：叶片中的二氧化碳交换。 I.光合作用中14CO2和12CO2的区别1

A CO2 Concentrating System in Leaves of Higher C3-Plants Predicted by a Model Based on RuBP Carboxylase/Oxygenase Kinetics and 14CO2/12CO2 Exchange

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