小麦幼苗的光合作用和核酮糖二磷酸羧化酶的激活：CO(2)和 O(2)的调节。

Photosynthesis and Activation of Ribulose Bisphosphate Carboxylase in Wheat Seedlings : Regulation by CO(2) and O(2).

机构信息

Department of Biochemistry, University of Arizona, Tucson, Arizona 85721.

出版信息

Plant Physiol. 1983 Apr;71(4):955-60. doi: 10.1104/pp.71.4.955.

DOI:10.1104/pp.71.4.955

PMID:16662935

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1066150/

Abstract

Photosynthetic carbon assimilation in plants is regulated by activity of the ribulose 1,5-bisphosphate (RuBP) carboxylase/oxygenase. Although the carboxylase requires CO(2) to activate the enzyme, changes in CO(2) between 100 and 1,400 microliters per liter did not cause changes in activation of the leaf carboxylase in light. With these CO(2) levels and 21% O(2) or 1% or less O(2), the levels of ribulose bisphosphate were high and not limiting for CO(2) fixation. With high leaf ribulose bisphosphate, the K(act)(CO(2)) of the carboxylase must be lower than in dark, where RuBP is quite low in leaves. When leaves were illuminated in the absence of CO(2) and O(2), activation of the carboxylase dropped to zero while RuBP levels approached the binding site concentration of the carboxylase, probably by forming the inactive enzyme-RuBP complex.The mechanism for changing activation of the RuBP carboxylase in the light involves not only Mg(2+) and pH changes in the chloroplast stroma, but also the effects of binding RuBP to the enzyme. In light when RuBP is greater than the binding site concentration of the carboxylase, Mg(2+) and pH most likely determine the ratio of inactive enzyme-RuBP to active enzyme-CO(2)-Mg(2+)-RuBP forms. Higher irradiances favor more optimal Mg(2+) and pH, with greater activation of the carboxylase and increased photosynthesis.

摘要

植物的光合作用碳同化受核酮糖 1,5-二磷酸（RuBP）羧化酶/加氧酶活性的调节。虽然羧化酶需要 CO₂来激活酶，但在 100 到 1400 微升/升之间的 CO₂变化并没有导致光下叶片羧化酶的活性发生变化。在这些 CO₂水平和 21% O₂或 1%或更少的 O₂下，核酮糖二磷酸的水平很高，不会限制 CO₂的固定。在高叶片核酮糖二磷酸的情况下，羧化酶的 K(act)(CO₂)必须低于黑暗中，因为 RuBP 在叶片中含量相当低。当叶片在没有 CO₂和 O₂的情况下被照射时，羧化酶的活性降至零，而 RuBP 水平接近羧化酶的结合位点浓度，可能是通过形成无活性的酶-RuBP 复合物。在光下改变 RuBP 羧化酶活性的机制不仅涉及叶绿体基质中 Mg²⁺和 pH 的变化，还涉及 RuBP 与酶结合的影响。在 RuBP 大于羧化酶结合位点浓度的光下，Mg²⁺和 pH 很可能决定无活性酶-RuBP 与活性酶-CO₂-Mg²⁺-RuBP 形式的比例。更高的辐照度有利于更优化的 Mg²⁺和 pH，从而更有效地激活羧化酶并增加光合作用。

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