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在缺乏三烯脂肪酸的拟南芥突变体中,光合作用在叶片与空气蒸汽压差较高时受到限制。

Photosynthesis is limited at high leaf to air vapor pressure deficit in a mutant of Arabidopsis thaliana that lacks trienoic fatty acids.

作者信息

Poulson Mary E, Edwards Gerald E, Browse John

机构信息

Department of Biological Sciences, Idaho State University, Campus Box, 8007, Pocatello, ID, 83209-8007, USA,

出版信息

Photosynth Res. 2002;72(1):55-63. doi: 10.1023/A:1016054027464.

DOI:10.1023/A:1016054027464
PMID:16228534
Abstract

We have investigated the role of polyunsaturated fatty acids in photosynthesis using a triple mutant of Arabidopsis thaliana that lacks trienoic fatty acids (fad 3-2 fad 7-2 fad 8). Though this mutant is male sterile, vegetative growth and development under normal conditions are largely unaffected (McConn and Browse, 1996 Plant Cell 8: 403-416). At 0.2-1.0 kPa vapor pressure deficit (low VPD), maximum photosynthetic rates of wild-type and mutant plants were similar while stomatal conductance rates were up to 2 times higher in mutant plants. However, light-saturated rates of carbon assimilation and stomatal conductance in the mutant were lower than in wild-type plants when measured at ambient (35 Pa) CO(2) and 2.0-2.8 kPa vapor pressure deficit (high VPD). The limitation to photosynthesis in the mutant plants at high VPD was overcome by saturating partial pressures of CO(2) suggesting a stomatal limitation. Chlorophyll fluorescence measurements indicate that differences observed in maximum assimilation rates were not due to limitations within the photochemical reactions of photosynthesis. Stomatal response to VPD and intrinsic water use efficiency was drastically different in mutant versus wild-type plants. The results of this investigation indicate that for Arabidopsis, polyunsaturated fatty acids may be an important determinant of responses of photosynthesis and stomatal conductance to environmental stresses such as high VPD.

摘要

我们利用拟南芥的一个三突变体(缺乏三烯脂肪酸,fad 3-2 fad 7-2 fad 8)研究了多不饱和脂肪酸在光合作用中的作用。尽管该突变体雄性不育,但在正常条件下其营养生长和发育基本不受影响(McConn和Browse,1996年,《植物细胞》8:403 - 416)。在0.2 - 1.0千帕蒸汽压亏缺(低VPD)条件下,野生型和突变体植物的最大光合速率相似,而突变体植物的气孔导度速率高达野生型植物的2倍。然而,在环境(35帕)CO₂和2.0 - 2.8千帕蒸汽压亏缺(高VPD)条件下测量时,突变体的光饱和碳同化速率和气孔导度低于野生型植物。通过使CO₂分压饱和克服了突变体植物在高VPD条件下对光合作用的限制,这表明存在气孔限制。叶绿素荧光测量表明,观察到的最大同化速率差异并非由于光合作用光化学反应内部的限制。突变体与野生型植物的气孔对VPD的响应以及内在水分利用效率截然不同。本研究结果表明,对于拟南芥而言,多不饱和脂肪酸可能是光合作用和气孔导度对高VPD等环境胁迫响应的重要决定因素。

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