Messinger Susanna M, Buckley Thomas N, Mott Keith A
Biology Department, Utah State University, Logan, Utah 84322-5305, USA.
Plant Physiol. 2006 Feb;140(2):771-8. doi: 10.1104/pp.105.073676. Epub 2006 Jan 11.
Stomatal conductance (gs) typically declines in response to increasing intercellular CO2 concentration (ci). However, the mechanisms underlying this response are not fully understood. Recent work suggests that stomatal responses to ci and red light (RL) are linked to photosynthetic electron transport. We investigated the role of photosynthetic electron transport in the stomatal response to ci in intact leaves of cocklebur (Xanthium strumarium) plants by examining the responses of gs and net CO2 assimilation rate to ci in light and darkness, in the presence and absence of the photosystem II inhibitor 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), and at 2% and 21% ambient oxygen. Our results indicate that (1) gs and assimilation rate decline concurrently and with similar spatial patterns in response to DCMU; (2) the response of gs to ci changes slope in concert with the transition from Rubisco- to electron transport-limited photosynthesis at various irradiances and oxygen concentrations; (3) the response of gs to ci is similar in darkness and in DCMU-treated leaves, whereas the response in light in non-DCMU-treated leaves is much larger and has a different shape; (4) the response of gs to ci is insensitive to oxygen in DCMU-treated leaves or in darkness; and (5) stomata respond normally to RL when ci is held constant, indicating the RL response does not require a reduction in ci by mesophyll photosynthesis. Together, these results suggest that part of the stomatal response to ci involves the balance between photosynthetic electron transport and carbon reduction either in the mesophyll or in guard cell chloroplasts.
气孔导度(gs)通常会随着细胞间二氧化碳浓度(ci)的增加而下降。然而,这种反应背后的机制尚未完全了解。最近的研究表明,气孔对ci和红光(RL)的反应与光合电子传递有关。我们通过研究在有光和无光条件下,在存在和不存在光系统II抑制剂3-(3,4-二氯苯基)-1,1-二甲基脲(DCMU)的情况下,以及在2%和21%的环境氧气浓度下,gs和净二氧化碳同化率对ci的反应,来研究光合电子传递在苍耳(Xanthium strumarium)植物完整叶片气孔对ci反应中的作用。我们的结果表明:(1)气孔导度和同化率会随着DCMU的作用而同时下降,且具有相似的空间模式;(2)在不同的光照强度和氧气浓度下,随着光合作用从受Rubisco限制转变为受电子传递限制,气孔导度对ci的反应斜率也会相应改变;(3)气孔导度对ci的反应在黑暗中和经DCMU处理的叶片中相似,而在未用DCMU处理的叶片中,光照下的反应要大得多且形状不同;(4)在经DCMU处理的叶片或黑暗中,气孔导度对ci的反应对氧气不敏感;(5)当ci保持恒定时,气孔对红光有正常反应,这表明红光反应不需要叶肉光合作用使ci降低。总之,这些结果表明,气孔对ci反应的一部分涉及叶肉细胞或保卫细胞叶绿体中光合电子传递与碳还原之间的平衡。