ABA诱导蚕豆气孔保卫细胞H2O2的产生

以蚕豆叶片下表皮为材料,将荧光探针ＨＰＴＳ导入蚕豆气孔保卫细胞内,利用荧光光谱和激光共聚焦显微技术,检测了ＡＢＡ诱导蚕豆气孔关闭过程中Ｈ２Ｏ２的产生。结果表明,ＡＢＡ和１００μｍｏｌ／Ｌ的Ｈ２Ｏ２可以迅速猝灭ＨＰＴＳ的荧光,ＣＡＴ几乎可完全阻止９μｌ０．２ｍｍｏｌ／Ｌ的ＡＢＡ引起荧光猝灭。因此,ＡＢＡ可以诱导气孔保卫细胞产生Ｈ２Ｏ２,其产生的强度和速度与ＡＢＡ的浓度直接有关,并且推测：这种Ｈ２Ｏ２产生可能是ＡＢＡ诱导气孔关闭过程中信号转导链的一个中间成分。     

蚕豆水孔蛋白可能参与微丝骨架对气孔运动的调节

水孔蛋白的抑制剂HgCl2可明显抑制壳梭孢菌素（FC）和微丝骨架的解聚剂细胞松弛素D（CD）对蚕豆保卫细胞原生质体膨胀的诱导作用,而对微丝骨架的稳定剂鬼笔环肽（phalloidin）的抑制作用影响不明显。这表明水孔蛋白可能介导了FC和微丝骨架对气孔运动的调节。     

Expression of an mRNA with sequence similarity to pea dehydrin (Psdhn 1) in guard cells of Vicia faba in response to exogenous abscisic acid

The function and location of guard cells uniquely subject them to stress. First, stomatal movements require large fluctuations in the concentration of potassium salts. Second, guard cell inner walls are the first surfaces exposed to evaporation and apoplastic solutes may accumulate there as a result. We have therefore investigated whether guard cells exhibit atypical expression of dehydrin genes because dehydrins accumulate in vegetative tissues in response to water stress. We have also assayed for osmotin mRNA, which is up-regulated in leaves in response to various stresses. mRNA probes for several representative genes were used with RNA extracts from control and water-stressed Vicia faba leaflets. Correlatively, these probes were used with RNA extracts from "isolated' guard cells that had been incubated with combinations of abscisic acid, mannitol and Ca²⁺. (Isolated guard cells are epidermal strips sonicated to destroy cells other than guard cells.) Hybridization with the probe prepared for a dehydrin from Pisum sativum (Psdhn 1) was detected in leaf extracts only if the leaf had been stressed. Similarly, after 1- and 6-h incubations with abscisic acid, isolated guard cells contained an mRNA that hybridized with the probe for Psdhn 1. Appearance of this abscisic acid-dependent mRNA required neither mannitol nor exogenous Ca²⁺. Regardless of the conditions or tissue, no hybridization was detected with the probe against osmotin, but our interpretation of this result is qualified. The simplest conclusion is that atypical expression of dehydrin is not the mechanism by which guard cells cope with their peculiar function and location.     

H2S介导ABA诱导蚕豆气孔运动的生理机制研究

以蚕豆为实验材料,利用药理学实验和分光光度法,研究了ABA处理及ABA与H2S合成抑制剂共处理对蚕豆气孔运动的影响,以及体内H2S水平、H2S合成酶L-/D-半胱氨酸脱巯基酶(磷酸吡哆盐依赖性酶)活性变化.结果表明:(1)光下H2S的合成抑制剂羧甲氧基胺半盐酸盐(AOA)、羟氨(NH2OH)、L-/D-半胱氨酸脱巯基酶分解产物C3H3KO3+NH3均明显抑制ABA诱导的蚕豆气孔关闭;(2)外源ABA能够明显提高叶片的H2S水平及L-/D-半胱氨酸脱巯基酶活性;(3)AOA、NH2OH、C3H3KO3和NH3均可以逆转ABA所引起的H2S水平及L-/D-半胱氨酸脱巯基酶活性的升高.研究发现,ABA可通过增强L-/D-半胱氨酸脱巯基酶活性,促进L-/D-半胱氨酸分解生成H2S,进而诱导蚕豆气孔关闭.     

Water stress effects on guard cell anatomy and the mechanical advantage of the epidermal cells

Abstract Vicia faba plants grown under water deficit were found to have guard cells considerably smaller than those of plants grown under well-watered conditions. Stomala of plants adapted to drought conditions have been observed in past studies to maintain opening at plant water potentials lower than those of plants not so adapted. By employing the geometric interpretation of the mechanical advantage (Wu, Sharpe & Spence, 1985), an anatomical/mechanical basis was found that helps explain how such opening in drought conditions can occur. The geometry and resulting mechanical properties of small stomata, in contrast to larger stomata, give them the capability of opening or maintaining open pores with lower guard cell turgor pressures, relative to the turgor of the surrounding epidermal cells.     

共聚焦显微技术研究SA对蚕豆气孔保卫细胞的影响

水杨酸(salicylic acid,SA)作为植物体内一种内源性的信号分子,具有多种生理功能.实验表明水杨酸以浓度依赖的方式诱导气孔关闭,抑制气孔张开.20U/mL的CAT与SA共同处理时可逆转SA诱导气孔关闭作用的83%~90%.以H2O2荧光探针H2DCFDA结合激光扫描共聚焦显微术直接检测到SA处理可引起保卫细胞内H2O2的产生;在保卫细胞内显微注射CAT可完全阻止SA导致的DCF荧光增强.表明SA诱导的气孔关闭可能与H2O2的产生有关.     

保卫细胞的ABA信号转导

植物激素脱落酸(ABA)调节植物体多种生理过程,尤其在一些逆境条件下,植物体中ABA大量合成,诱导气孔关闭,从而有效地调控植物体内的水分平衡.尽管人们对ABA诱导气孔关闭作用已得到共识,但有关信号转导的细节还很不清楚.该文简要介绍了研究气孔保卫细胞信号转导途径的相关技术以及与ABA信号转导直接相关的ABA受体、第二信使、蛋白质磷酸化和离子通道调节等方面的最新妍究进展.并在前人研究工作的基础上,勾画出气孔保卫细胞ABA、H2O2的信号转导模式图.     

过氧化氢对蚕豆气孔运动和质膜K+通道的影响

不同浓度H2 O2 可使蚕豆 (ViciafabaL .)叶片气孔关闭 ,抑制气孔张开 ,10mmol/L的H2 O2 最有效 ,10 μmol/L的H2 O2 仍明显使气孔关闭。且 10 μmol/L的H2 O2 抑制气孔张开作用能被EGTA所消除 ,表明Ca2 参与低浓度H2 O2 使气孔关闭的过程。 2mmol/L的H2 O2 可使质膜内向K 通道电流明显减小 ,而外向K 通道电流显著增加。因此 ,H2 O2 促进蚕豆气孔关闭主要是通过抑制K 通过保卫细胞质膜内向流入 ,或加强K 外向流出实现的     

Actin Dynamics Regulates Voltage-Dependent Calcium-Permeable Channels of the Vicia faba Guard Cell Plasma Membrane

Free cytosolic Ca^2＋ （[Ca^2＋]cyt） is an ubiquitous second messenger in plant cell signaling, and [Ca^2＋]cyt elevation is associated with Ca^2＋-permeable channels in the plasma membrane and endomembranes regulated by a wide range of stimuli. However, knowledge regarding Ca^2＋ channels and their regulation remains limited in planta. A type of voltage- dependent Ca^2＋-permeable channel was identified and characterized for the Vicia faba L. guard cell plasma membrane by using patch-clamp techniques. These channels are permeable to both Ba^2＋ and Ca^2＋, and their activities can be inhibited by micromolar Gd^3＋. The unitary conductance and the reversal potential of the channels depend on the Ca^2＋ or Ba^2＋ gradients across the plasma membrane. The inward whole-cell Ca^2＋ （Ba^2＋） current, as well as the unitary current amplitude and NPo of the single Ca^2＋ channel, increase along with the membrane hyperpolarization. Pharmacological experiments suggest that actin dynamics may serve as an upstream regulator of this type of calcium channel of the guard cell plasma membrane. Cytochalasin D, an actin polymerization blocker, activated the NPo of these channels at the single channel level and increased the current amplitude at the whole-cell level. But these channel activations and current increments could be restrained by pretreatment with an F-actin stabilizer, phalloidin. The potential physiological significance of this regulatory mechanism is also discussed.     

Hydrogen peroxide－induced changes in intracellular pH of guard cells precede stomatal closure

INTRODUCTIONEven under optimal conditions, many metabolicprocesses, including chloroplastic, mitochondrial,and plasma membrane-linked electron transportsystems, produce reactive oxygen species (ROS)such as the superoxide radical (OZ--), hydrogenperoxide (HZOZ), and the hydroxyl free radical(OH--)[1, 2]. Furthermore, the imposition of bioticand abiotic stress conditions can give rise to ex-cess concentrations of ROS, resulting in oxidativedamage at the cellular level. Interestingly, R…     

Protein Tyrosine Phosphatases Mediate the Signaling Pathway of Stomatal Closure of Vicia faba L.

The regulation of stomatal movement is one of the most important signaling networks in plants.The H -ATPase at the plasma membrane of guard cells plays a critical role in the stomata opening, while there are some conflicting results regarding the effectiveness of the plasma membrane H -ATPase inhibitor,vanadate, in inhibiting stomata opening. We observed that 2 mmol/L vanadate hardly inhibited light-stimulated stomata opening in epidermal peels of Viciafaba L., but significantly inhibited dark- and ABA-induced stomatal closure. These results cannot be explained with the previous findings that H -ATPase was inhibited by vanadate. In view of the fact that vanadate is an inhibitor of protein tyrosine phosphatases (PTPases),we investigated whether the stomatal movement regulated by vanadate is through the regulation of PTPase.As expected, phenylarsine oxide (PAO), a specific inhibitor of PTPase, has very similar effects and even more effective than vanadate. Typical PTPase activity was found in guard cells of V. faba; moreover, the phosphatase activity could be inhibited by both vanadate and PAO. These results not only provide a novel explanation for conflicting results about vanadate modulating stomatal movement, but also provide further evidence for the involvement of PTPases in modulating signal transduction of stomatal movement.