Merlot Sylvain, Leonhardt Nathalie, Fenzi Francesca, Valon Christiane, Costa Miguel, Piette Laurie, Vavasseur Alain, Genty Bernard, Boivin Karine, Müller Axel, Giraudat Jérôme, Leung Jeffrey
Institut des Sciences du Végétal, Centre National de la Recherche Scientifique, UPR 2355, Gif-sur-Yvette, France.
EMBO J. 2007 Jul 11;26(13):3216-26. doi: 10.1038/sj.emboj.7601750. Epub 2007 Jun 7.
Light activates proton (H(+))-ATPases in guard cells, to drive hyperpolarization of the plasma membrane to initiate stomatal opening, allowing diffusion of ambient CO(2) to photosynthetic tissues. Light to darkness transition, high CO(2) levels and the stress hormone abscisic acid (ABA) promote stomatal closing. The overall H(+)-ATPase activity is diminished by ABA treatments, but the significance of this phenomenon in relationship to stomatal closure is still debated. We report two dominant mutations in the OPEN STOMATA2 (OST2) locus of Arabidopsis that completely abolish stomatal response to ABA, but importantly, to a much lesser extent the responses to CO(2) and darkness. The OST2 gene encodes the major plasma membrane H(+)-ATPase AHA1, and both mutations cause constitutive activity of this pump, leading to necrotic lesions. H(+)-ATPases have been traditionally assumed to be general endpoints of all signaling pathways affecting membrane polarization and transport. Our results provide evidence that AHA1 is a distinct component of an ABA-directed signaling pathway, and that dynamic downregulation of this pump during drought is an essential step in membrane depolarization to initiate stomatal closure.
光照激活保卫细胞中的质子(H⁺)-ATP酶,促使质膜超极化,从而引发气孔开放,使环境中的CO₂扩散到光合组织。从光照到黑暗的转变、高CO₂水平以及应激激素脱落酸(ABA)都会促使气孔关闭。ABA处理会降低H⁺-ATP酶的总体活性,但这种现象与气孔关闭之间关系的重要性仍存在争议。我们报道了拟南芥开放气孔2(OST2)基因座中的两个显性突变,这些突变完全消除了气孔对ABA的响应,但重要的是,对CO₂和黑暗的响应程度要小得多。OST2基因编码主要的质膜H⁺-ATP酶AHA1,这两个突变都会导致该泵的组成型活性,从而导致坏死病变。传统上认为H⁺-ATP酶是所有影响膜极化和转运的信号通路的一般终点。我们的结果提供了证据,表明AHA1是ABA导向信号通路的一个独特组成部分,并且在干旱期间该泵的动态下调是膜去极化以引发气孔关闭的关键步骤。