期刊文献+

ROP11 GTPase is a Negative Regulator of Multiple ABA Responses in Arabidopsis 被引量:16

ROP11 GTPase is a Negative Regulator of Multiple ABA Responses in Arabidopsis
原文传递
导出
摘要 The phytohormone abscisic acid (ABA) plays crucial roles in plant development and plant responses to environmental stresses. Although ABA receptors and a minimal set of core molecular components have recently been discovered, understanding of the ABA signaling pathway is still far from complete. In this work, we characterized the function of ROP11, a member of the plant-specific ROP small GTPases family, in the ABA signaling process. ROP11 is preferentially expressed in guard cells in all plant organs with stomata. Expression of a constitutively active ROP11 (CA-ROP11) suppresses ABA-mediated responses, whereas reduced expression of ROP11 or expression of its dominant-negative form (DN-ROP11) causes the opposite phenotypes. The affected ABA-mediated responses by ROP11 include seed germination, seedling growth, stomatal closure, induction of ABA-responsive genes, as well as plant response to drought stress. Furthermore, we showed that ROP11 and its closest-related family member, ROP10, act in parallel in mediating these responses. ABA treatment does not affect ROP11 transcription and protein abundance; however, it causes the accumulation of CA-ROP11 in the nucleus. These results demonstrated that ROP11 is a negative regulator of multiple ABA responses in Arabidopsis. The phytohormone abscisic acid (ABA) plays crucial roles in plant development and plant responses to environmental stresses. Although ABA receptors and a minimal set of core molecular components have recently been discovered, understanding of the ABA signaling pathway is still far from complete. In this work, we characterized the function of ROP11, a member of the plant-specific ROP small GTPases family, in the ABA signaling process. ROP11 is preferentially expressed in guard cells in all plant organs with stomata. Expression of a constitutively active ROP11 (CA-ROP11) suppresses ABA-mediated responses, whereas reduced expression of ROP11 or expression of its dominant-negative form (DN-ROP11) causes the opposite phenotypes. The affected ABA-mediated responses by ROP11 include seed germination, seedling growth, stomatal closure, induction of ABA-responsive genes, as well as plant response to drought stress. Furthermore, we showed that ROP11 and its closest-related family member, ROP10, act in parallel in mediating these responses. ABA treatment does not affect ROP11 transcription and protein abundance; however, it causes the accumulation of CA-ROP11 in the nucleus. These results demonstrated that ROP11 is a negative regulator of multiple ABA responses in Arabidopsis.
出处 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2012年第3期169-179,共11页 植物学报(英文版)
基金 supported by the National Basic Research Program of China(973Program)(2009CB119100) the National Natural Science Foundation of China(90717121)
关键词 ROP11 GTPase ABA responses negative regulator rop10rop1 double mutant Arabidopsis. ROP11 GTPase ABA responses negative regulator rop10rop1 double mutant Arabidopsis.
  • 相关文献

参考文献1

二级参考文献51

  • 1Abbal P,Pradal M,Sauvage FX,Chatelet P,Paillard S,Canaguier A,Adam-Blondon AF,Tesniere C (2007) Molecular characterization and expression analysis of the Rop GTPase family in Vitis vinifera.J.Exp.Bot 58,2641-2652.
  • 2Agrawal GK,Iwahashi H,Rakwal R (2003) Small GTPase 'Rop':molecular switch for plant defense responses.FEBS Lett.546,173-180.
  • 3Altschul SF,Gish W,Miller W,Myers EW,Lipman DJ (1990) Basic local alignment search tool.J.Mol.Biol.215,403-410.
  • 4Amor BB,Shaw SL,Oldroyd GE,Maillet F,Penmetsa RV,Cook D,Long SR,Denarie J,Gough C (2003) The NFP locus of Medic ago truncatula controls an early step of Nod factor signal transduction upstream of a rapid calcium flux and root hair deformation.Plant J.34,495-506.
  • 5Ane JM,Kiss GB,Riely BK,Penmetsa RV,Oldroyd GE,Ayax C,Levy J,Debelle F,Baek JM,Kalo P,Rosenberg C,Roe BA,Long SR,Denarie J,Cook DR (2004) Medicago truncatula DMI1 required for bacterial and fungal symbioses in legumes.Science 303,1364-1367.
  • 6Arrighi JF,Barre A,Amor BB,Bersoult A,Soriano LC,Mirabella R,de Carvalho-Niebel F,Journet EP,Gherardi M,Huguet T,Geurts R,Denarie J,Rouge P,Gough C (2006) The Medicago truncatula lysin[corrected] motif-receptor-like kinase gene family includes NFP and new nodule-expressed genes.Plant Physiol.142,265-279.
  • 7Baxter-Burrell A,Yang Z,Springer PS,Bailey-Serres J (2002)RopGAP4-dependent Rop GTPase rheostat control of Arabidopsis oxygen deprivation tolerance.Science 296,2026-2028.
  • 8Benedito VA,Torres-Jerez I,Murray JD,Andriankaja A,Allen S,Kakar K,Wandrey M,Verdier J,Zuber H,Ott T,Moreau S,Niebel A,Frickey T,Weiller G,He J,Dai X,Zhao PX,Tang Y,Udvardi MK (2008) A gene expression atlas of the model legume Medicago truncatula.Plant J.55,504-513.
  • 9Borg S,Brandstrup B,Jensen TJ,Poulsen C (1997) Identification of new protein species among 33 different small GTP-binding proteins encoded by cDNAs from Lotusjaponicus,and expression of corresponding mRNAs in developing root nodules.Plant J.11,237-250.
  • 10Boisson-Dernier A,Chabaud,M,Garcia F,Becard G,Rosenberg C,Barker DG (2001) Agrobacterium rhizogenes-transformed roots of Medicago truncatula for the study of nitrogen-fixing and endomycorrhizal symbiotic associations.Mol.Plant Microbe Interact.14,695-700.

共引文献9

同被引文献75

引证文献16

二级引证文献30

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部