References
- Berridge MJ. Inositol triphosphate and calcium signaling. Nature 1993; 361:315 - 325
- Chrispeels MJ, Holuigue L, Latorre R, Luan S, Orellana A, Peña-Cortes H, et al. Signal transduction networks and biology of plant cells. Biol Res 1999; 32:35 - 60
- Bush DS. Calcium regulation of in plant cells and its role in signaling. Annu Rev Plant Physiol Plant Mol Biol 1995; 46:95 - 122
- Ward JM, Pei ZM, Schroeder JI. Roles of ion channels in initiation of signal transduction in higher plants. Plant Cell 1995; 7:833 - 844
- Poovaiah BW, Reddy ASN. Calcium and signal transduction in plants. Cri Rev Plant Sci 1993; 12:185 - 211
- Malho R. Spatial characteristics to calcium signalling; the calcium wave as a basic unit in plant cell calcium signalling. Phil Trans R Soc Lond B 1998; 353:1463 - 1473
- Sanders D. Communicating with calcium. Plant Cell 1999; 11:691 - 706
- Trewavas A. Le calcium, C'est la Vie: Calcium makes waves. Plant Physiol 1999; 120:1 - 6
- Digonnet C, Aldon D, Leduc N, Dumas C, Rougier M. First evidence of a calcium transient in flowering plants at fertilization. Development 1998; 124:2867 - 2874
- Pierson ES, Miller DD, Callaham DA, van Aken J, Hackett G, Hepler PK. Tiplocalized calcium entry fluctuates during pollen tube growth. Developmental Biol 1996; 174:160 - 173
- Johnson CH, Knight MR, Kondo T, Masson P, Sedbrook J, Haley A, et al. Circadian oscillations of cytosolic and chloroplastic free calclium in plants. Science 1995; 269:1863 - 1865
- Price AH, Taylor A, Ripley SJ, Griffiths A, Trewavas AJ, Knight MR. Oxidative signals in tobacco increase cytosolic calcium. Plant Cell 1994; 6:1301 - 1310
- Levine A, Pennell RI, Alvarez ME, Palmer R, Lamb C. Calcium-mediated apoptosis in plant hypersensitive disease resistance response. Curr Biol 1996; 6:427 - 437
- Xu H, Heath MC. Role of calcium in signal transduction during the hypersensitive response caused by basidiospore-derived infection of the cowpea rust fungus. Plant Cell 1998; 10:585 - 597
- Trewavas AJ, Malho R. Signal perception and transduction: The origin of the phenotype. Plant Cell 1997; 9:1181 - 1195
- Trewavas AJ, Malho R. Ca2+ signaling in plant cells: the big network!. Curr Opin Plant Biol 1998; 1:428 - 433
- Loitto VM, Nilsson H, Sundqvist T, Magnusson KE. Nitric oxide induces dosedependent Ca2+ transients and causes temporal morphological hyperpolarization in human neutrophils. J Cell Physiol 2000; 182:402 - 413
- Pan L, Zhang X, Song K, Wu X, Xu J. Exogenous nitric oxide-induced release of calcium from intracellular IP3 receptor-sensitive stores via S-nitrosylation in respiratory burst-dependent neutrophiles. Biochem Biophys Res Commun 2008; 377:1320 - 1325
- Gould KS, Lamotte O, Klinguer A, Pugin A, Wendehenne D. Nitric oxide production in tobacco leaf cells: A generalized stress response?. Plant Cell Environ 2003; 26:1851 - 1862
- Lamotte O, Gould K, Lecourieux D, Sequeira-Legrand A, Lebrun-Garcia A, Durner J, et al. Analysis of nitric oxide signaling functions in tobacco cells challenged by the elicitor cryptogein. Plant Physiol 2004; 135:516 - 530
- Lamotte O, Courtois C, Dobrowolska G, Besson A, Pugin A, Waendehenne D. Mechanism of nitric-oxide-induced increase of free cytosolic Ca2+ concentration in Nicotiana plumbaginifolia cells. Free Radic Biol Med 2006; 40:1369 - 1376
- Vandelle E, Poinssot B, Wendehenne D, Bente'jac M, Pugin A. Integrated signaling network involving calcium, nitric oxide, and active oxygen species but not mitogen-activated protein kinases in BcPG1-elicited grapevine defences. Mol Plant Microbe Interact 2006; 19:429 - 440
- Arasimowicz M, Floryszak-Wieczorek J. Nitric oxide as a bioactive signaling molecule in plant stress responses. Plant Science 2007; 172:876 - 887
- Knight MR, Read ND, Campbell AK, Trewavas AJ. Imaging calcium dynamics in living plants using semi-synthetic recombinant aequorins. J Cell Biol 1993; 121:83 - 90
- Campbell AK. Interacellular calcium-its universal role as regulator 1983; Chichester, UK Wiley 556 pp
- Tester M. Plant ion channels—Whole cell and single channel studies. New Phytol 1990; 114:305 - 340
- Knight MR, Campbell AK, Smith SM, Trewavas AJ. Transgenic plant aequorin reports the effects of cold shock and elicitors on cytoplasmic calcium. Nature 1991; 352:524 - 526
- Poole RK, Hughes MN. New functions for the ancient globin family: bacterial responses to nitric oxide and nitrosative stress. Mol Microbiol 2000; 36:775 - 783
- Delledonne M, Xia Y, Dixon RA, Lamb C. Nitric oxide functions as a signal in plant disease resistance. Nature 1998; 394:585 - 588
- Durner J, Wendehenne D, Klessig DF. Defense gene induction of tobacco by nitric oxide, cyclic GMP and cyclic ADP-ribose. Proc Natl Acad Sci USA 1998; 95:10328 - 10333
- Cessna S, Chandra S, Low PS. Hypo-osmotic shock of tobacco cells stimulates Ca2+ fluxes deriving first from external and then internal Ca2+ stores. J Biol Chem 1998; 273:27286 - 27291
- García-Mata C, Lamattina L. Abscisic acid, nitric oxide and stomatal closure—Is nitrate reductase one of the missing links?. Trends Plant Sci 2003; 8:314 - 315
- Garcia-Mata C, Lamattina L. Abscisic acid (ABA) inhibits light-induced stomatal opening through calcium- and nitric oxide-mediated signaling pathways. Nitric Oxide 2007; 17:143 - 151
- Garcia-Mata C, Gay R, Sokolovski S, Hills A, Lamattina L, Blatt MR. Nitric oxide regulates K+ and Cl− channels in guard cells through a subset of abscisic acid-evoked signaling pathways. Proc Natl Acad Sci USA 2003; 100:11116 - 11121
- Sokolovski S, Hills A, Gay R, Garcia-Mata C, Lamattina L, Blatt MR. Protein phosphorylation is a prerequisite for intracellular Ca2+ release and ion channel control by nitric oxide and abscisic acid in guard cells. Plant J 2005; 43:520 - 529
- Lanteri ML, Pagnussat GC, Lamattina L. Calcium and calcium-dependent protein kinases are involved in nitric oxide- and auxin-induced adventitious root formation in cucumber. J Exp Bot 2006; 57:1341 - 1351