References

Agrawal GK, Jwa NS, Agrawal SK, Tamogami S, Iwahashi H, Rakwal R (2003a) Cloning of novel rice allene oxide cyclase (OsAOC): mRNA expression and comparative analysis with allene oxide synthase (OsAOS) gene provide insight into the transcriptional regulation of octadecanoid pathway biosynthetic genes in rice. Plant Sci 164:979-992 Agrawal GK, Tamogami S, Iwahashi H, Agrawal VP, Rakwal R (2003b) Transient regulation of jasmonic acid-inducible rice MAP kinase gene (OsBWMK1) by diverse biotic and abiotic stresses. Plant Physiol Biochem 41:355-361 Aina R, Labra M, Fumagalli P, Vannini MM, Cucchi U, Bracale M, Sgorbati S, Citterio S (2007) Thiol-peptide level and proteomic changes in response to cadmium toxicity in Oryza sativa L. Roots. Environ Exp Bot 59:381-392 Arteca RN, Arteca JM (2007) Heavy-metal-induced ethylene production in Arabidopsis thaliana.

J Plant Physiol 164:1480-1488 Boddi B, Oravecz AR, Lehoczki E (1995) Effect of cadmium on organization and photoreduction of protochlorophyllide in dark-grow leaves and etioplast inner membrane preparations of wheat. Photosynthetica 31:411-420 Carrasco-Gil S, Alvarez-Fernandez A, Sobrino-Plata J, Millan R, Carpena-Ruiz RO, Leduc DL, Andrews JC, Abadía J, Hernandez LE (2011) Complexation of Hg with phytochelatins is important for plant Hg tolerance. Plant Cell Environ 34:778-791 Chai TY, Didierjean L, Burkard G, Genot G (1998) Expression of a green tissue-specific 11 kDa proline-rich protein gene in bean in response to heavy metals. Plant Sci 133:47-56 Chaoui A, Mazhoudi S, Ghorbal MN, Ferjani EE (1997) Cadmium and zinc induction of lipid peroxidation and effects on antioxidant enzymes activities in bean (Phaseolus vulgaris L.). Plant Sci 127:139-147

Cho UH, Park JO (2000) Mercury-induced oxidative stress in tomato seedlings. Plant Sci 156:1-9 Cho UH, Seo NH (2005) Oxidative stress in Arabidopsis thaliana exposed to cadmium is due to hydrogen peroxide accumulation. Plant Sci 168:113-120 Clemens S (2006) Evolution and function of phytochelatin synthases. J Plant Physiol 163:319-332 Cobbett CS, Goldsbrough P (2002) Phytochelatins and metallothioneins: roles in heavy metal detoxification and homeostasis. Annu Rev Plant Biol 53:159-182 Cruz-Ortega R, Ownby JD (1993) A protein similar to PR (pathogen-related) proteins is elicited by metal toxicity in wheat roots. Physiol Plant 89:211-219 Cuypers A, Vangronsveld J, Clijsters H (2000) Biphasic effect of copper on the ascorbate-glutathione pathway in primary leaves of Phaseolus vulgaris seedlings during the early stages of metal assimilation. Physiol Plant 110:512-517

De Gara L, Locato V, Dipierro S, De Pinto MC (2010) Redox homeostasis in plants. The challenge of living with endogenous oxygen production. Respir Physiol Neurobiol 173:S13-S19 Demirevska-Kepova K, Simova-Stoilova L, Stoyanova Z, Holzer R, Feller U (2004) Biochemical changes in barley plants after excessive supply of copper and manganese. Environ Exp Bot 52:253-266

Drazkiewicz M, Skorzynska-Polit E, Krupa Z (2004) Copper-induced oxidative stress and antioxidant defence in Arabidopsis thaliana. Biometals 17:379-387 Edwards R, Dixon RA, Walbot V (2000) Plant glutathione S-transferases: enzymes with multiple functions in sickness and in health. Trends Plant Sci 5:193-198 Ernst WHO, Krauss GJ, Verkleij JAC, Wesenberg D (2008) Interaction of heavy metals with the sulphur metabolism in angiosperms from an ecological point of view. Plant Cell Environ 31:123-143

Fojtova M, Fulneckova J, Fajkus J, Kovarik A (2002) Recovery of tobacco cells from cadmium stress is accompanied by DNA repair and increased telomerase activity. J Exp Bot 53:2151-2158 Foreman J, Demidchik V, Bothwell JHF, Mylona P, Miedema H, Torres MA, Linstead P, Costa S, Brownelee C, Jones JDG, Davies JM, Dolan L (2003) Reactive oxygen species produced by NADPH oxidase regulate plant cell growth. Nature 422:442-446 Foyer CH, Noctor G (2003) Redox sensing and signalling associated with reactive oxygen in chloroplasts, peroxisomes and mitochondria. Physiol Plant 119:355-364 Garnier L, Simon-Plas F, Thuleau P, Agnel JP, Blein JP, Ranjeva R, Montillet JL (2006) Cadmium affects tobacco cells by a series of three waves of reactive oxygen species that contribute to cytotoxicity. Plant Cell Environ 29:1956-1969 Ghoshroy S, Freedman K, Lartey R, Citovsky V (1998) Inhibition of plant viral systemic infection by non-toxic concentration of cadmium. Plant J 13:591-602 Gratao PL, Polle A, Lea PJ, Azevedo RA (2005) Making the life of heavy metal-stressed plants a little easier. Funct Plant Biol 32:481-494 Gromes R, Hothorn M, Lenherr ED, Rybin V, Scheffzek K, Rausch T (2008) The redox switch of g-glutamylcysteine ligase via a reversible monomer-dimer transition is a mechanism unique to plants. Plant J 54:1063-1075 Guo H, Ecker JR (2004) The ethylene signaling pathway: new insights. Curr Opin Plant Biol 7:40-49 Gupta V, Willits MG, Galzebrook J (2000) Arabidopsis thaliana EDS4 contributes to salicylic acid (SA)-dependent expression of defense responses. Evidence for inhibition of jasmonic acid signaling by SA. Mol Plant Microbe Interact 13:503-511 Hall JL (2002) Cellular mechanisms for heavy metal detoxification and tolerance. J Exp Bot 53:1-11 Hagemeyer J (2004) Ecophysiology of plant growth under heavy metal stress. In: Prasad NMV (eds) Heavy metal stress in plants: from biomolecules to ecosystems. Springer, Berlin Heidelberg, pp 201-222

Hernandez LE, Cooke DT (1997) Modification of the root plasma membrane lipid composition of cadmium-treated Pisum sativum. J Exp Bot 48:1375-1381 Hernandez LE, Garate A, Carpena-Ruiz RO (1997) Effects of cadmium on the uptake, distribution and assimilation of nitrate in Pisum sativum. Plant Soil 189:97-106 Hernandez LE, Lozano-Rodríguez E, Garate A, Carpena-Ruiz RO (1998) Influence of cadmium on the uptake, tissue accumulation and subcellular distribution of manganese in pea seedlings. Plant Sci 132:139-151

Jonak C, Nagkagami H, Hirt H (2004) Heavy metal stress. Activation of distinct mitogen-activated protein kinase pathways by copper and cadmium. Plant Physiol 136:3276-3283 Kim JA, Agrawal GK, Rakwal R, Han KS, Kim KN, Yun CH, Heu S, Park SY, Lee YH, Jwa NS (2003) Molecular cloning and mRNA expression analysis of a novel rice (Oryza sativa L.) MAPK kinase kinase, OsEDR1, an ortholog of Arabidopsis AtEDR1, reveal its role in defense/ stress signalling pathways and development. Biochem Biophys Res Com 300:868-876 Kowalewska G, Falkowski L, Hoffmann SK, Szczepaniak L (1987) Replacement of magnesium by copper (II) in the chlorophyll porphyrin ring of planktonic algae. Acta Physiol Plant 9:43-52

Lamb C, Dixon R (1997) The oxidative burst in plant disease resistance. Annu Rev Plant Physiol

Plant Mol Biol 48:251-275 Lin CH, Chen LM, Liu ZH (2005) Rapid effect of copper on lignin biosynthesis in soybean roots. Plant Sci 168:855-861

Lozano-Rodríguez E, Hernandez LE, Bonay P, Carpena-Ruiz RO (1997) Distribution of cadmium in shoots and root tissues of maize and pea plants. Physiological disturbances. J Exp Bot 48:123-128

Maksymiec W (2007) Signaling responses in plants to heavy metal stress. Acta Physiol Plant 29:177-187

Maksymiec W, Krupa Z (2006) The effects of short-term exposition to Cd, excess Cu ions and jasmonate on oxidative stress appearing in Arabidopsis thaliana. Environ Exp Bot 57:187-194 Maksymiec W, Wianowska D, Dawidowicz AL, Radkiewicz S, Mardarowicz M, Krupa Z (2005) The level of jasmonic acid in Arabidopsis thaliana and Phaseolus coccineus plants under heavy metal stress. J Plant Physiol 162:1338-1346 Maksymiec W (1997) Effect of copper on cellular processes in higher plants. Photosynthetica 34: 321-342

Maughan SC, Pasternak M, Cairns N, Kiddle G, Brach T, Jarvis R, Hass F, Nieuwland J, Lim B, Muller C, Salcedo-Sora E, Kruse C, Orsel M, Hell R, Miller AJ, Bray P, Foyer CH, Murray JAH, Meyer AJ, Cobbett CS (2010) Plant homologs of the plasmodium falciparum chloroquine-resistance transporter, PfCRT, are required for glutathione homeostasis and stress responses. Proc Natl Acad Sci U S A 107:2331-2336 Metwally A, Finkemeier I, Georgi M, Dietz KJ (2003) Salicylic acid alleviates the cadmium toxicity in barley seedlings. Plant Physiol 132:272-281 Miller G, Shulaev V, Mittler R (2008) Reactive oxygen signalling and abiotic stress. Physiol Plant 133:481-489

Mira H, Martinez N, Penarrubia L (2002) Expression of vegetative-storage protein gene from

Arabidopsis is regulated by copper, senescence and ozone. Planta 214:939-946 Mithofer A, Schulze B, Boland W (2004) Biotic and heavy metal stress response in plants:

evidence for common signals. FEBS Lett 566:1-5 Mittler R, Vanderauwera S, Gollery M, Van Breusegem F (2004) Reactive oxygen gene network of plants. Trends Plant Sci 9:490-498 Mittra B, Ghosh P, Henry SL, Mishra J, Das TK, Ghosh S, Babu CR, Mohanty P (2004) Novel mode of resistance to Fusarium infection by a mild dose pre-exposure of cadmium in wheat. Plant Physiol Biochem 42:781-787 Narusaka Y, Narusaka M, Seki M, Umezawa T, Ishida J, Nakajima M, Enju A, Shinozaki K (2004) Crosstalk in the responses to abiotic and biotic stresses in Arabidopsis: analysis of gene expression in cytochrome P450 gene superfamily by cDNA microarray. Plant Mol Biol 55:327-342

Neill SJ, Desikan R, Clarke A, Hurs RD, Hancock JT (2002) Hydrogen peroxide and nitric oxide as signaling molecules in plants. J Exp Bot 53:1237-1247 Noctor G (2006) Metabolic signalling in defence and stress: the central roles of soluble redox couples. Plant Cell Environ 29:409-425 Noctor G, Foyer CH (1998) Ascorbate and glutathione: keeping active oxygen under control.

Annu Rev Plant Physiol Plant Mol Biol 49:249-279 Nouari I, Ammar WB, Yousef NB, Daoud DBM, Ghorbal NH, Zarrouk M (2006) Comparative study of cadmium effects on membrane lipid composition of Brassica juncea and Brassica napus leaves. Plant Sci 170:511-519 Olmos E, Martínez-Solano JR, Piqueras A, Hellín E (2003) Early steps in the oxidative burst induced by cadmium in cultured tobacco cells (BY-2 line). J Exp Bot 54:291-301 Ortega-Villasante C, Hernandez LE, Rellan-Alvarez R, Del Campo FF, Carpena-Ruiz RO (2007) Rapid alteration of cellular redox homeostasis upon exposure to cadmium and mercury in alfalfa seedlings. New Phytol 176:96-107

Ortega-Villasante C, Rellan-Alvarez R, Del Campo FF, Carpena-Ruiz RO, Hernandez LE (2005) Cellular damage induced by cadmium and mercury in Medicago sativa. J Exp Bot 56:2239-2251

Pasternak M, Lim B, Wirtz M, Hell R, Cobbett CS, Meyer AJ (2008) Restricting glutathione biosynthesis to the cytosol is sufficient for normal plant development. Plant J 53:999-1012 Pastori GM, Foyer CH (2002) Common components, networks, and pathways of cross-tolerance to stress. The central role of "redox" and abscisic acid-mediated controls. Plant Physiol 129:460-468

Patra M, Bhowmik N, Bandopadhyay B, Sharma A (2004) Comparison of mercury, lead and arsenic with respect to genotoxic effects on plant systems and the development of genetic tolerance. Environ Exp Bot 52:199-223 Perfus-Barbeoch L, Leonhardt N, Vavasseur A, Forestier C (2002) Heavy metal toxicity: cadmium permeates through calcium channels and disturbs the plant water status. Plant J 32:539-548 Pitta-Alvarez SI, Spollansky TC, Giulietti AM (2000) The influence of different biotic and abiotic elicitors on the production and profile of tropane alkaloids in hairy root cultures of Brugmansia candida. Enzyme Microbial Tech 26, 252-258 Poschenrieder C, Tolra R, Barcelo J (2006) Can metals defend plants against biotic stress? Trends Plant Sci 11:288-295

Przymusmski R, Gwozdz EA (1999) Heavy metal-induced polypeptides in lupin roots are similar to pathogenesis-related proteins. J Plant Physiol 154:703-708 Queval G, Thominet D, Vanacker H, Miginiac-Maslow M, Gaki&e B, Noctor G (2009) H2O2-Activated up-regulation of glutathione in Arabidopsis involves induction of genes encoding enzymes involved in cysteine synthesis in the chloroplast. Mol Plant 2:344-356 Rakwal R, Tamogami S, Kodama O (1996) Role of jasmonic acid as a signaling molecule in copper chloride-elicited rice phytoalexin production. Biosci Biotech Biochem 60:1046-1048 Radmer R, Kok B (1974) Kinetic observation of the System II electron acceptor pool isolated by mercuric ion. Biochim. Biophys. Acta 357:177-180 Rellan-Alvarez R, Ortega-Villasante C, Alvarez-Fernandez A, del Campo FF, Hernandez LE

(2006) Stress responses of Zea mays to cadmium and mercury. Plant Soil 279:41-50 Remans T, Opdenakker K, Smeets K, Mathijsen D, Vangronsveld J, Cuypers A (2010) Metal-specific and NADPH oxidase dependent changes in lipoxygenase and NADPH oxidase gene expression in Arabidopsis thaliana exposed to cadmium or excess copper. Funct Plant Biol 37:532-544 Rentel M, Knight MR (2004) Oxidative stress-induced calcium signaling in Arabidopsis. Plant Physiol 135:1471-1479

Rivetta A, Negrini N, Cocucci M (1997) Involvement of Ca2+-calmodulin in Cd2+ toxicity during the early phases of radish (Raphanus sativus L.) seed germination. Plant Cell Environ 20:600-608

Rodriguez-Serrano M, Romero-Puertas MC, Pazmiflo DM, Testillano PS, Risueflo MC, del Rio LA, Sandalio LM (2009) Cellular response of pea plants to cadmium toxicity: cross talk between reactive oxygen species, nitric oxide, and calcium. Plant Physiol 150:229-243 Romero-Puertas MC, Palma JM, Gomez M, del Rio LA, Sandalio LM (2002) Cadmium causes the oxidative modification of proteins in pea plants. Plant Cell Environ 25:677-686 Romero-Puertas MC, Rodriquez-Serrano M, Corpas FJ, Gomez M, Del Rio LA, Sandalio LM (2004) Cadmium-induced subcellular accumulation of O22~ and H2O2 in pea leaves. Plant Cell Environ 27:1122-1134

Saathoff AJ, Ahner B, Spanswick RM, Walker LP (2011) Detection of phytochelatin in the xylem sap of Brassica napus. Environ Eng Sci 28:103-111 Saito K (2004) Sulfur assimilatory metabolism: the long and smelling road. Plant Physiol 136:2443-2450

Sandmann G, Boger P (1980) Copper-mediated lipid peroxidation processes in photosynthetic membranes. Plant Physiol 66:797-800 Sanita di Toppi L, Gabbrielli R (1999) Response to cadmium in higher plants. Environ Exp Bot 41:105-130

Sarry JE, Kuhn L, Ducruix C, Lafaye A, Junot C, Hugouvieux V, Jourdain A, Bastien O, Fievet JB, Vailhen D, Amekraz B, Moulin C, Ezan E, Garin J, Bourguignon J (2006) The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses. Proteomics 6:2180-2198 Schutzendubel A, Polle A (2002) Plant responses to abiotic stresses: heavy metal-induced oxidative stress and protection by mycorrhization. J Exp Bot 53:1351-1365 Schutzendubel A, Schwanz P, Teichmann T, Gross K, Langenfeld-Heyser R, Goldbold DL, Polle A (2001) Cadmium-induced changes in antioxidant systems, hydrogen peroxide content and differentiation in Scot pine roots. Plant Physiol 127:887-898 Sharma SS, Dietz KJ (2009) The relationship between metal toxicity and cellular redox imbalance.

Trends Plant Sci 14:43-50 Skorzyriska E, Baszyriski T (1993) The changes in PSII complex polypeptides under cadmium treatment are they of direct or indirect nature. Acta Physiol Plant 15:263-269 Sobkowiak R, Deckert J (2003) Cadmium-induced changes in growth and cell cycle gene expression in suspension-culture cells of soybean. Plant Physiol Biochem 41:767-772 Sobrino-Plata J, Ortega-Villasante C, Flores-Caceres ML, Escobar C, Del Campo FF, Hernandez LE (2009) Differential alterations of antioxidant defenses as bioindicators of mercury and cadmium toxicity in alfalfa. Chemosphere 77:946-954 Somashekaraiah BV, Padmaja K, Prasad ARK (1992) Phototoxicity of cadmium ions on germinating seedlings of mung bean (Phaseolus vulgaris): involvement of lipid peroxides in chlorophyll degradation. Physiol Plant 85:85-89 Tamils L, Mistrik I, Huttova J, Haluskova L, Valentovicova K, Zelinova V (2010) Role of reactive oxygen species-generating enzymes and hydrogen peroxide during cadmium, mercury and osmotic stresses in barley root tip. Planta 231:221-231 Tamas L, Durcekova K, Haluskova L, Huttova J, Mistrik I, Olle M (2007) Rhizosphere localized cationic peroxidase from barley roots is strongly activated by cadmium and correlated with root growth inhibition. Chemosphere 66:1292-1300 Turner JG, Ellis CH, Devoto A (2002) The jasmonate signal pathway. Plant Cell 14S:153-164 Vatamaniuk OK, Mari S, Lang A, Chalasani S, Demkiv LO, Rea P (2004) Phytochelatin synthase, a dipeptidyl transferase that undergoes multisite acylation with gammaglutamylcysteine during catalysis. Stoichiometric and site-directed mutagenic analysis of AtPCS1-catalyzed phytochelatin synthesis. J Biol Chem 279:22449-22460 Vazquez S, Carpena-Ruiz RO (2005) Use of perlite in cadmium plant studies: an approach to polluted soil conditions. J Environ Monit 7:1355-1358 Vernoux T, Wilson RC, Seeley KA, Reichheld JP, Muroy S, Brown S, Maughan SC, Cobbett CS, Van Montagu M, Inze D, May MJ, Sung ZR (2000) The root meristemless1/cadmium sensi-tive2 gene defines a glutathione-dependent pathway involved in initiation and maintenance of cell division during postembryonic root development. Plant Cell 12:97-109 Wang H, Zhao SC, Liu RL, Zhou W, Jin JY (2009) Changes of photosynthetic activities of maize

(Zea mays L.) seedlings in response to cadmium stress. Photosythetica 47:277-283 Wachter A, Wolf S, Steininger H, Bogs J, Rausch T (2005) Differential targeting of GSH1 and GSH2 is achieved by multiple transcription initiation: implications for the compartmentation of glutathione biosynthesis in the Brassicaceae. Plant J 41:15-30 Weckx JEJ, Clijsters HMM (1997) Zn phytotoxicity induces oxidative stress in primary leaves of

Phaseolus vulgaris. Plant Physiol Biochem 35:405-410 Wong CKE, Cobbett CS (2009) HMA type P-type ATPase transporters are the major for root to shoot Cd translocation in Arabidopsis thaliana. New Phytol 181:71-81 Xiang C, Oliver DJ (1998) Glutathione metabolic genes coordinately respond to heavy metals and jasmonic acid in Arabidopsis. Plant Cell 10:1539-1550 Yeh CHM, Hung WCH, Huang HJ (2003) Copper treatment activates mitogen-activated protein kinase signalling in rice. Physiol Plant 119:392-399 Zhigang N, Wang Y, Shaoshan L (2009) Heavy metal-induced DNA damage in Arabidopsis thaliana protoplasts measured by single-cell gel electrophoresis. Chin Bull Bot 44:117-123

Was this article helpful?

0 0
Growing Soilless

Growing Soilless

This is an easy-to-follow, step-by-step guide to growing organic, healthy vegetable, herbs and house plants without soil. Clearly illustrated with black and white line drawings, the book covers every aspect of home hydroponic gardening.

Get My Free Ebook


Post a comment