Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective

Wormuth D, Heiber I, Shaikali J, Kandlbinder A, Baier M, Dietz K-J (2007)
JOURNAL OF BIOTECHNOLOGY 129(2): 229-248.

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Abstract
Redox regulation is a central control element in cell metabolism. It is employed to adjust photosynthesis and the antioxidant defence system of leaves to the prevailing environment. During recent years progress has been made in describing the redox-dependent alterations in metabolism, the thiol/disulfide proteome, the redox-dependent and cross-talking signalling pathways and the target genes of redox regulation. Some transcription factors have been identified as proteins that perform thiol/disulfide transitions linked to the redox-regulation of specific plant promoters. In addition first mathematical models have been designed to simulate antioxidant defence and predict its response. Taken together, a profound experimental data set has been generated which allows to approach a systems biology type of understanding of antioxidant defence in photosynthesising cells in the near future. Since oxidative stress is likely to limit plant growth under stress, such a systematic understanding of antioxidant defence will help to define novel targets for breeding stress-tolerant plants. (c) 2006 Elsevier B.V. All rights reserved.
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Wormuth D, Heiber I, Shaikali J, Kandlbinder A, Baier M, Dietz K-J. Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective. JOURNAL OF BIOTECHNOLOGY. 2007;129(2):229-248.
Wormuth, D., Heiber, I., Shaikali, J., Kandlbinder, A., Baier, M., & Dietz, K. - J. (2007). Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective. JOURNAL OF BIOTECHNOLOGY, 129(2), 229-248.
Wormuth, D., Heiber, I., Shaikali, J., Kandlbinder, A., Baier, M., and Dietz, K. - J. (2007). Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective. JOURNAL OF BIOTECHNOLOGY 129, 229-248.
Wormuth, D., et al., 2007. Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective. JOURNAL OF BIOTECHNOLOGY, 129(2), p 229-248.
D. Wormuth, et al., “Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective”, JOURNAL OF BIOTECHNOLOGY, vol. 129, 2007, pp. 229-248.
Wormuth, D., Heiber, I., Shaikali, J., Kandlbinder, A., Baier, M., Dietz, K.-J.: Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective. JOURNAL OF BIOTECHNOLOGY. 129, 229-248 (2007).
Wormuth, Dennis, Heiber, Isabelle, Shaikali, Jehad, Kandlbinder, Andrea, Baier, Margarete, and Dietz, Karl-Josef. “Redox regulation and antioxidative defence in Arabidopsis leaves viewed from a systems biology perspective”. JOURNAL OF BIOTECHNOLOGY 129.2 (2007): 229-248.
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Data provided by Europe PubMed Central.

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Cui H, Kong D, Wei P, Hao Y, Torii KU, Lee JS, Li J., Mol Plant 7(12), 2014
PMID: 25267734
Phosphorylation and nitration levels of photosynthetic proteins are conversely regulated by light stress.
Galetskiy D, Lohscheider JN, Kononikhin AS, Popov IA, Nikolaev EN, Adamska I., Plant Mol. Biol. 77(4-5), 2011
PMID: 21901528
Hormesis and a Chemical Raison D'etre for Secondary Plant Metabolites.
Hadacek F, Bachmann G, Engelmeier D, Chobot V., Dose Response 9(1), 2011
PMID: 21431080
Abiotic stress and the plant circadian clock.
Sanchez A, Shin J, Davis SJ., Plant Signal Behav 6(2), 2011
PMID: 21325898
Mass spectrometric characterization of photooxidative protein modifications in Arabidopsis thaliana thylakoid membranes.
Galetskiy D, Lohscheider JN, Kononikhin AS, Popov IA, Nikolaev EN, Adamska I., Rapid Commun. Mass Spectrom. 25(1), 2011
PMID: 21154902
Transport activity of rice sucrose transporters OsSUT1 and OsSUT5.
Sun Y, Reinders A, LaFleur KR, Mori T, Ward JM., Plant Cell Physiol. 51(1), 2010
PMID: 19965875
Plant proteomics update (2007-2008): Second-generation proteomic techniques, an appropriate experimental design, and data analysis to fulfill MIAPE standards, increase plant proteome coverage and expand biological knowledge.
Jorrin-Novo JV, Maldonado AM, Echevarria-Zomeno S, Valledor L, Castillejo MA, Curto M, Valero J, Sghaier B, Donoso G, Redondo I., J Proteomics 72(3), 2009
PMID: 19367730
PVY(NTN) elicits a diverse gene expression response in different potato genotypes in the first 12 h after inoculation.
Baebler S, Krecic-Stres H, Rotter A, Kogovsek P, Cankar K, Kok EJ, Gruden K, Kovac M, Zel J, Pompe-Novak M, Ravnikar M., Mol. Plant Pathol. 10(2), 2009
PMID: 19236574
Effects of high temperature on activities and gene expression of enzymes involved in ascorbate-glutathione cycle in apple leaves
Ma Yu-Hua, Ma Feng-Wang, Zhang Jun-Ke, Li Ming-Jun, Wang Yong-Hong, Liang Dong., Plant Sci. 175(6), 2008
PMID: IND44119301
The dynamics of photosynthesis.
Eberhard S, Finazzi G, Wollman FA., Annu. Rev. Genet. 42(), 2008
PMID: 18983262
Early leaf senescence is associated with an altered cellular redox balance in Arabidopsis cpr5/old1 mutants.
Jing HC, Hebeler R, Oeljeklaus S, Sitek B, Stuhler K, Meyer HE, Sturre MJ, Hille J, Warscheid B, Dijkwel PP., Plant Biol (Stuttg) 10 Suppl 1(), 2008
PMID: 18721314
NTRC new ways of using NADPH in the chloroplast
Spinola MC, Perez-Ruiz JM, Pulido P, Kirchsteiger K, Guinea M, Gonzalez M, Cejudo FJ., Physiol Plant 133(3), 2008
PMID: IND44069757
Redox signal integration: from stimulus to networks and genes.
Dietz KJ., Physiol Plant 133(3), 2008
PMID: 18429942
NTRC new ways of using NADPH in the chloroplast.
Spinola MC, Perez-Ruiz JM, Pulido P, Kirchsteiger K, Guinea M, Gonzalez M, Cejudo FJ., Physiol Plant 133(3), 2008
PMID: 18346073

143 References

Data provided by Europe PubMed Central.

Identifying and characterizing plastidic 2-oxoglutarate/malate and dicarboxylate transporters in Arabidopsis thaliana.
Taniguchi M, Taniguchi Y, Kawasaki M, Takeda S, Kato T, Sato S, Tabata S, Miyake H, Sugiyama T., Plant Cell Physiol. 43(7), 2002
PMID: 12154133
MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes.
Thimm O, Blasing O, Gibon Y, Nagel A, Meyer S, Kruger P, Selbig J, Muller LA, Rhee SY, Stitt M., Plant J. 37(6), 2004
PMID: 14996223
Mathematical modelling of the light response curve of photoinhibition of photosystem II.
Tyystjarvi E, Hakala M, Sarvikas P., Photosyn. Res. 84(1-3), 2005
PMID: 16049750
WRKY transcription factors: from DNA binding towards biological function.
Ulker B, Somssich IE., Curr. Opin. Plant Biol. 7(5), 2004
PMID: 15337090
The ROOT MERISTEMLESS1/CADMIUM SENSITIVE2 gene defines a glutathione-dependent pathway involved in initiation and maintenance of cell division during postembryonic root development.
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., Plant Cell 12(1), 2000
PMID: 10634910
The biosynthetic pathway of vitamin C in higher plants.
Wheeler GL, Jones MA, Smirnoff N., Nature 393(6683), 1998
PMID: 9620799
Catalase is a sink for H2O2 and is indispensable for stress defence in C3 plants.
Willekens H, Chamnongpol S, Davey M, Schraudner M, Langebartels C, Van Montagu M, Inze D, Van Camp W., EMBO J. 16(16), 1997
PMID: 9305623
Thioredoxin and glutathione regulate photosynthesis in chloroplasts
Wolosiuk, Nature 266(), 1977
Regulation of gene expression by photosynthetic signals triggered through modified CO2 availability.
Wormuth D, Baier M, Kandlbinder A, Scheibe R, Hartung W, Dietz KJ., BMC Plant Biol. 6(), 2006
PMID: 16916444
Genetic engineering of plant signal transduction mechanisms
Xing, Plant Mol. Biol. 18(), 2000
Hydrogen peroxide is involved in abscisic acid-induced stomatal closure in Vicia faba.
Zhang X, Zhang L, Dong F, Gao J, Galbraith DW, Song CP., Plant Physiol. 126(4), 2001
PMID: 11500543
GENEVESTIGATOR. Arabidopsis microarray database and analysis toolbox.
Zimmermann P, Hirsch-Hoffmann M, Hennig L, Gruissem W., Plant Physiol. 136(1), 2004
PMID: 15375207
Gene-expression analysis and network discovery using Genevestigator.
Zimmermann P, Hennig L, Gruissem W., Trends Plant Sci. 10(9), 2005
PMID: 16081312

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