The redox state of the ascorbate-dehydroascorbate pair as a specific sensor of cell division in tobacco BY-2 cells

Abate C, Patel L, Rauscher FJ, Curran T (1990) Redox regulation of fos and jun DNA-binding activity in vitro. Science 249: 1157–1161

Alcaín FJ, Buròn MI (1994) Ascorbate on cell growth and differentation. J Bioenerg Biomembr 26: 393–398

— —, Rodriguez-Aguilera JC, Villalba JM, Navas P (1990) Ascorbate free radical stimulates the growth of a human promyelocytic leukemia cell line. Cancer Res 50: 5887–5891

Arrigoni O (1994) Ascorbate system in plant development. J Bioenerg Biomembr 26: 407–419

Citterio S, Sgorbati S, Scippa S, Sparvoli E (1994) Ascorbic acid effect on the onset of cell proliferation in pea root. Physiol Plant 92: 601–607

Córdoba-Pedregosa MC, González-Reyes JA, Cañadillas MS, Navas P, Córdoba F (1996) Role of apoplastic and cell-wall peroxidases on the stimulation of root elongation by ascorbate. Plant Physiol 112: 1119–1125

De Cabo RC, Gonzalez-Reyes JA, Navas P (1993) The onset of cell proliferation is stimulated by ascorbate free radical in onion root primordia. Biol Cell 77: 231–233

De Gara L, Tommasi F (1999) Ascorbate redox enzyme: a network of reactions involved in plant development. Recent Res Dev Phytochem 3: 1–15

—, Paciolla C, Tommasi F, Arrigoni O (1994) In vivo inhibition of galactono-γ-lactone conversion to ascorbate by lycorine. J Plant Physiol 144: 649–653

Francis D (1998) Environmental control of the cell cycle in higher plants. In: Bryant JA, Chiatante D (eds) Plant cell proliferation and its regulation in growth and development. Wiley, New York, pp 79–98

—, Davies MS, Braybrook C, James NC (1995) An effect of zinc on M-phase and Gl of the plant cell cycle in the synchronous TBY-2 tobacco cell suspension. J Exp Bot 293: 1887–1894

Fry SC (1998) Oxidative scission of plant cell wall polysaccharides by ascorbate-induced hydroxyl radicals. Biochem J 332: 507–515

Horemans N, Asard H, Caubergs RJ (1997) The ascorbate carrier of higher plant plasma membranes preferentially translocates the fully oxidized (dehydroascorbate) molecule. Plant Physiol 114: 1247–1253

— — — (1998) Carrier mediated uptake of dehydroascorbate into higher plant plasma membrane vesicles shows Irans stimulation. FEBS Lett 421: 41–44

Innocenti AM, Bitonti MB, Arrigoni O, Liso R (1990) The size of quiescent centre in roots ofAllium cepa L. grown with ascorbic acid. New Phytol 114: 507–509

Kampfenkel K, Van Montagu M, Inzè D (1995) Extraction and determination of ascorbate and dehydroascorbate from plant tissue. Anal Biochem 225: 165–167

Kerk NM, Feldman LJ (1995) A biochemical model for the initiation and maintenance of the quiescent centre: implications for organisation of root meristems. Development 121: 2825–2833

Linsmayer EM, Skoog F (1965) Organic growth factor requirements of tobacco tissue cultures. Physiol Plant 18: 100–127

Liso R, Calabrese G, Bitonti MB, Arrigoni O (1984) Relationship between ascorbic acid and cell division. Exp Cell Res 150: 314–320

—, Innocenti AM, Bitonti MB, Arrigoni O (1988) Ascorbic acid-induced progression of quiescent centre cells from g1 to S phase. New Phytol 110: 469–471

—, Takahama U, Heber U (1993) Role of ascorbate in detoxifying ozone in the apoplast of spinach (Spinada oleracea L.) leaves. Plant Physiol 101: 969–976

Luwe M (1996) Antioxidants in the apoplast and symplast of beech (Fagus sylvatica L.) leaves: seasonal variations and responses to changing ozone concentrations in air. Plant Cell Environ 19: 321–328

Matsumura H, Miyachi S (1980) Cycling assay for nicotinamide adenine dinucleotide. Methods Enzymol 69: 465–471

Matthews JR, Wakasugi N, Virelizier JL, Yodoi J, Hay RT (1992) Thioredoxin regulates the DNA binding activity of NF-kappaB by reduction of a disulfide bond involving cysteine 62. Nucleic Acids Res 20: 3821–3830

May JM, Mendiratta S, Hill KE, Burk RF (1997) Reduction of dehydroascorbate to ascorbate by the selenoenzyme thioredoxin reductase. J Biol Chem 272: 22607–22610

Morell S, Follmann H, De Tullio M, Haberlein I (1997) Dehydroascorbate and dehydroascorbate reductase are phantom indicators of oxidative stress in plants. FEBS Lett 414: 567–570

Nagata T, Nemoto Y, Hasezawa S (1992) Tobacco BY-2 cell line as the “HeLa” cell in the cell biology of higher plants. Int Rev Cytol 132: 1–30

Navas P, Gomez-Diaz C (1995) Ascorbate free radical and its role in growth control. Protoplasma 184: 8–13

Polle A, Wieser G, Havranek WM (1995) Quantification of ozone influx and apoplastic ascorbate content in needles of Norway spruce trees (Picea abies L., Karst) at high altitude. Plant Cell Environ 18: 681–688

Powis G, Briehl M, Oblong J (1995) Redox signalling and the control of cell growth and death. Pharmacol Ther 68: 149–173

Sanchez-Fernandez R, Fricker M, Corben LB, White NS, Sheard N, Leaver CJ, Van Montagu M, Inzé D, May MJ (1997) Cell proliferation and hair tip growth in the Arabidopsis root are under mechanistically different forms of redox control. Proc Natl Acad Sci USA 94: 2745–2750

Trumper S, Follman H, Haberlein I (1994) A novel dehydroascorbate reductase from spinach chloroplasts homologous to plant trypsin inhibitor. FEBS Lett 352: 159–162

Wells WW, Peng Xus D, Yang Y, Rocque PA (1990) Mammalian thioltransferase (glutaredoxin) and protein disulfide isomerase have dehydroascorbate reductase activity. J Biol Chem 256: 15361–15364

Zhang F, Kirkham MB (1996) Antioxidant responses to drought in sunflower and sorghum seedlings. New Phytol 132: 361–373