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NTIS 바로가기생명과학회지 = Journal of life science, v.13 no.5 = no.60, 2003년, pp.658 - 667
배정진 (경북대학교 자연과학대학 생물학과) , 추연식 (경북대학교 자연과학대학 생물학과) , 송승달 (경북대학교 자연과학대학 생물학과)
Antioxidative enzymes (superoxide dismutase; SOD, ascorbate peroxidase; APX, glutathione reductase; GR) play major roles in scavenging mechanism of reactive oxygen species which were involved in various stress conditions including salt. In order to investigate the relation between their growth respo...
Physiologia Plantrum 89 441 1989
Alscher, Ruth Grene. Biosynthesis and antioxidant function of glutathione in plants. Physiologia plantarum, vol.77, no.3, 457-464.
Asada, Kozi. Ascorbate peroxidase – a hydrogen peroxide-scavenging enzyme in plants. Physiologia plantarum, vol.85, no.2, 235-241.
Asada, Kozi. THE WATER-WATER CYCLE IN CHLOROPLASTS: Scavenging of Active Oxygens and Dissipation of Excess Photons. Annual review of plant physiology and plant molecular biology, vol.50, 601-639.
Prog. Bot. 60 282 1998
Plant Cell Physiol. 35 489 1994
Bartosz, Grzegorz. Oxidative stress in plants. Acta physiologiae plantarum, vol.19, no.1, 47-64.
Beauchamp, Charles, Fridovich, Irwin. Superoxide dismutase: Improved assays and an assay applicable to acrylamide gels. Analytical biochemistry, vol.44, no.1, 276-287.
Beyer Jr., Wayne F., Fridovich, Irwin. Assaying for superoxide dismutase activity: Some large consequences of minor changes in conditions. Analytical biochemistry, vol.161, no.2, 559-566.
Annu. Rev. Plant physiol. Plant Mol Biol. 43 81 1992
Bunkelmann, J. R., Trelease, R. N.. Ascorbate Peroxidase (A Prominent Membrane Protein in Oilseed Glyoxysomes). Plant physiology, vol.110, no.2, 589-598.
Cakmak, Ismail, Marschner, Horst. Magnesium Deficiency and High Light Intensity Enhance Activities of Superoxide Dismutase, Ascorbate Peroxidase, and Glutathione Reductase in Bean Leaves. Plant physiology, vol.98, no.4, 1222-1227.
Choudhury, S. B., Lee, J.-W., Davidson, G., Yim, Y.-I., Bose, K., Sharma, M. L., Kang, S.-O., Cabelli, D. E., Maroney, M. J.. Examination of the Nickel Site Structure and Reaction Mechanism in Streptomycesseoulensis Superoxide Dismutase. Biochemistry, vol.38, no.12, 3744-3752.
CHUN, J., YOUN, H.-D., YIM, Y.-I., LEE, H., KIM, M. Y., HAH, Y. C., KANG, S.-O.. Streptomyces seoulensis sp. nov.. International journal of systematic bacteriology, vol.47, no.2, 492-498.
Dionisio-Sese, Maribel L, Tobita, Satoshi. Antioxidant responses of rice seedlings to salinity stress. Plant science, vol.135, no.1, 1-9.
Foyer, Christine H., Halliwell, Barry. The presence of glutathione and glutathione reductase in chloroplasts: A proposed role in ascorbic acid metabolism. Planta, vol.133, no.1, 21-25.
FOYER, C. H., DESCOURVIÈRES, P., KUNERT, K. J.. Protection against oxygen radicals: an important defence mechanism studied in transgenic plants. Plant, cell and environment, vol.17, no.5, 507-523.
Foyer, C. H., Souriau, N., Perret, S., Lelandais, M., Kunert, K. J., Pruvost, C., Jouanin, L.. Overexpression of Glutathione Reductase but Not Glutathione Synthetase Leads to Increases in Antioxidant Capacity and Resistance to Photoinhibition in Poplar Trees. Plant physiology, vol.109, no.3, 1047-1057.
Fridovich, I. The biology of oxygen radicals. Science, vol.201, no.4359, 875-880.
Adv Enzymol Relat Areas Mol. Biol. 58 61 1986
Plant Physiol. 112 803 1994
Gossett, Dalton R., Millhollon, Eddie P., Lucas, M. Cran. Antioxidant Response to NaCl Stress in Salt‐Tolerant and Salt‐Sensitive Cultivars of Cotton. Crop science, vol.34, no.3, 706-714.
Greenway, H, Munns, R. Mechanisms of Salt Tolerance in Nonhalophytes. Annual review of plant physiology, vol.31, 149-190.
Hanson, Andrew D., Rathinasabapathi, Bala, Chamberlin, Beverly, Gage, Douglas A.. Comparative Physiological Evidence that β-Alanine Betaine and Choline-O-Sulfate Act as Compatible Osmolytes in Halophytic Limonium Species. Plant physiology, vol.97, no.3, 1199-1205.
Hernández, José A., Corpas, Francisco J., Gómez, Manuel, del Río, Luis A., Sevilla, Francisca. Salt‐induced oxidative stress mediated by activated oxygen species in pea leaf mitochondria. Physiologia plantarum, vol.89, no.1, 103-110.
Holmberg, Niklas, Bülow, Leif. Improving stress tolerance in plants by gene transfer. Trends in plant science, vol.3, no.2, 61-66.
Imlay, JA, Linn, S. DNA damage and oxygen radical toxicity. Science, vol.240, no.4857, 1302-1309.
Plant Physiol. 114 275 1997 10.1104/pp.114.1.275
Plant Cell Physiol. 39 23 1998 10.1093/oxfordjournals.pcp.a029285
Biophys. Acta. 440 475 1976
Bot. Acta 109 8 1996 10.1111/j.1438-8677.1996.tb00864.x
Levine, A., Tenhaken, R., Dixon, R., Lamb, C.. H2O2 from the oxidative burst orchestrates the plant hypersensitive disease resistance response. Cell, vol.79, no.4, 583-593.
Lopez, Felicie, Vansuyt, Gerard, Casse‐Delbart, Francine, Fourcroy, Pierre. Ascorbate peroxidase activity, not the mRNA level, is enhanced in salt‐stressed Raphanus sativus plants. Physiologia plantarum, vol.97, no.1, 13-20.
J. Biol. Chem. 193 265 1951 10.1016/S0021-9258(19)52451-6
Matoh, Tōru, Watanabe, Junko, Takahashi, Eiichi. Sodium, Potassium, Chloride, and Betaine Concentrations in Isolated Vacuoles from Salt-Grown Atriplex gmelini Leaves. Plant physiology, vol.84, no.1, 173-177.
McKersie, B. D., Chen, Y., de Beus, M., Bowley, S. R., Bowler, C., Inze, D., D'Halluin, K., Botterman, J.. Superoxide Dismutase Enhances Tolerance of Freezing Stress in Transgenic Alfalfa (Medicago sativa L.). Plant physiology, vol.103, no.4, 1155-1163.
Plant physiol. 111 1177 1996 10.1104/pp.111.4.1177
J. Plant physiol. 155 274 1999 10.1016/S0176-1617(99)80019-4
Plant Cell Physiol. 22 867 1981
Noctor, Graham, Arisi, Ana‐Carolina M., Jouanin, Lise, Valadier, Marie‐Hélène, Roux, Yvette, Foyer, Christine H.. The role of glycine in determining the rate of glutathione synthesis in poplar. Possible implications for glutathione production during stress. Physiologia plantarum, vol.100, no.2, 255-263.
Plant physiol. 112 1071 1996 10.1104/pp.112.3.1071
Price, Adam H., Atherton, Neil M., Hendry, George A. F.. Plants Under Drought-Stress Generate Activated Oxygen. Free radical research communications, vol.8, no.1, 61-66.
Flora. 180 289 1988 10.1016/S0367-2530(17)30324-9
Rout, N.P., Shaw, B.P.. Salt tolerance in aquatic macrophytes: possible involvement of the antioxidative enzymes. Plant science, vol.160, no.3, 415-423.
Plant Physiol. 69 161 1982 10.1104/pp.69.1.161
Salin, Marvin L., Bridges, Susan M.. Isolation and Characterization of an Iron-Containing Superoxide Dismutase From Water Lily, Nuphar luteum. Plant physiology, vol.69, no.1, 161-165.
SMIRNOFF, NICHOLAS, COLOMBÉ, STEPHEN V.. Drought Influences the Activity of Enzymes of the Chloroplast Hydrogen Peroxide Scavenging System. Journal of experimental botany, vol.39, no.8, 1097-1108.
Strid, �ke, Chow, Wah Soon, Anderson, Jan M.. UV-B damage and protection at the molecular level in plants. Photosynthesis research, vol.39, no.3, 475-489.
Can. J. Plant Sci. 78 19 1998 10.4141/P97-020
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