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1993 | 40 | 2 |

Tytuł artykułu

The response of plant NAD kinase to abiotic stresses

Warianty tytułu

Języki publikacji

EN

Abstrakty

Słowa kluczowe

Wydawca

-

Rocznik

Tom

40

Numer

2

Opis fizyczny

p.201-207

Twórcy

autor
  • Plant Breeding and Acclimatization Institute, Radzikow, 00-950 Warszawa, Poland
autor

Bibliografia

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  • 3. Stavarek, S.J. & Rains, D.W. (1985) Effect of salinity on growth and maintenance costs of plant cells; in Cellular and Molecular Biology of Plant Stress (Key, J.L. & Kosuge, T., eds.) pp. 129 -143, Alan R. Liss, New York.
  • 4. Szaniawski, R.K. (1985) Homeostasis in cucumber plants during low temperature stress. Physiol. Plant. 64,212 - 216.
  • 5. Irving, D.E. & Silsbury,J.H. (1987)Acomparison of the rate of maintenance respiration in some crop legumes and tobacco determined by three methods. Ann. Bot. 59,257 - 264.
  • 6. Amthor, J.S. & Cumming, J.R. (1988) Low levels of ozone increase bean leaf maintenance respiration. Can. J. Bot. 66,724 - 726.
  • 7. Taylor, G.J. (1989) Maximum potential growth rate and allocation of respiratory energy as related to stress tolerance in plants. Plant Biochem. Physiol. 32,139 -168.
  • 8. Atkinson, D.E. (1968) The energy charge of the adenylate pool as a regulatory parameter. Interaction with feedback modifiers. Biochemistry 7,4030 - 4043.
  • 9. Atkinson, D.E. (1971) Enzymes as control elements in metabolic regulation. Enzymes 1, 461-489.
  • 10. Quebedeaux, B. (1981) Adenylate and nicotinamide nucleotides in developing soybe­an seeds during seed-fill. Plant Physiol. 68, 23 - 27.
  • 11. Hoffmann, P. (1985) Ecophysiological aspects of biomass production in higher plants. Photosyn. Res. 7,3 -17.
  • 12. Raymond, P., Gidral, X., Salon, C & Pradet, A. (1987) Control involving adenine and pyridine nucleotides; in The Biochemistry of Plants (Davies, D.D., ed.) vol. 11, pp. 129 - 176, Academic Press.
  • 13. Stuhlfautht, T., Beckedahl, J. & Fock, H.P. (1991) The response of energy charge, NADPH and free phosphate pools on water stress. Photosynthetica 25,11 -15.
  • 14. Kacperska-Palacz, A. (1978) Mechanism of cold acclimation in herbaceous plants; in Plant Cold Hardiness and Freezing Stress (Li, P.H. & Sakai, A., eds.) pp. 139 -153, Academic Press N.Y.
  • 15. Levitt, J. (1980) Responses of Plants to Environmental Stresses, pp. 283 - 298, Academic Press, New York.
  • 16. Kacperska, A. (1985) Biochemical and physiological aspects of frost hardening in herbaceous plants; in Plant Production in the North (Kaurin, A., Juntilla, O. & Nilsen, J., eds.) pp. 99 -115, Norwegian Univ. Press, Tromso.
  • 17. Cormier, M.J., Anderson, J.M., Charbonneau, H., Jones, H. P. & McCann, R. O. (1980) Plant and fungal calmodulin and the regulation of plant NAD kinase; in Calcium and Cell Function (Cheung, W.Y., ed.) vol. 1, pp. 201 - 218, Academic Press, New York.
  • 18. Cormier, M.J., Jarrett, H.W. & Charbonneau, H. (1982) Role of Ca2+-calmodulin in metabolic regulation in plants; in Calmodulin and Intracellular Co2"1" Receptors (Kakiuchi, Hidaka & Means, eds.) pp. 125 -139, Plenum Publ. Corp., New York, London.
  • 19. Dieter, P. & Marme, D, (1986) Ca2+, çalmodulin-dependent NAD kinase. Regulation by light; in Molecular and Cellular Aspects of Calcium in Plant Development (Trewavas, A. J., ed.) pp. 359 - 362, Plenum Publ. Corp. New York, London.
  • 20. Dieter, P. (1986) PlantNAD kinase, regulation by calcium and calmodulin; in Molecular and Cellular Aspects of Calcium in Plant Development (Trewavas, A.J., ed.) pp. 91 - 98, Plenum Publ. Corp., New York, London.
  • 21. Muto, S. & Miyachi, S. (1986) Roles of calmodulin dependent and independent NAD kinases in regulation of nicotinamide coenzyme levels of green plant cells; in Molecular and Cellular Aspects of Calcium in Plant Development (Trewavas, A. J., ed.) pp. 107 -114, Plenum Publ. Corp., New York, London.
  • 22. Roux, S.J. & Slocum, R.D. (1982) Role of calcium in mediating cellular functions important for growth and development in higher plants; in Calcium and Cell Function; vol. 3, pp. 409 - 453, Academic Press.
  • 23. Marme, D. (1985) The role of calcium in the cellular regulation of plant metabolism. Physiol. Veget. 23,945 - 953.
  • 24. Marme, D. (1988) The role of calcium in the regulation of plant cellular metabolism; in Calcium and Calcium Binding Proteins (Gerday, Gilles, Bolis, eds.) pp. 201 - 208, Springer Verlag, Berlin, Heidelberg.
  • 25. Kreimer, G., Surek, B., Heimann, K., Burchert, M., Luków, L., Holtum, J.A., Woodrow, I.E., Melkonian, M. & Latzko, E. (1987) Calcium metabolism in chloroplasts and protoplasts; in Progress in Photosynthetic Research (Biggens, J., ed.) vol. 3, pp. 345 - 357, Martinus Nijhoff Publ. Dordrecht.
  • 26. Poovaiah, B.W. (1988) Molecular and cellular aspects of calcium action in plants. HortScience 23,261-271.
  • 27. Poovaiah, B.W. & Reddy, A.S.N. (1987) Calcium messenger system in plants. CRC Crit. Rev. Plant Sci. 6,47 -103.
  • 28. Śląski, J.J. (1989) Effect of aluminium on calmo- dulin-dependent and calmodulin- independent NAD kinase activity in wheat (Triticum aestivum L.) root tips. J. Plant Physiol. 133,696 - 701.
  • 29. Śląski, J.J. (1990) Response of calmodulin-de- pendent and calmodulin-independent NAD kinase to aluminium in root tips from various cultivated plants. J. Plant Physiol. 136,40-44.
  • 30. Zagdańska, B. (1990) NAD kinase activity in wheat leaves upon water deficit. Acta Biochim. Polon. 37,385 - 389.
  • 31. Maciejewska, U. (1990) Effects of cold on NAD+ kinase activity in winter rape plants. Physiol. Plant. 80,133 - 135.
  • 32. Muto, S. & Miyachi, S. (1977) Properties of a protein activator of NAD kinase from plants. Plant Physiol. 59,55 - 60.
  • 33. Jarrett, H.W., Charbonneau, H., Anderson, J.M., McCann, R.O. & Cormier, M.J. (1980) Plant calmodulin and the regulation of NAD kinase. Ann. N. Y. Acad. Sci. U.S.A. 356,119 -129.
  • 34. Muto, S. (1983) Kinetic nature of calmodulin- -dependent NAD kinase from pea seedlings. Z. Pflanzenphysiol. 109,385 - 391.
  • 35. Matsumoto, H., Tanigawa, M. & Yammaya, T. (1983) Calmodulin like activity associated with chromatin from pea buds. Plant Cell Physiol. 24, 593 - 602.
  • 36. Muto, S. & Miyachi, S. (1984) Purification of antibody against spinach calmodulin and its application to radioimmunoassay for plant calmodulin. Z. Pflanzenphysiol. 114,421 - 431.
  • 37. Simon, P., Bonzon, M., Greppin, H. & Marme, D. (1984) Subchloroplastic localization of NAD kinase activity, evidence for a Ca2+, calmodulin-dependent activity at the envelope and for Ca2+ calmodulin-independent activity in the stroma of pea chloroplasts. FEBS Lett. 159, 332 - 338.
  • 38. Dieter, P. & Marme, D. (1980) Calmodulin-acti- vated plant microsomal calcium ion uptake and purification of plant NAD kinase and other proteins by calmodulin-Sepharose chromato­graphy. Ann. N. Y. Acad. Sci. U.S.A. 356,371 - 373.
  • 39. Watterson, D.M., Iverson, D.B. & Van Eldik, L.J. (1980) Spinach calmodulin, isolation, characte­rization and comparison with vertebrate calmodulins. Biochemistry 19,5762 - 5768.
  • 40. Simon, P., Dieter, P., Bonzon, M., Greppin, H. & Marme, D. (1982) Calmodulin-dependent and independent NAD kinase activities from cytoplasmic and chloroplastic fractions of spinach (Spinacia oleracea L.). Plant Cell Rep. 1, 119 -122.
  • 41. Dieter, P. & Marme, D. (1981) Acalmodulin-de- pendent, microsomal ATPase from corn (Zea mays L.). FEBS Lett. 125,245 - 248.
  • 42. Goto, K. (1984) Causal relationships among metabolic circadian rhythms in Lemna. Z. Naturforsch. 39c, 73 - 84.
  • 43. Sauer, A. & Robinson, D.G. (1985) Calmodulin dependent NAD kinase is associated with both the outer and inner mitochondrial membranes. Planta 166,277 - 233.
  • 44. Allan, E. & Trewavas, A. (1985) Quantitative changes in calmodulin and NAD kinase during early cell development in the root apex of Pisum sativum L. Planta 165,493 - 501.
  • 45. Dieter, P. & Marme, D. (1984) A Ca2+, calmodulin dependent NAD kinase from corn is located in the outer mitochondrial membrane. }. Biol. Chem. 259,184 -189.
  • 46. Jarrett, H.W., Brown, C.J., Black, C.C & Cormier, M.J. (1982) Evidence that calmodulin is in the chloroplast of peas and serves a regulatory role in photosynthesis. /. Bid. Chem. 257, 13795 - 13804.
  • 47. Heber, U. & Heldt, H.W. (1981) The chloroplast envelope. Structure, function and role in leaf metabolism. Annu. Rev. Plant Physiol. 32, 139 - 168.
  • 48. Sobczyk, E.A. & Kacperska-Palacz, A. (1980) Changes in some enzyme activities during cold acclimation of winter rape plants. Acta Physiol. Plant. 2,123 - 131.
  • 49. Zagdańska, B. & Neuman, M. (1984) Amino acid changes in drought-affected spring wheat. Bull. Pol. Ac.: Biol. 32,229 - 235.
  • 50. Maciejewska, U. & Kacperska, A. (1987) Changes in the level of oxidized and reduced pyridine nucleotides during cold acclimation of winter rape plants. Physiol. Plant. 69,687 - 691.
  • 51. Zagdańska, B. (1989) Effect of water stress upon the pyridine nucleotide pool in wheat leaves. J. Plant Physiol. 134,320 - 326.
  • 52. Chung, A.E. (1967) Nicotinamide adenine dinucleotide kinase from Azotobacter vinelandii. J. Biol. Chem. 242,1182 -1186.
  • 53. Chung, A.E. (1971) NAD+ kinase from Azotobacter vinelandii and rabbit liver. Mäh. Enzym. 18 B, 149 -156.
  • 54. Haug, A. (1984) Molecular aspects of aluminum toxicity. CRC Crit. Rev. Plant Sei. 345 - 373.
  • 55. Zocchi, G. & Hanson, J.B. (1982) Calcium influx into corn roots as a result of cold shock. Plant Physiol. 70,318 - 319.
  • 56. Knight, M.R., Campbell, A.K., Smith, S.M. & Trewavas, A.J. (1991) Transgenic plant Aequorium reports the effects of touch and cold-shock and elicitors on cytoplasmic calcium. Nature (London) 352,524 - 526.
  • 57. Ford, C.W. & Wilson, J.R. (1981) Changes in the levels of solutes during osmotic adjustment to water stress in leaves of four tropical pasture species. Aust. J. Plant Physiol. 8,77 - 91.
  • 58. Sen Gupta, A. & Berkowitz, G.A. (1988) Chloroplast osmotic adjustment and water stress effects on photosynthesis. Plant Physiol. 88,200 - 206.
  • 59. Blum, A. (1988) Plant Breeding for Stress Environments. CRC Press, Boca Raton, Florida.
  • 60. Taylor, G.J. (1991) Current views on the aluminum stress response; The physiological basis of tolerance. Curr. Topics Plant Biochem. Physiol. 10,57-93.
  • 61. śląski, J.J. (1992) Mechanisms of aluminium tolerance in higher plants. Wind. Bot. 37-45 (in Polish).
  • 62. Steponkus, P. (1984) Role of the plasma membrane in freezing injury and cold acclimation. Annu. Rev. Plant Physiol. 35, 543 - 584.
  • 63. Kaiser, W.M. (1987) Effects of water deficit on photosynthetic capacity. Physiol. Plant. 71,142 - 149.
  • 64. Foy, C.D. (1983) Plant adaptation to mineral stress in problem soils. Iowa St. J. Res. 57, 339 - 354.
  • 65. Foy, C.D. (1988) Plant adaptation to acid, aluminum-toxic soils. Commun. Soil Sci. Plant Anal. 19,959-987.
  • 66. Taylor, G.J. (1988) The physiology of aluminum tolerance in higher plants. Commun. Soil Sci. Plant Anal. 19,1179-1194.
  • 67. Muto, S. (1982) Distribution of calmodulin within wheat leaf cells. FEBS Lett. 147,161 -164.

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Bibliografia

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