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논문 상세정보

Abstract

During dark-induced leaf senescence (DIS), the non-functional stay-green mutant ore10 showed delayed chlorophyll (Chl) degradation and increased stability in its light-harvesting complex II (LHCII). These phenomena were closely related to the formation of aggregates that mainly consisted of terminal-truncated LHCII (Oh et al., 2003). The ore10 mutant apparently lacks the protease needed to degrade the truncated LHCII. In wild-type (WT) plants, protease was found in the thylakoid fraction, but not the soluble fraction. A similar experiment using dansylated LHCII revealed that the protease degraded both WT and ore10 LHCII, indicating that its stability in ore10 perhaps did not result from a defect in the LHCII polypeptides themselves. Although protease activity was not present in non-senesced WT leaves, it was induced during DIS. It also was possible to diminish the high level of protease present in the thylakoids through high-salt washing, suggesting that this enzyme is extrinsically bound to the outer surface of the stroma-exposed thylakoid regions.

참고문헌 (45)

  1. Adam Z (2000) Chloroplast proteases: Possible regulators of gene expression? Biochimie 82: 647-654 
  2. Arnon DI (1949) Copper enzymes in isolated chloroplasts. Polyphenoloxidase in Beta vulgaris. Plant Physiol 24: 1-15 
  3. Aro EM, Virgin I, Andersson B (1993) Photoinhibition of photosystem II. Inactivation, protein damage and turn-over. Biochim Biophys Acta 1143: 113-134 
  4. Biswal UC, Biswal B (1988) Ultrastructural modifications and biochemical changes during senescence of chloro-plasts. Intl Rev Cytol 113: 271-321 
  5. Kitajima M, Butler WL (1975) Quenching of chlorophyll fluorescence and primary photochemistry in the chloro-plasts by dibromothymoquinone. Biochim Biophys Acta 376:105-115 
  6. Laemmli U (1970) Cleavage of structural proteins during assembly of the head of bacteriophage T4. Nature 227: 680-685 
  7. Lowry OH, Rosebrough NJ, Farr Al, Randall RJ (1951) Pro-tein measurement with folin phenol reagent. J Biol Chem 193: 265-275 
  8. Matile P (1992) Leaf senescence, In N Baker, H Thomas, eds, Crop Photosynthesis: Spatial and Temporal Deter-minants. Elsevier, Amsterdam, pp 413-440 
  9. Matile P, Hoertensteiner S, Thomas S, Kraeutler B (1996) Chlorophyll breakdown in senescent leaves. Plant Phys-iol 112: 1403-1409 
  10. Nooden LD (1988) The phenomenon of senescence and aging, ln ND Nooden, AC Leopold, eds, Senescence and Aging in Plants. Academic Press, London, pp 1-50 
  11. Smart CM (1994) Gene expression during leaf senescence. New Phytol 129: 419-448 
  12. Lindahl M, Spetea C, Jundal T, Oppenheim AB, Adam Z, Andersson B (2000) The thylakoid FtsH protease plays a role in the light-induced turnover of the photosystem II D1 protein. Plant Cell 1: 419-431 
  13. Bernard RL, Weiss MG (1973) Qualitative genetics, In BE Caldwell, ed, Soybeans: Improvement, Production and Uses. American Society of Agronomy, Madison, pp 117-154 
  14. Yamazaki JY, Kamimura Y, Nakayama K, Okada M, Sug-imura Y (2000) Effects of light on the photosynthetic apparatus and a novel type of degradation of the pho-tosystem I peripheral antenna complexes under dark-ness. J Photochem Photobiol B: Biol 55: 37-42 
  15. Park YI, Chow WS, Anderson JM (1997) Antenna size dependency of photoinactivation of photosystem II in light-acclimated pea leaves. Plant Physiol 115: 151-157 
  16. Anderson JM (1986) Photoregulation of the composition, function, and structure of thylakoid membranes. Annu Rev Plant Physiol 37:93-136 
  17. Anastassiou R, Argyroudi-Akoyunoglou JH (1995) Thyla-koid bound proteolytic activity against LHCII apopro-teins in bean. Photosynth Res 43: 241-250 
  18. Guiamet JJ, Schwartz E, Pichersky E, Nooden LD (1991) Characterization of cytoplasmic and nuclear mutations affecting chlorophyll and chlorophyll-binding proteins during senescence in soybean. Plant Physiol 96: 227-231 
  19. Guiamet JJ, Tyystjarvi E, Tyystjarvi T, John I, Kairavuo M, Pichersky E, Nooden LD (2002) Photoinhibition and loss of photosystem II reaction center proteins during senescence of soybean leaves. Enhancement of photo-inhibition by the 'stay-green' mutation cytG. Physiol Plant 115: 468-478 
  20. Lindahl M, Yang DH, Andersson B (1995) Regulatory pro-teolysis of the major light-harvesting chlorophyll a/b protein of photosystem II by a light-induced mem-brane-associated enzymic system. Eur J Biochem 231: 503-509 
  21. SambrookJ, Fritsch EF, Maniatis T (1989) Molecular Cloning: A Laboratory Manual, Ed 2. Cold Spring Harbor Laboratory, NewYork 
  22. Yang DH, Webster J, Adam Z, Lindahl M, Andersson B (1998) lnduction of acclimative proteolysis of the light-harvesting chlorophyll a/b protein of photosystem II in response to elevated light intensities. Plant Physiol 118: 827-834 
  23. Andersson B, Barber J (1996) Mechanisms of photodam-age and protein degradation during photoinhibition of photosystem II. In N Baker, ed, Advances in Photosyn-thesis, Vol 5. Kluwer Academic Publishers, Dordrecht, pp 101-121 
  24. Thomas H, StoddartJL (1980) Leaf senescence. Annu Rev Plant Physiol 31: 83-111 
  25. Woo HR, Chung KM, Park JH, Oh SA, Ahn TJ, Hong SH, Jang SK, Nam HG (2001) ORE9, an F-Box protein that regulates leaf senescence in Arabidopsis. Plant Cell 13: 1779-1790 
  26. Christopher DA, Mullet JE (1994) Separate photosensory pathways co-regulate blue light/ultraviolet-A-activated psbD-psbC transcription and light-induced D2 and CP43 degradation in barley (Hordeum vulgare) chloro-plasts. Plant Physiol 104: 907-916 
  27. Bachmann A, Fernandez-Lopez J, Ginsburg S, Thomas H, Bouwkamp JC, Solomos T, Matile P (1994) Stay-green genotypes of Phaseolus vulgahs L. chloroplast proteins and chlorophyll catabolites during foliar senescence. New Phytol 126: 593-600 
  28. Allen KD, Staehelin LA (1991) Resolution of 16 to 20 chlo-rophyll-protein complexes using a low ionic strength native green gel system. Anal Biochem 194: 214-222 
  29. Thomas H, Smart CM (1993) Crops that stay-green. Ann Appl Biol 123: 193-219 
  30. Nooden LD, Guiamet JJ, John I (1997) Senescence mecha-nisms. Physiol Planta 101: 746-753 
  31. Tziveleka L-A, Argyroudi-AkoyunogIou JH (1998) Implica-tions of a developmental-stage-dependent thylakoid-bound protease in the stabilization of the light-harvest-ing pigment-protein complex serving photosystem II during thylakoid biogenesis in red kidney bean. Plant Physiol 117: 961-970 
  32. Oh MH, Kim YJ, Lee CH (2000) Leaf senescence in a stay-green mutant of Arabidopsis thaliana: Disassembly pro-cess of photosystem I and II during dark-incubation. J Biochem Mol Biol 33: 256-262 
  33. Nooden LD, Guiamet JJ (1996) Genetic control of senes-cence and aging in plants, ln EL Schneider, JW Rowe, eds, Handbook of the Biology of Aging. Academic Press, San Diego, pp 94-118 
  34. Oh MH, LeeCH (1996) Disassembly of chlorophyll-protein complexes in Arabidopsis thaliana during dark-induced foliar senescence. J Plant Biol 39: 301 -307 
  35. MulletJE, Arntzen CJ (1980) Simulation of grana stacking in a model system. Mediation by a purified light-harvest-ing pigment-protein complex from chloroplasts. Bio-chim Biophys Acta 589: 100-117 
  36. Nam HG (1997) The molecular genetic analysis of leaf senescence. Curr Opin Biotechnol 8: 200-207 
  37. Oh MH, Moon YH, Lee CH (2003) Increased stability of LHCII by aggregate formation during dark-induced leaf senescence in the Arabidopsis mutant, ore 10. Plant Cell Physiol 44: 1368-1377 
  38. Jacquot JR Gadal P, Nishizawa AN, Yee BC, Crawford NA, Buchanan BB (1984) Enzyme regulation in $C_4$ photo-synthesis: Mechanism of activation of NADP-malate dehydrogenase by reduced thioredoxin. Arch Biochem Biophys 184: 290-297 
  39. Kinoshita T, linuma F, Tsuji A (1974) Fluorescent labeling of proteins and a plasma membrane using cyclohep-taamylose-dansyl chloride complex. Anal Biochem 61: 632-637 
  40. Yang DH, Paulsen H, Andersson B (2000) The N-terminal domain of the light-harvesting chlorophyll a/b-binding protein complex (LHCII) is essential for its acclimative proteolysis. FEBS Lett 466: 385-388 
  41. Melis A (1996) Excitation energy transfer: Functional and dynamic aspects of Lhc (cab) proteins, ln DR Ort, CF Yocum, eds, Advances in Photosynthesis, Vol 4. Kluwer Academic Publishers, Dordrecht, pp 523-538 
  42. Vicentini F, Hoertensteiner S, Schellenberg H, Thomas H, Matile P (1995) Chlorophyll breakdown in senescent leaves: Identification of the biochemical lesion in a stay-green genotype of Festuca pratensis Huds. New Phytol 129: 247-252 
  43. Andersson B, Aro EM (1997) Proteolytic activities and pro-teases of plant chloroplasts. Physiol Plant 100: 780-793 
  44. Thimann KV (1980) The senescence of leaves, In KV Thi-mann, ed, Senescence in Plants. CRC press, Boca Raton, pp 85-115 
  45. Oh SA, Park JH, Lee GI, Paek KH, Park SK, Nam HG (1997) ldentification of three genetic loci controlling leaf senescence in Arabidopsis thaliana. PlantJ 12: 527-535 

이 논문을 인용한 문헌 (1)

  1. 2005. "" Journal of plant biology = 식물학회지, 48(2): 170~177 

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