Environmental Sciences Bulletin of The Korean Environmental Sciences Society

The Korean Environmental Sciences Society (한국환경과학회)
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Structural Characterization of Hordeum vulgare L. Chloroplast by Ozone

  • Chung, Hwa-Sook (Dept. of Biology Education, Kyungpook National University) ;
  • Lim, Young-Jin (Dept. of Biology Education, Kyungpook National University) ;
  • Park, Kang-Eun (Dept. of Science Education, Chinju National University of Education)
  • Published : 2000.06.01
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Abstract

The effects of ozone on chloroplast development in barley seedlings during greening was investigated based on ultrastructural changes in the chloroplasts and band pattern changes in the chloroplast thylakoid membrane proteins. In this analysis of the chloroplast thylakoid membrane thylakoid protein band pattern by SDS-PAGE, none of the 24-hour greening bands included were clearer than the control. This means that the ozone treatment produced a dealy in chloroplast development and decreased the amount of thylakoid membrane proteins. LHC II chloroplast band of developing barley seedlings treated with 0.5 and 1.0 ppm ozone during the last 4 hours of the 24-hour greening period was weaker than the other bands. This result indicates that ozone affects the LHC II protein complex of the chloroplast thylakoid membrane. When investigating the ultastructural changes in ozone-treated chloroplast, the main site affected by 0.5 ppm ozone was the chloroplast grana, thereby explaining the delayed chloroplast development during the early phase of greening. In addition, there was also a structural change in the stromal grana of the ozone treated chloroplast during the middle phase of greening. The effects of ozone on the chloroplast of barley seedlings during the last phase of 48-hour greening were more functionally inhibiting than structural changes.

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References

  1. 대기오염과 배출원 환경공해와 대책Ⅱ 권연균;윤명희;정용
  2. Plant Physiol. v.90 Ozone concentration in leaf intercellular air spaces is close to zero Laisk, A.;O. Kull;H. Moldau
  3. Photosynth. Res. v.39 Possible mechanisms for the inhibition of photosynthesis by ozone Heath, R. L.
  4. Plant Physiol. v.55 Ozone injury in soybeans. Isoflavonoid accumulation is related to necrosis Keen, N. T.;O. C. Taylor
  5. J. Agr. Met. v.48 Effects of low concentrations of ozone on the growth of morning glory, radish and sunflower plants Shimizu, H.;H. S. Ko;K. Kubota;I. S. Wui;K. Omasa
  6. J. Agr. Met. v.48 Effects of low concentrations of ozone on the growth of several woody plants Shimizu, H.;Y. Fujinuma;K. Kubota;T. Totsuka;K. Omasa
  7. Plant Physiol. v.47 Formation of chlorophyll b, and the fluorescence properties and photochemical activities of isolated plastids from greening pea seedlings Thorne, S. W.; N. K. Boardman
  8. Plant physiol. v.81 Accumulation of chlorophyll, chloroplastic proteins and thylakoid membranes during reversion of chromoplasts to chloroplastic in Citrus sinensis epicarp Mayfield, S. P.;A. Huff
  9. Nature v.227 Cleavage of structural proteins during the assembley of the head of bacteriophage $T_4$ Laemmli, U. K.
  10. Plant Physiol. v.104 Appearance of type 1, 2 and 3 light harvesting complex Ⅱ and light havesting complex Ⅰproteins during light induced greening of barley(Hordeum vulgare) etioplasts Sigrist, M.;L. A. Staehelin
  11. Korean Journal of Botany v.26 Formation of chlorophyll-protein complexes in greening rape cotyledons Lee, C. B.;Y. N. Hong;M. K. Young
  12. Ph. D. Thesis, Kyung-pook National University Effects of ozone on the development chloroplast of barley(Hordeum vulgare L.)seedling Park, K. E.
  13. Plant Physiol. v.107 Light-regulated and organ-specific expression of types 1,2 and 3 light-harvesting complex b mRNAs in Ginkgo biloba Chinn, E.;Silverthorne, J.;A. Hohtola
  14. Plant Physiol. v.103 Light-dependent chloroplast development and expression of a light-harvesting chlorophyll a/b-binding protein gene in the gymnosperm Ginkgo biloba Chinn, E.;J. Silverthorne
  15. Plant Physiol. v.107 Significant changes in cell and chloroplast development in young wheat leaves(Tricum aestivum cv Hereward) grown in elevated $CO_2$ Robertson E. J.;R. M. Leech