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Journal Abstract Search

324 related items for PubMed ID: 12905022

  • 1. Temperature-induced greening of Chlorella vulgaris. The role of the cellular energy balance and zeaxanthin-dependent nonphotochemical quenching.
    Wilson KE, Król M, Huner NP.
    Planta; 2003 Aug; 217(4):616-27. PubMed ID: 12905022
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  • 2. The role of growth rate, redox-state of the plastoquinone pool and the trans-thylakoid deltapH in photoacclimation of Chlorella vulgaris to growth irradiance and temperature.
    Wilson KE, Huner NP.
    Planta; 2000 Dec; 212(1):93-102. PubMed ID: 11219589
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  • 3. Photosynthesis, chlorophyll fluorescence, light-harvesting system and photoinhibition resistance of a zeaxanthin-accumulating mutant of Arabidopsis thaliana.
    Tardy F, Havaux M.
    J Photochem Photobiol B; 1996 Jun; 34(1):87-94. PubMed ID: 8765663
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  • 4. Energy dissipation in photosynthesis: does the quenching of chlorophyll fluorescence originate from antenna complexes of photosystem II or from the reaction center?
    Bukhov NG, Heber U, Wiese C, Shuvalov VA.
    Planta; 2001 Apr; 212(5-6):749-58. PubMed ID: 11346948
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  • 5. Light intensity regulation of cab gene transcription is signaled by the redox state of the plastoquinone pool.
    Escoubas JM, Lomas M, LaRoche J, Falkowski PG.
    Proc Natl Acad Sci U S A; 1995 Oct 24; 92(22):10237-41. PubMed ID: 7479759
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  • 7. Artificially increased ascorbate content affects zeaxanthin formation but not thermal energy dissipation or degradation of antioxidants during cold-induced photooxidative stress in maize leaves.
    Leipner J, Stamp P, Fracheboud Y.
    Planta; 2000 May 24; 210(6):964-9. PubMed ID: 10872229
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  • 9. The xanthophyll cycle in green algae (chlorophyta): its role in the photosynthetic apparatus.
    Masojídek J, Kopecký J, Koblízek M, Torzillo G.
    Plant Biol (Stuttg); 2004 May 24; 6(3):342-9. PubMed ID: 15143443
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  • 12. Abscisic acid induced protection against photoinhibition of PSII correlates with enhanced activity of the xanthophyll cycle.
    Ivanov AG, Krol M, Maxwell D, Huner NP.
    FEBS Lett; 1995 Aug 28; 371(1):61-4. PubMed ID: 7664885
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  • 13. Epoxidation of zeaxanthin and antheraxanthin reverses non-photochemical quenching of photosystem II chlorophyll a fluorescence in the presence of trans-thylakoid delta pH.
    Gilmore AM, Mohanty N, Yamamoto HY.
    FEBS Lett; 1994 Aug 22; 350(2-3):271-4. PubMed ID: 8070578
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  • 14. Dynamic properties of the minor chlorophyll a/b binding proteins of photosystem II, an in vitro model for photoprotective energy dissipation in the photosynthetic membrane of green plants.
    Ruban AV, Young AJ, Horton P.
    Biochemistry; 1996 Jan 23; 35(3):674-8. PubMed ID: 8547246
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  • 15. A few molecules of zeaxanthin per reaction centre of photosystem II permit effective thermal dissipation of light energy in photosystem II of a poikilohydric moss.
    Bukhov NG, Kopecky J, Pfündel EE, Klughammer C, Heber U.
    Planta; 2001 Apr 23; 212(5-6):739-48. PubMed ID: 11346947
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  • 17. A zeaxanthin-independent nonphotochemical quenching mechanism localized in the photosystem II core complex.
    Finazzi G, Johnson GN, Dall'Osto L, Joliot P, Wollman FA, Bassi R.
    Proc Natl Acad Sci U S A; 2004 Aug 17; 101(33):12375-80. PubMed ID: 15304641
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  • 18. Modeling of the D1/D2 proteins and cofactors of the photosystem II reaction center: implications for herbicide and bicarbonate binding.
    Xiong J, Subramaniam S, Govindjee.
    Protein Sci; 1996 Oct 17; 5(10):2054-73. PubMed ID: 8897606
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