Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
High Temperature <strong>Stress</strong><br />
123<br />
temperature, drought <strong>and</strong> elevated CO 2<br />
on photosynthesis <strong>of</strong> the Mojave Desert evergreen shrub,<br />
Larrea tridentata. Plant Ecol. 148, 183-193.<br />
Hammer, M. F., Markwell, J. <strong>and</strong> Sarath, G. (1997). Purification <strong>of</strong> a protein phosphatase from<br />
chloroplast stroma capable <strong>of</strong> dephosphorylating the light-harvesting complex-II. Plant Physiol.<br />
113, 227-233.<br />
Haney, P. J., Stees, M. <strong>and</strong> Konisky, J. (1999). Analysis <strong>of</strong> thermal stabilizing interactions in<br />
mesophilic <strong>and</strong> thermophilic adenylate kinases from the genus Methanococcus. J. Biol. Chem.<br />
274, 28453-28458.<br />
Hanson, D. T., Swanson, S., Graham, L. E. <strong>and</strong> Sharkey, T. D. (1999). Evolutionary significance <strong>of</strong><br />
isoprene emission from mosses. Am. J. Bot. 86, 634-639.<br />
Hansson, M. <strong>and</strong> Vener, A. V. (2003). Identification <strong>of</strong> three previously unknown in vivo protein<br />
phosphorylation sites in thylakoid membranes <strong>of</strong> Arabidopsis thaliana. Mol. Cell. Proteom. 2,<br />
550-559.<br />
Harrison, M. A. <strong>and</strong> Allen, J. F. (1991). Light-dependent phosphorylation <strong>of</strong> Photosystem II polypeptides<br />
maintains electron transport at high light intensity, Separation from effects <strong>of</strong> phosphorylation<br />
<strong>of</strong> LHC-II. Biochim. Biophys. Acta 1058, 289-296.<br />
Havaux, M. (1996). Short-term responses <strong>of</strong> photosystem I to heat stress - Induction <strong>of</strong> a PS IIindependent<br />
electron transport through PS I fed by stromal components. Photosynth. Res. 47,<br />
85-97.<br />
Havaux, M. (1989). Comparison <strong>of</strong> atrazine-resistant <strong>and</strong> -susceptible biotypes <strong>of</strong> Senecio vulgaris<br />
L., effects <strong>of</strong> high <strong>and</strong> low temperatures on the in vivo photosynthetic electron transfer in intact<br />
leaves. J. Exp. Bot. 40, 849-854.<br />
Havaux, M., Greppin, H. <strong>and</strong> Strasser, R. J. (1991). Functioning <strong>of</strong> photosytems I <strong>and</strong> II in pea leaves<br />
exposed to heat stress in the presence or absence <strong>of</strong> light. Planta 186, 88-98.<br />
Havaux, M. <strong>and</strong> Tardy, F. (1996). Temperature-dependent adjustment <strong>of</strong> the thermal stability <strong>of</strong><br />
photosystem II in vivo, Possible involvement <strong>of</strong> xanthophyll-cycle pigments. Planta 198, 324-<br />
333.<br />
Havaux, M., Tardy, F., Ravenel, J., Chanu, D. <strong>and</strong> Parot, P. (1996). Thylakoid membrane stability to<br />
heat stress studied by flash spectroscopic measurements <strong>of</strong> the electrochromic shift in intact<br />
potato leaves, influence <strong>of</strong> the xanthophyll content. Plant Cell Environ. 19, 1359-1368.<br />
Heber, U. (2002). Irrungen, Wirrungen? The Mehler reaction in relation to cyclic electron transport<br />
in C3 plants. Photosynth. Res. 73, 223-231.<br />
Heber, U. <strong>and</strong> Walker, D. (1992). Concerning a dual function <strong>of</strong> coupled cyclic electron transport in<br />
leaves. Plant Physiol. 100, 1621-1626.<br />
Heckathorn, S. A., Downs, C. A., Sharkey, T. D. <strong>and</strong> Coleman, J. S. (1998). The small, methioninerich<br />
chloroplast heat-shock protein protects photosystem II electron transport during heat<br />
stress. Plant Physiol. 116, 439-444.<br />
Heckathorn, S. A., Ryan, S. L., Baylis, J. A., Wang, D. F., Hamilton, III, E. W., Cundiff, L. <strong>and</strong> Luthe<br />
D. S. (2002). In vivo evidence from an Agrostis stolonifera selection genotype that chloroplast<br />
small heat-shock proteins can protect photosystem II during heat stress. Funct. Plant Biol. 29,<br />
933-944.<br />
Holt, A. S. <strong>and</strong> French, C. S. (1946). The photochemical production <strong>of</strong> oxygen <strong>and</strong> hydrogen ion by<br />
isolated chloroplasts. Arch. Biochem. Biophys. 9, 25-43.<br />
Hong, S. W., Lee, U. <strong>and</strong> Vierling, E. (2003). Arabidopsis hot mutants define multiple functions<br />
required for acclimation to high temperatures. Plant Physiol. 132, 757-767.<br />
Hong, S. W. <strong>and</strong> Vierling, E. (2000). Mutants <strong>of</strong> Arabidopsis thaliana defective in the acquisition <strong>of</strong><br />
tolerance to high temperature stress. Proc. Nat. Acad. Sci. 97, 4392-<br />
Horton, P., Ruban, A. V. <strong>and</strong> Walters, R. G. (1996). Regulation <strong>of</strong> light harvesting in green plants.<br />
Annu. Rev. Plant Physiol. Plant Mol. Biol. 47, 655-684.<br />
Houghton, J. T., Ding, Y., Griggs, D. J., Noguer, M., van der Linden, P. J., Dai, X., Maskell, K. <strong>and</strong><br />
Johnson, C.A. (2001). Climate change 2001, The scientific basis. Cambridge University Press,<br />
Cambridge, UK. 896 pp.<br />
Hugly, S., Kunst, L., Browse, J. <strong>and</strong> Somerville, C. (1989). Enhanced thermal tolerance <strong>of</strong> photosyn-