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
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
122<br />
T.D. Sharkey <strong>and</strong> S.M. Schrader<br />
Downs, C. A., Coleman, J. S. <strong>and</strong>Heckathorn, S. A. (1999). The chloroplast 22-Ku heat-shock<br />
protein, A lumenal protein that associates with the oxygen evolving complex <strong>and</strong> protects<br />
photosystem II during heat stress. J. Plant Physiol. 155, 477-487.<br />
Ducruet, J. M. (1999). Relation between the heat-induced increase <strong>of</strong> F-0 fluorescence <strong>and</strong> a shift in<br />
the electronic equilibrium at the acceptor side <strong>of</strong> photosystem 2. Photosynthetica 37, 335-338.<br />
Ducruet, J. M. <strong>and</strong> Lemoine, Y. (1985). Increased Heat Sensitivity <strong>of</strong> the Photosynthetic Apparatus<br />
in Triazine-Resistant Biotypes from Different Plant-Species. Plant Cell Physiol. 26, 419-429.<br />
Ducruet, J. M. <strong>and</strong> Ort, D. R. (1988). Enhanced Susceptibility <strong>of</strong> Photosynthesis to High Leaf<br />
Temperature in Triazine-Resistant Solanum-Nigrum l Evidence for Photosystem-Ii D1-Protein<br />
Site <strong>of</strong> Action. Plant Science 56, 39-48.<br />
Egorova, E. A. <strong>and</strong> Bukhov, N. G. (2002). Effects <strong>of</strong> elevated temperatures on the activity <strong>of</strong><br />
alternative pathways <strong>of</strong> photosynthetic electron transport in intact barley <strong>and</strong> maize leaves.<br />
Russ. J. Plant Physiol. 49, 575-584.<br />
Egorova, E. A., Bukhov, N. G., Heber, U., Samson, G. <strong>and</strong> Carpentier, R. (2003). Effect <strong>of</strong> the pool<br />
size <strong>of</strong> stromal reductants on the alternative pathway <strong>of</strong> electron transfer to photosystem I in<br />
chloroplasts <strong>of</strong> intact leaves. Russ. J. Plant Physiol. 50, 431-440.<br />
Emmett, J. M. <strong>and</strong> Walker, D. A. (1969). Thermal uncoupling in chloroplasts. Biochim. Biophys.<br />
Acta 180, 424-425.<br />
Emmett, J. M. <strong>and</strong> Walker, D. A. (1973). Thermal uncoupling in chloroplasts. Inhibition <strong>of</strong><br />
photophosphorylation without depression <strong>of</strong> light-induced pH change. Arch. Biochem. Biophys.<br />
157, 106-113.<br />
Enami, I., Kitamura, M., Tomo, T., Isokawa, Y., Ohta, H. <strong>and</strong> Katoh, S. (1994a). Is the primary cause<br />
<strong>of</strong> thermal inactivation <strong>of</strong> oxygen evolution in spinach PSII membranes release <strong>of</strong> the extrinsic<br />
33 kDa protein or Mn? Biochim. Biophys. Acta 1186, 52-58.<br />
Enami, I., Tomo, T., Kitamura, M. <strong>and</strong> Katoh, S. (1994b). Immobilization <strong>of</strong> the 3 extrinsic<br />
proteins in spinach oxygen-evolving photosystem-II membranes - Roles <strong>of</strong> the proteins in<br />
stabilization <strong>of</strong> binding <strong>of</strong> Mn <strong>and</strong> Ca 2+ . Biochim. Biophys. Acta 1185, 75-80.<br />
Faria, T., Wilkins, D., Besford, R. T., Vaz, M., Pereira, J. S. <strong>and</strong> Chaves, M. M. (1996). Growth at<br />
elevated CO 2<br />
leads to down-regulation <strong>of</strong> photosynthesis <strong>and</strong> altered response to high temperature<br />
in Quercus suber L seedlings. J. Exp. Bot. 47, 1755-1761.<br />
Farquhar, G. D., Von Caemmerer, S. <strong>and</strong> Berry, J. A. (1980). A biochemical model <strong>of</strong> photosynthetic<br />
CO 2<br />
assimilation in leaves <strong>of</strong> C 3<br />
species. Planta 149, 78-90.<br />
Feldman, N. L. (1962). The influence <strong>of</strong> sugars on the cell stability <strong>of</strong> some higher plants to heating<br />
<strong>and</strong> high hydrostatic pressure. Citologija 4, 633-643.<br />
Feller, U., Crafts-Br<strong>and</strong>ner, S. J. <strong>and</strong> Salvucci, M. E. (1998). Moderately high temperatures inhibit<br />
ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase-mediated activation <strong>of</strong><br />
Rubisco. Plant Physiol. 116, 539-546.<br />
Glover, J. R. <strong>and</strong> Lindquist, S. (1998). Hspl04, Hsp70, <strong>and</strong> Hsp40, A novel chaperone system that<br />
rescues previously aggregated proteins. Cell 94, 73-82.<br />
Gombos, Z., Wada, H., Hideg, E. <strong>and</strong> Murata, N. (1994). The unsaturation <strong>of</strong> membrane lipids<br />
stabilizes photosynthesis against heat stress. Plant Physiol. 104, 563-567.<br />
Gorham, J. (1995). Betaines in higher plants-biosynthesis <strong>and</strong> role in stress metabolism. In, Amino<br />
acids <strong>and</strong> their derivatives in higher plants. Wallsgrove, R. M. (Ed.) Cambridge University Press,<br />
Cambridge, UK. Pp. 171-203.<br />
Gounaris, K., Brain, A. P. R., Quinn, P. J., <strong>and</strong> Williams, W. P. (1983). Structural <strong>and</strong> functional<br />
changes associated with heat-induced phase-separations <strong>of</strong> non-bilayer lipids in chloroplast<br />
thylakoid membranes. FEBS Lett. 153, 47-52.<br />
Gounaris, K., Brain, A. P. R., Quinn, P. J. <strong>and</strong> Williams, W. P. (1984). Structural reorganization <strong>of</strong><br />
chloroplast thylakoid membranes in response to heat stress. Biochim. Biophys. Acta 766, 198-<br />
208.<br />
Guilioni, L., Wéry, J. <strong>and</strong> Lecoeur, J. (2003). High temperature <strong>and</strong> water deficit may reduce seed<br />
number in field pea purely by decreasing plant growth rate. Funct. Plant Biol. 30, 1151-1164.<br />
Hamerlynck, E. P., Huxman, T. E., Loik, M. E. <strong>and</strong> Smith, S. D. (2000). Effects <strong>of</strong> extreme high