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Variation of Alternative and Cytochrome Respiration during Ripening in Rice Leaves  

Lee, Kwang-hong (Phtotosynthesis Research Labotory, National Institute of Agrobiological Science)
Publication Information
KOREAN JOURNAL OF CROP SCIENCE / v.47, no.4, 2002 , pp. 301-304 More about this Journal
Abstract
The variation of alternative and cytochrome respiration during ripening in rice leaves (Oryza sativa L. cv. Takanari) was examined. The capacity of both respiration pathway was measured by inhibitor titration method using gas-phase oxygen electrodes. The alternative respiration rate decreased from 31.3% of the total respiration rate at around heading to 11.7% at 34 days after heading in the first fully expanded leaf from the top, and further to 6.4 % at 34 days after heading in the fourth leaf from the top. In contrast, the proportion of cytochrome respiration to total respiration increased with leaf senescence. The possible cause of alternative respiration as either an increase in inefficient respiration or a decrease in growth efficiency during ripening was discussed.
Keywords
alternative respiration; cyanide resistant; cytochrome; growth efficiency; rice; senescence.;
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1 Yamaguchi, J., K. Watanabe, and A. Tanaka. 1975. Studies on the growth efficiency of crop plant. Part 4: Respiratory rate and the growth efficiency of vahous organs of rice and maize. J. Sci. Soil Manure Jpn. 46 : 113-119 (in Japanese)
2 Atkin, O.K., W. R. Cummins, and D. E. Collier. 1993. Light induction of altemative pathway capacity in leaf slices of Belgium endive. Plant Cell Environ. 16 : 231-235   DOI   ScienceOn
3 Azcon Bieto, J., D. A. Day, and H. Lambers. 1983a. The regulation of respiration in the dark in wheat leaf slices. Plant Sci. Lett. 32: 313-320   DOI   ScienceOn
4 De Visser, R. and H. Lambers. 1983. Growth and the efficiency of root respiration of Pisum sativum as dependent on the source of nitrogen. Physiol. Plant. 58 : 533-543   DOI
5 Lambers, H. 1982. Cyanide resistant respiration: A nonphosphorylating electron transport pathway acting as an energy overflow. Physiol. Plant. 55 : 478-485   DOI
6 McCree, K. J. 1974. Equations for the rate of dark respiration of white clover and grain sorghum, as functions of dry weight, photosynthetic rate, and temperature. Crop Sci. 14 : 509-514   DOI
7 Musgrave, M. E., B. R. Strain, and J. N. Siedow. 1986. Response of two pea hybhds to $CO_2$ enrichment: A test of the energy overflow hypothesis for altemative respiration. Proc. Natl. Acad. Sci., USA 83 : 8157-8161   DOI   ScienceOn
8 Lambers, H., F. Posthumus, I. Stulen, L. Lanting, S. van de Dijk, and R. Hofstra. 1981. Energy metabolism of Plantago major ssp. major as dependent on the supply of mineral nutrients. Physiol. Plant. 51:245-252   DOI
9 Lee, K. and S. Akita. 2000. Factors causing the variation in the temperature coefficient of dark respiration in rice (Oryza sativa L.). Plant Prod. Sci. 3 : 38-42   DOI   ScienceOn
10 Goyal, A., C. Hiser, N. E. Tolbert, and L. Mclntosh. 1991. Progress no. 9 cultivar has altemative respiratory capacity and normal glycine metabolism. Plant Cell Physiol. 32 : 247-251   DOI
11 Tanaka, A. and J. Yamaguchi. 1968. The growth efflciency in relation to the growth of the rice plant. Soil Sci. Plant Nutr. 14 : 110-116   DOI
12 Theologis, A. and G. G. Laties. 1978. Cyanide-resistant respiradon in fresh and aged sweet potato slices. Plant Physiol. 62 : 243-248   DOI   ScienceOn
13 Ishizuka, Y. 1971. Physiology of the rice plant. Adv. Agron. 23 : 241-315   DOI
14 Azcon Bieto, J., H. Lambers, and D. A. Day. 1983b. Effect of photosynthesis and carbohydrate status on resptratory rates and the involvement of the altemative pathway in leaf respiration. Plant Physiol. 72 : 598-603   DOI   ScienceOn
15 Wagner, A. M. and A. L. Moore. 1997. Structure and function of the plant altemative oxidase: Its putative role in the oxygen defence mechanism. Biosci. Rep. 17 : 319-333   DOI   ScienceOn
16 Shugaev, A. G., E. I. Vyskrebentseva, and N. A. Shugaeva. 1998. Seasonal changes in the activity of mitochondrial oxidases detected by the traditional inhibitor analysis in disks cut from mature sugar beet leaves. Russian J. Plant Physiol. 45 : 574-581
17 Yoshida, S. and S. B. Ahn. 1968. The accumulation process of carbohydrate in lice vaheties in relation to their response to nitrogen in the tropics. Soil Sci. Plant Nutr. 14 : 153-161   DOI
18 Siedow, J. E. and A. L. Umbach. 1995. Plant mitochondrial electron transfer and molecular biology. Plant Cell 7 : 821-831   DOI   ScienceOn
19 Azcon Bieto, J., H. Lambers, and D. A. Day. 1983c. Respiratory properties of developing bean and pea leaves. Aust. J. Plant Physiol. 10: 237-245   DOI