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Your search keyword '"Evans, John R"' showing total 24 results
Start Over Author "Evans, John R" Journal plant physiology
24 results on '"Evans, John R"'

7. Functional Analysis of Corn Husk Photosynthesis

Author

Pengelly, Jasper J.L., Kwasny, Scott, Bala, Soumi, Evans, John R., Voznesenskaya, Elena V., Koteyeva, Nuria K., Edwards, Gerald E., Furbank, Robert T., and von Caemmerer, Susanne

Published
2011

23. Enhancing C3 Photosynthesis.

Author

Von Caemmerer, Susanne and Evans, John R.

Subjects
*PHOTOSYNTHESIS, *CROP yields, *AGRICULTURAL productivity, *PHOTOBIOLOGY, *EFFECT of light on plants
Abstract

The article discusses reasons and ways to increase photosynthesis in C3 plants. It describes how CO 2 assimilation and Rubisco can enhance C3 photosynthesis. The authors opine that a new "green revolution" is necessary in world agriculture to increase crop yields as gains from conventional improvement do not match world population growth. They cite that increasing leaf photosynthesis is one of the attractive ways to increase crop yields. Also discussed is the debate whether photosynthesis can increase yield potential.

Published
2010
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24. Faster Rubisco Is the Key to Superior Nitrogen-Use Efficiency in NADP-Malic Enzyme Relative to NAD-Malic Enzyme C4 Grasses.

Author

Ghannoum, Oula, Evans, John R., Chow, Wah Soon, Andrews, T. John, Conroy, Jann P., and von Caemmerer, Susanne

Subjects
*NITROGEN, *ENZYMES, *PROTEINS, *GRASSES, *PLANT physiology, *BOTANY
Abstract

In 27 C4 grasses grown under adequate or deficient nitrogen (N) supplies, N-use efficiency at the photosynthetic (assimilation rate per unit leaf N) and whole-plant (dry mass per total leaf N) level was greater in NADP-malic enzyme (ME) than NAD-ME species. This was due to lower N content in NADP-ME than NAD-ME leaves because neither assimilation rates nor plant dry mass differed significantly between the two C4 subtypes. Relative to NAD-ME, NADP-ME leaves had greater in vivo (assimilation rate per Rubisco catalytic sites) and in vitro Rubisco turnover rates (kcat; 3.8 versus 5.7 s-1 at 25°C). The two parameters were linearly related. In 2 NAD-ME (Panicum miliaceum and Panicum coloratum) and 2 NADP-ME (Sorghum bicolor and Cenchrus ciliaris) grasses, 30% of leaf N was allocated to thylakoids and 5% to 9% to amino acids and nitrate. Soluble protein represented a smaller fraction of leaf N in NADP-ME (41%) than in NAD-ME (53%) leaves, of which Rubisco accounted for one-seventh. Soluble protein averaged 7 and 10 g (mmol chlorophyll)-1 in NADP-ME and NAD-ME leaves, respectively. The majority (65%) of leaf N and chlorophyll was found in the mesophyll of NADP-ME and bundle sheath of NAD-ME leaves. The mesophyll-bundle sheath distribution of functional thylakoid complexes (photosystems I and II and cytochrome f) varied among species, with a tendency to be mostly located in the mesophyll. In conclusion, superior N-use efficiency of NADP-ME relative to NAD-ME grasses was achieved with less leaf N, soluble protein, and Rubisco having a faster kcat. [ABSTRACT FROM AUTHOR]

Published
2005
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