Triose phosphate utilization in leaves is modulated by whole-plant sink-source ratios and nitrogen budgets in rice
文献类型: 外文期刊
作者: Zhou, Zhenxiang 1 ; Zhang, Zichang 1 ; van der Putten, Peter E. L. 1 ; Fabre, Denis 2 ; Dingkuhn, Michael 2 ; Struik, Paul C. 1 ; Yin, Xinyou 1 ;
作者机构: 1.Wageningen Univ & Res, Ctr Crop Syst Anal, Dept Plant Sci, POB 430, NL-6700 AK Wageningen, Netherlands
2.Jiangsu Acad Agr Sci, Inst Plant Protect, Nanjing, Jiangsu, Peoples R China
3.CIRAD, UMR AGAP Inst, F-34398 Montpellier, France
4.Univ Montpellier, UMR AGAP Inst, Inst Agro, CIRAD,INRAE, Montpellier, France
关键词: Adaxial versus abaxial measurement; Oryza sativa; panicle pruning; triose phosphate utilization; photorespiration-associated nitrogen assimilation; sink limitation; yellower-leaf modification
期刊名称:JOURNAL OF EXPERIMENTAL BOTANY ( 影响因子:6.9; 五年影响因子:8.0 )
ISSN: 0022-0957
年卷期: 2023 年
页码:
收录情况: SCI
摘要: Triose phosphate utilization (TPU) is a biochemical process indicating carbon sink-source (im)balance within leaves. When TPU limits leaf photosynthesis, photorespiration-associated amino acid exports probably provide an additional carbon outlet and increase leaf CO2 uptake. However, whether TPU is modulated by whole-plant sink-source relations and nitrogen (N) budgets remains unclear. We address this question by model analyses of gas-exchange data measured on leaves at three growth stages of rice plants grown at two N levels. Sink-source ratio was manipulated by panicle pruning, by using yellower-leaf variant genotypes, and by measuring photosynthesis on adaxial and abaxial leaf sides. Across all these treatments, higher leaf N content resulted in the occurrence of TPU limitation at lower intercellular CO2 concentrations. Photorespiration-associated amino acid export was greater in high-N leaves, but was smaller in yellower-leaf genotypes, panicle-pruned plants, and for abaxial measurement. The feedback inhibition of panicle pruning on rates of TPU was not always observed, presumably because panicle pruning blocked N remobilization from leaves to grains and the increased leaf N content masked feedback inhibition. The leaf-level TPU limitation was thus modulated by whole-plant sink-source relations and N budgets during rice grain filling, suggesting a close link between within-leaf and whole-plant sink limitations. While triose phosphate utilization limitation is a biochemical process indicating the carbon sink-source (im)balance within the leaf, this process is modulated by whole-plant source-sink ratios and nitrogen budgets in rice.
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