@Article{phyton.2023.030710,
AUTHOR = {Jing Yang, Yufeng Wang, Zhanghua Hu, Xiaoping Chen, Yanjun Dong, Sheng Teng},
TITLE = {TCD5 Enhances the Photosynthesis Capacity, Increases the Panicle Number and the Yield in Rice},
JOURNAL = {Phyton-International Journal of Experimental Botany},
VOLUME = {92},
YEAR = {2023},
NUMBER = {9},
PAGES = {2649--2663},
URL = {http://www.techscience.com/phyton/v92n9/53609},
ISSN = {1851-5657},
ABSTRACT = {Improvement of photosynthetic efficiency is a major approach to increase crop yield potential. Previously, we cloned a gene encoding the chloroplast-located putative monooxygenase <i>TCD5</i>, which is essential in plastid development under low temperature in rice (<i>Oryza sativa</i> L.). In this study, the effects of <i>TCD5</i> on the photosynthesis and the yields were investigated in rice. Two sets of genetic materials with three levels of <i>TCD5</i> expression, including <i>tcd5</i> mutant or <i>TCD5</i> RNAi transgenic lines and <i>TCD5</i> over-expression transgenic lines in Jiahua1 and Nipponbare backgrounds, were used in the field trails of multi-locations and multi-years. TCD5 positively affected the panicle number and the yield at dosage. Compared with the wild-types, the panicle numbers were 12.4%–14.6% less in <i>tcd5</i> mutant and 8.3%–38.6% less in <i>TCD5</i> RNAi lines, but 26.2%–61.8% more in <i>TCD5</i> over-expression lines. The grain yields per plant were 9.1%–18.4% less in <i>tcd5</i> mutant and 14.3%–56.7% less in TCD5 RNAi lines, but 6.9%–56.5% more in <i>TCD5</i> over-expression lines. The measurements of net photosynthetic rate indicated that mutation or knock down of <i>TCD5</i> decreased the net photosynthetic rate by 10.4% and 15.6%, respectively, while increasing it by 8.9% and 8.7% in the <i>TCD5</i> over-expression lines in Jiahua1 and Nipponbare backgrounds, respectively. Accordingly, the measurements of chlorophyll fluorescence parameters showed that the electron transport rate and quantum yield decreased in <i>tcd5</i> mutant or <i>TCD5</i> RNAi lines but increased in <i>TCD5</i> over-expression lines, both in Jiahua1 and Nipponbare backgrounds. IP-MS screening revealed that TCD5 interacts with 29 chloroplast proteins involved in chlorophyll synthesis, photo-reactions of the photosynthesis, carbon assimilation and metabolism, energy metabolism, redox balance, protein synthesis and transportation. Two TCD5 interacted proteins, D1 and FBA were effective targets for improving photosynthesis. These results suggest a potentially new strategy for increasing rice yield by enhancing photosynthesis.},
DOI = {10.32604/phyton.2023.030710}
}