Overexpression of OsMYBR22/OsRVE1 transcription factor simultaneously enhances chloroplast-dependent metabolites in rice grains
Abstract The OsMYBR22 (same to OsRVE1), an R1type-MYB transcription factor belonging
to the rice CCA1-like family, was upregulated under blue light condition, which enhanced …
to the rice CCA1-like family, was upregulated under blue light condition, which enhanced …
[HTML][HTML] OsDWARF10, transcriptionally repressed by OsSPL3, regulates the nutritional metabolism of polished rice
K Li, Y Cheng, C Fang - Frontiers in Plant Science, 2023 - frontiersin.org
Strigolactone (SL) plays essential roles in plant development and the metabolism of rice
leaves. However, the impact of SL on the accumulation of nutritional metabolites in polished …
leaves. However, the impact of SL on the accumulation of nutritional metabolites in polished …
Fine mapping and identification of a novel albino gene OsAL50 that is required for chlorophyll biosynthesis and chloroplast development in rice (Oryza sativa L.)
Y Zeng, X Wei, C Xiao, R Zhang, J Huang, X Xu - Plant Growth Regulation, 2024 - Springer
Leaf color is a highly important agronomic trait, and mutants with altered leaf coloration can
serve as excellent models for studies on chloroplast development and chlorophyll …
serve as excellent models for studies on chloroplast development and chlorophyll …
Overexpression of OsHox32 results in pleiotropic effects on plant type architecture and leaf development in rice
Y Li, A Shen, W Xiong, Q Sun, Q Luo, T Song, Z Li… - Rice, 2016 - Springer
Abstract Background The Class III homeodomain Leu zipper (HD-Zip III) gene family plays
important roles in plant growth and development. Here, we analyze the function of OsHox32 …
important roles in plant growth and development. Here, we analyze the function of OsHox32 …
Chlorophyllide-a oxygenase 1 (OsCAO1) over-expression affects rice photosynthetic rate and grain yield
H Ping, M Jie, K Shujing, L Sanfeng, W Xianmei… - Rice Science, 2023 - ricesci.org
Leaf color and photosynthesis are important factors for rice growth and development. Hence,
improving the photosynthetic rate is an effective approach for increasing rice yield. We …
improving the photosynthetic rate is an effective approach for increasing rice yield. We …
Overexpressing OsFBN1 enhances plastoglobule formation, reduces grain-filling percent and jasmonate levels under heat stress in rice
J Li, J Yang, B Zhu, G Xie - Plant science, 2019 - Elsevier
Abstract In higher plants, Fibrillins (FBNs) constitute a conserved plastid-lipid-associated
(PAPs) protein family and modulate the metabolite transport and lipid metabolism in plastids …
(PAPs) protein family and modulate the metabolite transport and lipid metabolism in plastids …
Rice OsGATA16 is a positive regulator for chlorophyll biosynthesis and chloroplast development
Chloroplasts are essential organelles in plants that contain chlorophylls and facilitate
photosynthesis for growth and development. As photosynthetic efficiency significantly …
photosynthesis for growth and development. As photosynthetic efficiency significantly …
OsYGL54 is essential for chloroplast development and seedling survival in rice
R Zhai, J Ye, M Wu, G Zhu, F Yu, S Ye, X Zhang - Plant Growth Regulation, 2022 - Springer
Chloroplast signal recognition particle (cpSRP) is composed of cpSRP54 and cpSRP43,
which form a soluble transit complex with light-harvesting chlorophyll a/b-binding protein in …
which form a soluble transit complex with light-harvesting chlorophyll a/b-binding protein in …
Overexpression of OsTLP27 in rice improves chloroplast function and photochemical efficiency
F Hu, Z Kang, S Qiu, Y Wang, F Qin, C Yue, J Huang… - Plant science, 2012 - Elsevier
The thylakoid lumen proteins are highly associated with photosynthesis functionally. In this
study, we characterized the OsTLP27 gene from rice (Oryza sativa), which encodes a 27 …
study, we characterized the OsTLP27 gene from rice (Oryza sativa), which encodes a 27 …
Comparative transcriptome and metabolome profiling reveal molecular mechanisms underlying OsDRAP1-mediated salt tolerance in rice
Y Wang, L Huang, F Du, J Wang, X Zhao, Z Li… - Scientific Reports, 2021 - nature.com
Integration of transcriptomics and metabolomics data can provide detailed information for
better understanding the molecular mechanisms underlying salt tolerance in rice. In the …
better understanding the molecular mechanisms underlying salt tolerance in rice. In the …