The OsPS1-F gene regulates growth and development in rice by modulating photosynthetic electron transport rate
R Ramamoorthy, B Vishal, S Ramachandran… - Plant cell reports, 2018 - Springer
Key message Ds insertion in rice OsPS1-F gene results in semi-dwarf plants with reduced
tiller number and grain yield, while genetic complementation with OsPS1-F rescued the …
tiller number and grain yield, while genetic complementation with OsPS1-F rescued the …
Tissue-Specific and Developmental Pattern of Expression of the Rice sps1 Gene
AT Chávez-Bárcenas, JJ Valdez-Alarcón… - Plant …, 2000 - academic.oup.com
Sucrose-phosphate synthase (SPS) is one of the key regulatory enzymes in carbon
assimilation and partitioning in plants. SPS plays a central role in the production of sucrose …
assimilation and partitioning in plants. SPS plays a central role in the production of sucrose …
Molecular characterization and functional analysis of the OsPsbR gene family in rice
L Li, T Ye, X Gao, R Chen, J Xu, C Xie, J Zhu… - Molecular genetics and …, 2017 - Springer
Low temperature may exert a negative impact on agronomical productivity. PsbR was known
as the 10 kDa Photosystem II polypeptide. Although plant PsbR is thought to play important …
as the 10 kDa Photosystem II polypeptide. Although plant PsbR is thought to play important …
Rice phot1a mutation reduces plant growth by affecting photosynthetic responses to light during early seedling growth
The aim of this work was to characterize the phot1 mutant of rice during early seedling
growth in various light conditions. We isolated the rice T-DNA insertion mutant phot1a-1 and …
growth in various light conditions. We isolated the rice T-DNA insertion mutant phot1a-1 and …
Formin protein DRT1 affects gross morphology and chloroplast relocation in rice
Y Zhang, G Dong, L Wu, X Wang, F Chen… - Plant …, 2023 - academic.oup.com
Plant height and tiller number are two major factors determining plant architecture and yield.
However, in rice (Oryza sativa), the regulatory mechanism of plant architecture remains to be …
However, in rice (Oryza sativa), the regulatory mechanism of plant architecture remains to be …
Overexpression of OsPHT1;4 Increases Phosphorus Utilization Efficiency and Improves the Agronomic Traits of Rice cv. Wuyunjing 7
Z Hu, X Huang, X Wang, H Xia, X Liu, Y Sun, S Sun… - Agronomy, 2022 - mdpi.com
Inorganic phosphate (Pi) is taken up by plant roots and translocated via phosphate
transporters. Previously, we showed that phosphate transporter OsPHT1; 4 in the PHT1 …
transporters. Previously, we showed that phosphate transporter OsPHT1; 4 in the PHT1 …
Regulation of OsSPX1 and OsSPX3 on Expression of OsSPX domain Genes and Pi‐starvation Signaling in Rice
Z Wang, H Hu, H Huang, K Duan… - Journal of Integrative …, 2009 - Wiley Online Library
The rice (Oryza sativa L.) genome contains at least six genes exclusively with an SPX
(SYG1/PHO81/XPR1) domain at the N‐terminal, designated as OsSPX1‐6. Here we report …
(SYG1/PHO81/XPR1) domain at the N‐terminal, designated as OsSPX1‐6. Here we report …
[HTML][HTML] Functional analysis of phosphate transporter OsPHT4 family members in rice
L Ruili, W Jiaoling, XU Lei, SUN Meihao, YI Keke… - Rice science, 2020 - Elsevier
The transport of phosphate between cytoplasm and subcellular compartments is critical for
plant metabolic regulation. We conducted bioinformatic analysis, heterologous expression in …
plant metabolic regulation. We conducted bioinformatic analysis, heterologous expression in …
The essential roles of OsFtsH2 in developing the chloroplast of rice
Q Wu, T Han, L Yang, Q Wang, Y Zhao, D Jiang… - BMC Plant …, 2021 - Springer
Background Filamentation temperature-sensitive H (FtsH) is an ATP-dependent zinc
metalloprotease with ATPase activity, proteolysis activity and molecular chaperone-like …
metalloprotease with ATPase activity, proteolysis activity and molecular chaperone-like …
FRUCTOKINASE‐LIKE PROTEIN 1 interacts with TRXz to regulate chloroplast development in rice
L He, S Zhang, Z Qiu, J Zhao, W Nie… - Journal of integrative …, 2018 - Wiley Online Library
Chloroplast genes are transcribed by the plastid‐encoded RNA polymerase (PEP) or
nucleus‐encoded RNA polymerase. FRUCTOKINASE‐LIKE PROTEINS (FLNs) are …
nucleus‐encoded RNA polymerase. FRUCTOKINASE‐LIKE PROTEINS (FLNs) are …