Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress
S Zhao, ML Zhang, TL Ma, Y Wang - The Plant Cell, 2016 - academic.oup.com
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress.
S Zhao, ML Zhang, TL Ma, Y Wang - The Plant Cell, 2016 - europepmc.org
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress.
S Zhao, ML Zhang, TL Ma, Y Wang - Plant Cell, 2016 - search.ebscohost.com
Abstract Potassium (K< sup>+</sup>) plays crucial roles in plant growth and development.
In natural environments, K< sup>+</sup> availability in soils is relatively low and fluctuating …
In natural environments, K< sup>+</sup> availability in soils is relatively low and fluctuating …
[HTML][HTML] Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress
S Zhao, ML Zhang, TL Ma, Y Wang - The Plant Cell, 2016 - ncbi.nlm.nih.gov
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
[PDF][PDF] Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium StressOPEN
S Zhao, ML Zhang, TL Ma, Y Wang - researchgate.net
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
[PDF][PDF] Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium StressOPEN
S Zhao, ML Zhang, TL Ma, Y Wang - scholar.archive.org
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress
S Zhao, ML Zhang, TL Ma, Y Wang - The Plant cell, 2016 - pubmed.ncbi.nlm.nih.gov
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress
S Zhao, ML Zhang, TL Ma, Y Wang - Plant Cell, 2016 - JSTOR
Potassium (K+) plays crucial roles in plant growth and development. In natural
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
environments, K+ availability in soils is relatively low and fluctuating. Transcriptional …
[引用][C] Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K+ Transporter Gene HAK5 in Response to Low Potassium Stress
S Zhao, ML Zhang, TL Ma, Y Wang - The Plant Cell, 2016 - cir.nii.ac.jp
Phosphorylation of ARF2 Relieves Its Repression of Transcription of the K<sup>+</sup>
Transporter Gene <i>HAK5</i> in Response to Low Potassium Stress | CiNii Research CiNii …
Transporter Gene <i>HAK5</i> in Response to Low Potassium Stress | CiNii Research CiNii …