Visualizing plant intracellular inorganic orthophosphate distribution

Meina Guo^#^{1

2}, Wenyuan Ruan^#³, Ruili Li^#¹, Lei Xu^#¹, Sahar Hani⁴, Qianqian Zhang¹, Pascale David⁴, Jianhao Ren¹, Bingsong Zheng⁵, Laurent Nussaume⁴, Keke Yi⁶

Affiliations

¹ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China.
² State Key Laboratory of Efficient Production of Forest Resources/ National Engineering Research Center of Tree Breeding and Ecological Restoration, College of Biological Sciences and Technology, Beijing Forestry University, Beijing, People's Republic of China.
³ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China. ruanwenyuan@caas.cn.
⁴ EBMP (Environnement, Bioénergies, Microalgues et Plantes), Aix Marseille Univ, CEA, CNRS, UMR7265, BIAM, Saint-Paul lez Durance, France.
⁵ State Key Laboratory of Subtropical Silviculture, Zhejiang A&F University, Hangzhou, China.
⁶ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China. yikeke@gmail.com.

^# Contributed equally.

PMID: 38195907
DOI: 10.1038/s41477-023-01612-9

Visualizing plant intracellular inorganic orthophosphate distribution

Meina Guo et al. Nat Plants. 2024 Feb.

. 2024 Feb;10(2):315-326.

doi: 10.1038/s41477-023-01612-9. Epub 2024 Jan 9.

Authors

Meina Guo^#^{1

2}, Wenyuan Ruan^#³, Ruili Li^#¹, Lei Xu^#¹, Sahar Hani⁴, Qianqian Zhang¹, Pascale David⁴, Jianhao Ren¹, Bingsong Zheng⁵, Laurent Nussaume⁴, Keke Yi⁶

Affiliations

¹ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China.
² State Key Laboratory of Efficient Production of Forest Resources/ National Engineering Research Center of Tree Breeding and Ecological Restoration, College of Biological Sciences and Technology, Beijing Forestry University, Beijing, People's Republic of China.
³ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China. ruanwenyuan@caas.cn.
⁴ EBMP (Environnement, Bioénergies, Microalgues et Plantes), Aix Marseille Univ, CEA, CNRS, UMR7265, BIAM, Saint-Paul lez Durance, France.
⁵ State Key Laboratory of Subtropical Silviculture, Zhejiang A&F University, Hangzhou, China.
⁶ State Key Laboratory of Efficient Utilization of Arid and Semi-arid Arable Land in Northern China/Key Laboratory of Plant Nutrition and Fertilizer, Ministry of Agriculture, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China. yikeke@gmail.com.

^# Contributed equally.

PMID: 38195907
DOI: 10.1038/s41477-023-01612-9

Abstract

Intracellular inorganic orthophosphate (Pi) distribution and homeostasis profoundly affect plant growth and development. However, its distribution patterns remain elusive owing to the lack of efficient cellular Pi imaging methods. Here we develop a rapid colorimetric Pi imaging method, inorganic orthophosphate staining assay (IOSA), that can semi-quantitatively image intracellular Pi with high resolution. We used IOSA to reveal the alteration of cellular Pi distribution caused by Pi starvation or mutations that alter Pi homeostasis in two model plants, rice and Arabidopsis, and found that xylem parenchyma cells and basal node sieve tube element cells play a critical role in Pi homeostasis in rice. We also used IOSA to screen for mutants altered in cellular Pi homeostasis. From this, we have identified a novel cellular Pi distribution regulator, HPA1/PHO1;1, specifically expressed in the companion and xylem parenchyma cells regulating phloem Pi translocation from the leaf tip to the leaf base in rice. Taken together, IOSA provides a powerful method for visualizing cellular Pi distribution and facilitates the analysis of Pi signalling and homeostasis from the level of the cell to the whole plant.

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References

1. Chiou, T. J. & Lin, S. I. Signaling network in sensing phosphate availability in plants. Annu. Rev. Plant Biol. 62, 185–206 (2011). - PubMed - DOI
1. Kanno, S. et al. A novel role for the root cap in phosphate uptake and homeostasis. eLife 5, e14577 (2016). - PubMed - PMC - DOI
1. Veneklaas, E. J. et al. Opportunities for improving phosphorus-use efficiency in crop plants. New Phytol. 195, 306–320 (2012). - PubMed - DOI
1. Lynch, J. P. Root phenes for enhanced soil exploration and phosphorus acquisition: tools for future crops. Plant Physiol. 156, 1041–1049 (2011). - PubMed - PMC - DOI
1. Raghothama, K. G. & Karthikeyan, A. S. Phosphate acquisition. Plant Soil 274, 37–49 (2005). - DOI

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Visualizing plant intracellular inorganic orthophosphate distribution

Affiliations

Visualizing plant intracellular inorganic orthophosphate distribution

Authors

Affiliations

Abstract

References

MeSH terms

Substances

Grants and funding

LinkOut - more resources

Full Text Sources

Research Materials

Miscellaneous