Repositorium

What is a repositorium?

The repositorium is a searchable database that provides data on relevant articles from journals, company web pages and web pages of governmental agencies about studies/applications of genome-editing in model plants and agricultural crops in the period January 1996 to May 2018. Search options are article type, technique, plant, traits or free text. The repositorium is based on the systematic map of Dominik Modrzejewski et al., published in the journal environmental evidence. (Download article PDF).

POSITIVE REGULATOR OF IRON HOMEOSTASIS1, OsPRI1, Facilitates Iron Homeostasis

519

Typ / Jahr

Journal Article / 2017

Autoren

Zhang, Huimin; Li, Yang; Yao, Xiani; Liang, Gang; Yu, Diqiu

Abstract

Oryza sativa HEMERYTHRIN MOTIF-CONTAINING REALLY INTERESTING NEW GENE AND ZINC-FINGER PROTEIN1 (OsHRZ1) is a putative iron-binding sensor. However, it is unclear how OsHRZ1 transmits signals. In this study, we reveal that POSITIVE REGULATOR OF IRON HOMEOSTASIS1 (OsPRI1) interacts with OsHRZ1. A loss-of-function mutation to OsPRI1 increased the sensitivity of plants to Fe-deficient conditions and down-regulated the expression of Fe-deficiency-responsive genes. Yeast one-hybrid and electrophoretic mobility shift assay results suggested that OsPRI1 binds to the OsIRO2 and OsIRO3 promoters. In vitro ubiquitination experiments indicated that OsPRI1 is ubiquitinated by OsHRZ1. Cell-free degradation assays revealed that the stability of OsPRI1 decreased in wild-type roots but increased in the hrz1-2 mutant, suggesting OsHRZ1 is responsible for the instability of OsPRI1. The hrz1-2 seedlings were insensitive to Fe-deficient conditions. When the pri1-1 mutation was introduced into hrz1-2 mutants, the pri1hrz1 double mutant was more sensitive to Fe deficiency than the hrz1-2 mutant. Additionally, the expression levels of Fe-deficiency-responsive genes were lower in the hrz1pri1 double mutant than in the hrz1-2 mutant. Collectively, these results imply that OsPRI1, which is ubiquitinated by OsHRZ1, mediates rice responses to Fe deficiency by positively regulating OsIRO2 and OsIRO3 expression as part of the OsHRZ1-OsPRI1-OsIRO2/3 signal transduction cascade.

Keywords

Down-Regulation; gene editing; Homeostasis; Iron/deficiency/metabolism; loss of function mutation; Oryza/genetics/physiology; phenotype; Plant Leaves/genetics/physiology; Plant Proteins/genetics/metabolism; Plant Roots/genetics/physiology; Plant Shoots/genetics/physiology; Promoter Regions, Genetic/genetics; Protein Interaction Mapping; Seedlings/genetics/physiology; Signal Transduction; Transcription Factors/genetics/metabolism; Two-Hybrid System Techniques; Ubiquitination

Periodical

Plant physiology

Periodical Number

Page range

543–554

Volume

175

DOI

10.1104/pp.17.00794

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Techniques

ID	Corresponding Author Country	Plant Species	GE Technique Sequence Identifier	Trait Type of Alteration	Progress in Research Key Topic
1268	Liang, Gang China	Oryza sativa	CRISPR/Cas9 PRI1	Iron homeostasis SDN1	Basic research Basic research