Simultaneous mutations in ITPK4 and MRP5 genes result in a low phytic acid level without compromising salt tolerance in Arabidopsis

文献类型: 外文期刊

第一作者: Ren, Yuying

作者: Ren, Yuying;Zhao, Chunzhao;Ren, Yuying;Jiang, Mengdan;Zhou, Wenkun;Zhu, Jian-Kang;Zhu, Jian-Kang;Zhu, Jian-Kang

作者机构:

关键词: ITPK4; MRP5; phytic acid; root elongation; salt stress

期刊名称:JOURNAL OF INTEGRATIVE PLANT BIOLOGY ( 影响因子:9.3; 五年影响因子:9.3 )

ISSN: 1672-9072

年卷期: 2024 年

页码:

收录情况: SCI

摘要: Generation of crops with low phytic acid (myo-inositol-1,2,3,4,5,6-hexakisphosphate (InsP(6))) is an important breeding direction, but such plants often display less desirable agronomic traits. In this study, through ethyl methanesulfonate-mediated mutagenesis, we found that inositol 1,3,4-trisphosphate 5/6-kinase 4 (ITPK4), which is essential for producing InsP(6), is a critical regulator of salt tolerance in Arabidopsis. Loss of function of ITPK4 gene leads to reduced root elongation under salt stress, which is primarily because of decreased root meristem length and reduced meristematic cell number. The itpk4 mutation also results in increased root hair density and increased accumulation of reactive oxygen species during salt exposure. RNA sequencing assay reveals that several auxin-responsive genes are down-regulated in the itpk4-1 mutant compared to the wild-type. Consistently, the itpk4-1 mutant exhibits a reduced auxin level in the root tip and displays compromised gravity response, indicating that ITPK4 is involved in the regulation of the auxin signaling pathway. Through suppressor screening, it was found that mutation of Multidrug Resistance Protein 5 (MRP5)5 gene, which encodes an ATP-binding cassette (ABC) transporter required for transporting InsP(6) from the cytoplasm into the vacuole, fully rescues the salt hypersensitivity of the itpk4-1 mutant, but in the itpk4-1 mrp5 double mutant, InsP(6) remains at a very low level. These results imply that InsP(6) homeostasis rather than its overall amount is beneficial for stress tolerance in plants. Collectively, this study uncovers a pair of gene mutations that confer low InsP(6) content without impacting stress tolerance, which offers a new strategy for creating "low-phytate" crops.

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