<scp>CPK10</scp> protein kinase regulates <i>Arabidopsis</i> tolerance to boron deficiency through phosphorylation and activation of <scp>BOR1</scp> transporter

Wang, Zhangqing; Zhang, Yanting; Wu, Yaru; Lai, Duoduo; Deng, Yuan; Ju, Chuanfeng; Sun, Lv; Huang, Panpan; Wang, Cun

doi:10.1111/nph.19712

New Phytologist

2024

DOI: 10.1111/nph.19712

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CPK10 protein kinase regulates Arabidopsis tolerance to boron deficiency through phosphorylation and activation of BOR1 transporter

Zhangqing Wang,

Yanting Zhang,

Yaru Wu

et al.

Abstract: Summary Boron (B) is crucial for plant growth and development. B deficiency can impair numerous physiological and metabolic processes, particularly in root development and pollen germination, seriously impeding crop growth and yield. However, the molecular mechanism underlying boron signal perception and signal transduction is rather limited. In this study, we discovered that CPK10, a calcium‐dependent protein kinase in the CPK family, has the strongest interaction with the boron transporter BOR1. Mutations in… Show more

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Cited by 2 publications

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The Bor1 elevator transport cycle is subject to autoinhibition and activation

Jiang,

Jiang

2024

Nat Commun

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Boron, essential for plant growth, necessitates precise regulation due to its potential toxicity. This regulation is achieved by borate transporters (BORs), which are homologous to the SLC4 family. The Arabidopsis thaliana Bor1 (AtBor1) transporter from clade I undergoes slow regulation through degradation and translational suppression, but its potential for fast regulation via direct activity modulation was unclear. Here, we combine cryo-electron microscopy, mutagenesis, and functional characterization to study AtBor1, revealing high-resolution structures of the dimer in one inactive and three active states. Our findings show that AtBor1 is regulated by two distinct mechanisms: an autoinhibitory domain at the carboxyl terminus obstructs the substrate pathway via conserved salt bridges, and phosphorylation of Thr410 allows interaction with a positively charged pocket at the cytosolic face, essential for borate transport. These results elucidate the molecular basis of AtBor1’s activity regulation and highlight its role in fast boron level regulation in plants.

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The Bor1 elevator transport cycle is subject to autoinhibition and activation

Jiang,

Jiang

2024

Nat Commun

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Connecting calcium signaling with boron transport: the crucial role of CPK10 protein kinase

Huang

2024

New Phytologist

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CPK10 protein kinase regulates Arabidopsis tolerance to boron deficiency through phosphorylation and activation of BOR1 transporter

Cited by 2 publications

References 70 publications

The Bor1 elevator transport cycle is subject to autoinhibition and activation

The Bor1 elevator transport cycle is subject to autoinhibition and activation

Connecting calcium signaling with boron transport: the crucial role of CPK10 protein kinase

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