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. 2025 Jun 14;138(7):153.
doi: 10.1007/s00122-025-04945-5.

ZmPRR37-ZmYSL14 module enhances salt stress tolerance in maize

Zhixue Liu #  1 Wanjun Zhang #  1 Jing Zhang  1 Qi Cheng  1 Jiachen Liang  1 Chongyu Sun  1 Jifei Ren  1 Shifang Zhao  1 Fan Wu  1 Jia Shi  1 Huihui Su  1 Yanhui Chen  1 Zhenzhen Ren  2 Liuji Wu  3 Lixia Ku  4
Affiliations

ZmPRR37-ZmYSL14 module enhances salt stress tolerance in maize

Zhixue Liu et al. Theor Appl Genet. .

Abstract

Maize YSL gene ZmYSL14 enhances salt tolerance in maize. Our findings demonstrate that ZmPRR37-ZmYSL14 module promotes salt stress tolerance in maize. Environmental challenges, particularly soil salinity, have severely impacted maize production worldwide. Yellow Stripe-Like (YSL) is a subfamily of oligopeptide transporter, and there is limited reporting on its role in salt stress response. In this study, we screened an Ac/Ds mutant library and identified a salt-sensitive line, K17-16H876. Further characterization revealed that the Ds element was inserted into the coding region of Zm00001d054041 (ZmYSL14), which encodes a YSL protein. The zmysl14 mutant exhibited increased salt sensitivity, while ZmYSL14 overexpression lines displayed enhanced salt tolerance. Yeast one-hybrid screening identified a PRR transcription factor, ZmPRR37, which has previously been reported to enhance salt stress tolerance in maize. Dual-luciferase assays and RT-qPCR analysis indicated that ZmPRR37 promotes the expression of ZmYSL14. Our findings suggest the ZmPRR37-ZmYSL14 module enhances salt tolerance in maize. This research enriches the functional understanding of YSL family genes and provides valuable genetic resources for breeding new salt-tolerant maize varieties.

Keywords: ZmYSL14; Maize; OPT family protein; Salt stress.

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Conflict of interest statement

Declarations. Conflict of interest: The authors have no relevant financial or non-financial interests to disclose.

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