Identification and Analysis of Stress-Associated Proteins (SAPs) Protein Family and Drought Tolerance of ZmSAP8 in Transgenic Arabidopsis

Su, Anqi; Qin, Qianqian; Liu, Chao; Zhang, Jiajun; Yu, Bin; Cheng, Yifeng; Wang, Sijia; Tang, Jiawen; Si, Weina

doi:10.3390/ijms232214109

IJMS

2022

DOI: 10.3390/ijms232214109

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Identification and Analysis of Stress-Associated Proteins (SAPs) Protein Family and Drought Tolerance of ZmSAP8 in Transgenic Arabidopsis

Anqi Su¹,

Qianqian Qin²,

Chao Liu³

et al.

Abstract: Stress-associated proteins (SAPs), a class of A20/AN1 zinc finger proteins, play vital roles in plant stress response. However, investigation of SAPs in maize has been very limited. Herein, to better trace the evolutionary history of SAPs in maize and plants, 415 SAPs were identified in 33 plant species and four species of other kingdoms. Moreover, gene duplication mode exploration showed whole genome duplication contributed largely to SAP gene expansion in angiosperms. Phylogeny reconstruction was performed w… Show more

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Cited by 5 publications

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Research progress on plant stress‐associated protein (SAP) family: Master regulators to deal with environmental stresses

Ben Saad,

Ben Romdhane,

Čmiková

et al. 2024

BioEssays

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Every year, unfavorable environmental factors significantly affect crop productivity and threaten food security. Plants are sessile; they cannot move to escape unfavorable environmental conditions, and therefore, they activate a variety of defense pathways. Among them are processes regulated by stress‐associated proteins (SAPs). SAPs have a specific zinc finger domain (A20) at the N‐terminus and either AN1 or C2H2 at the C‐terminus. SAP proteins are involved in many biological processes and in response to various abiotic or biotic constraints. Most SAPs play a role in conferring transgenic stress resistance and are stress‐inducible. The emerging field of SAPs in abiotic or biotic stress response regulation has attracted the attention of researchers. Although SAPs interact with various proteins to perform their functions, the exact mechanisms of these interactions remain incompletely understood. This review aims to provide a comprehensive understanding of SAPs, covering their diversity, structure, expression, and subcellular localization. SAPs play a pivotal role in enabling crosstalk between abiotic and biotic stress signaling pathways, making them essential for developing stress‐tolerant crops without yield penalties. Collectively, understanding the complex regulation of SAPs in stress responses can contribute to enhancing tolerance against various environmental stresses through several techniques such as transgenesis, classical breeding, or gene editing.

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Research progress on plant stress‐associated protein (SAP) family: Master regulators to deal with environmental stresses

Ben Saad,

Ben Romdhane,

Čmiková

et al. 2024

BioEssays

View full text Add to dashboard Cite

show abstract

Exploring the GRAS gene family in Taraxacum kok-saghyz Rodin：characterization, evolutionary relationships, and expression analyses in response to abiotic stresses

Li,

Liang,

Chao

et al. 2024

Biochemical and Biophysical Research Communications

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Genome-wide identification of SAP family genes and characterization of TaSAP6-A1 to improve Cd tolerance in Triticum aestivum L.

Yu,

Zhang,

et al. 2025

International Journal of Biological Macromolecules

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Identification and Analysis of Stress-Associated Proteins (SAPs) Protein Family and Drought Tolerance of ZmSAP8 in Transgenic Arabidopsis

Cited by 5 publications

References 75 publications

Research progress on plant stress‐associated protein (SAP) family: Master regulators to deal with environmental stresses

Research progress on plant stress‐associated protein (SAP) family: Master regulators to deal with environmental stresses

Exploring the GRAS gene family in Taraxacum kok-saghyz Rodin：characterization, evolutionary relationships, and expression analyses in response to abiotic stresses

Genome-wide identification of SAP family genes and characterization of TaSAP6-A1 to improve Cd tolerance in Triticum aestivum L.

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