1. AcWRKY28 mediated activation of AcCPK genes confers salt tolerance in pineapple (Ananas comosus).
- Author
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Qiao Zhou, Nirosha Priyadarshani, Samaranayaka Vidana Gamage, Rongjuan Qin, Han Cheng, Tiantian Luo, Myat Hnin Wai, Mohammadi, Mohammad Aqa, Yanhui Liu, Chang Liu, Hanyang Cai, Xiaomei Wang, Yeqiang Liu, Yuan Qin, and Lulu Wang
- Subjects
PINEAPPLE ,GENE expression in plants ,AGRICULTURAL productivity ,PLANTS & the environment ,SALT tolerance in plants - Abstract
Unfavorable environmental cues severely affect crop productivity resulting in significant economic losses to farmers. In plants, multiple regulatory genes, such as the WRKY transcription factor (TF) family, modulate the expression of defense genes. However, the role of the pineapple WRKY genes is poorly understood. Here, we studied the pineapple WRKY gene, AcWRKY28, by generating AcWRKY28 over-expressing transgenic pineapple plants. Overexpression of AcWRKY28 enhanced the salt stress resistance in transgenic pineapple lines. Comparative transcriptome analysis of transgenic and wild-type pineapple plants showed that "plant-pathogen interaction" pathway genes, including 9 calcium-dependent protein kinases (CPKs), were up-regulated in AcWRKY28 over-expressing plants. Furthermore, chromatin immunoprecipitation and yeast one-hybrid assays revealed AcCPK12, AcCPK3, AcCPK8, AcCPK1, and AcCPK15 as direct targets of AcWRKY28. Consistently, the study of AcCPK12 over-expressing Arabidopsis lines showed that AcCPK12 enhances salt, drought, and disease resistance. This study shows that AcWRKY28 plays a crucial role in promoting salt stress resistance by activating the expression of AcCPK genes. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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