Identification and Functional Validation of the <i>PeDHN</i> Gene Family in Moso Bamboo

Identification and Functional Validation of the <i>PeDHN</i> Gene Family in Moso Bamboo

As climate change intensifies soil drought and salinization, enhancing the drought and salt tolerance of moso bamboo (<i>Phyllostachys edulis</i>) is urgent. DHN genes are crucial for plant stress responses and have gained attention in plant resistance to drought and salinity. This study...

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Main Authors: Yaqin Ye, Yanting Chang, Wenbo Zhang, Tiankui Chu, Hanchen Tian, Yayun Deng, Zehui Jiang, Yanjun Ma, Tao Hu
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Plants
Subjects:
DHN
moso bamboo
functional verification
NaCl
ABA
Online Access:https://www.mdpi.com/2223-7747/14/10/1520
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Summary:As climate change intensifies soil drought and salinization, enhancing the drought and salt tolerance of moso bamboo (<i>Phyllostachys edulis</i>) is urgent. DHN genes are crucial for plant stress responses and have gained attention in plant resistance to drought and salinity. This study identified nine DHN family members (<i>PeDHN1</i>–<i>PeDHN9</i>) from moso bamboo, which were classified into K<sub>2</sub>S-type, YK<sub>2</sub>S-type, and Y<sub>2</sub>K<sub>2</sub>S-type dehydrins based on their characteristic motifs. We employed integrated bioinformatics approaches to analyze their gene structure, phylogeny, biological properties, and expression patterns under various stress conditions. Five genes <i>(PeDHN2/4/5/6/8</i>), which may have significant functional roles in moso bamboo, were selected for cloning. Subcellular localization experiments showed that YK<sub>2</sub>S-type dehydrins (PeDHN2/5/6) localized to both the nucleus and the plasma membrane, while K<sub>2</sub>S-type dehydrins (<i>PeDHN4</i>/8) were exclusively localized to the plasma membrane, indicating functional differentiation. qRT-PCR analysis revealed that the expression of <i>PeDHN2/4/5/6/8</i> was significantly responsive to stress treatments with ABA, NaCl, and PEG. Additionally, overexpressing these genes in rice significantly enhanced seed germination rates and root development under salt and ABA stress, further confirming that PeDHN2/4/5/6/8 contribute to enhancing plant stress tolerance. Yeast one-hybrid assays demonstrated that two <i>PeABF1</i> proteins could bind to the promoter of <i>PeDHN4</i>, suggesting that <i>PeDHN4</i> may regulate stress responses through the ABA signaling pathway. Thus, these findings demonstrate that PeDHN2/4/5/6/8 are closely related to the response of moso bamboo to drought and saline-alkali environments. This research offers insights for moso bamboo cultivation and theoretical foundations for bamboo genetic improvement in stress environments.
ISSN:2223-7747

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