BLH3 Regulates the ABA Pathway and Lignin Synthesis Under Salt Stress in <i>Lilium pumilum</i>

BLH3 Regulates the ABA Pathway and Lignin Synthesis Under Salt Stress in <i>Lilium pumilum</i>

BEL1-like homeodomain protein 3 (BLH3) plays a crucial role in plant development. However, its involvement in the salt stress response has not been studied. In this study, we investigated the molecular mechanism underlying the response of <i>LpBLH3</i> to salt stress in <i>Lilium p...

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Main Authors: Wenhao Wan, Lingshu Zhang, Xingyu Liu, Huitao Cui, Miaoxin Shi, Hao Sun, Wei Yang, Xinran Wang, Fengshan Yang, Shumei Jin
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Plants
Subjects:
ABA pathway
<i>BLH3</i>
<i>Lilium pumilum</i>
lignin content
salt stress
Online Access:https://www.mdpi.com/2223-7747/14/12/1860
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Summary:BEL1-like homeodomain protein 3 (BLH3) plays a crucial role in plant development. However, its involvement in the salt stress response has not been studied. In this study, we investigated the molecular mechanism underlying the response of <i>LpBLH3</i> to salt stress in <i>Lilium pumilum</i> (<i>L. pumilum</i>) using various techniques, including quantitative PCR (RT-qPCR), determination of physiological indices of plant after Saline-Alkali stress, yeast two-hybrid screening, luciferase complementation imaging (LCI), and chromosome walking to obtain the promoter sequence, analyzed by PlantCARE, electrophoretic mobility shift assay (EMSA), and then dual-luciferase reporter assay(LUC). RT-qPCR analysis revealed that <i>LpBLH3</i> is most highly expressed in the leaves of <i>L. pumilum</i>. The expression of <i>LpBLH3</i> peaks at 24 or 36 h in the leaves under different saline stress. Under various treatments, compared to the wild type (WT), the <i>LpBLH3</i> overexpression lines exhibited less chlorosis and leaf curling and stronger photosynthesis. The overexpression of <i>LpBLH3</i> can enhance lignin accumulation in root and stem by positively modulating the expression of crucial genes within the lignin biosynthesis pathway. Y2H and LCI analyses demonstrated that LpBLH3 interacts with LpKNAT3. Additionally, EMSA and LUC analyses confirmed that LpBLH3 can bind to the promoter of <i>LpABI5</i> and upregulate the expression of <i>ABI5</i> downstream genes (<i>LpCAT1</i>/<i>LpATEM</i>/<i>LpRD29B</i>). In summary, LpBLH3 enhances the plant’s salt tolerance through the ABA pathway and lignin synthesis. This study can enrich the functional network of the BLH transcription factor family, obtain <i>Lilium pumilum</i> lines with good saline-alkali resistance, expand the planting area of <i>Lilium pumilum</i>, and improve its medicinal and ornamental values. Additionally, the functional analysis of the BLH transcription factor family provides new insights into how crops adapt to the extreme growth environment of saline-alkali soils.
ISSN:2223-7747

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