Insights into the Hormone-Regulating Mechanism of Adventitious Root Formation in Softwood Cuttings of Cyclocarya paliurus and Optimization of the Hormone-Based Formula for Promoting Rooting

Adventitious root (AR) formation is vital for successful cutting propagation in plants, while the dynamic regulation of phytohormones is viewed as one of the most important factors affecting AR formation. , a hard-to-root plant, is faced with the bottleneck of cloning its superior varieties in pract...

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Published in:International journal of molecular sciences 2024-01, Vol.25 (2), p.1343
Main Authors: Tian, Yuan, Yang, Wanxia, Wan, Shiying, Fang, Shengzuo
Format: Article
Language:English
Subjects:
Abscisic acid
Cell division
Gene Expression Profiling
hormone signaling pathway
Hormones
Juglandaceae - genetics
Leaves
Metabolites
Plant Growth Regulators - metabolism
Plant Roots - genetics
Plant Roots - metabolism
rooting parameters
structural gene expression
transcriptome
WGCNA
wheel wingnut
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Summary:Adventitious root (AR) formation is vital for successful cutting propagation in plants, while the dynamic regulation of phytohormones is viewed as one of the most important factors affecting AR formation. , a hard-to-root plant, is faced with the bottleneck of cloning its superior varieties in practice. In this study, ten treatments were designed to figure out the best hormone-based formula for promoting AR formation in softwood cuttings and explore their hormone-regulating mechanisms. Both the rooting process and the rooting parameters of the softwood cuttings were significantly affected by different hormone-based formulas ( < 0.05), while the greatest rooting rate (93%) and root quality index were achieved in the H3 formula (SR3:IR3 = 1:1). Significant differences in the measured phytohormone concentrations, as well as in their ratios, were detected among the cuttings sampled at various AR formation stages ( < 0.05), whereas the dynamics for each phytohormone varied greatly during AR formation. The transcriptome analysis showed 12,028 differentially expressed genes (DEGs) identified during the rooting process of cuttings, while the KEGG enrichment analysis indicated that a total of 20 KEGG terms were significantly enriched in all the comparison samples, with 253 DEGs detected in signal transduction. Furthermore, 19 genes with vital functions in regulating the hormone signaling pathway were identified by means of a WGCNA analysis. Our results not only optimize a hormone-based formula for improving the rooting of cuttings but also provide an insight into the hormonal regulatory network during AR formation in softwood cuttings.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms25021343