Hormone Fluctuation and Gene Expression During Early Stages of the Hickory Grafting Process

Hormone Fluctuation and Gene Expression During Early Stages of the Hickory Grafting Process

Grafting involves complex hormonal interactions at graft interfaces that are not yet fully understood. In this study, we analyzed hormone fluctuations and gene expression during callus proliferation and vascular tissue differentiation in hickory (<i>Carya cathayensis</i> Sarg.) grafts. C...

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Main Authors: Qiaoyu Huang, Haixia Liu, Qinyuan Shen, Huwei Yuan, Fuqiang Cui, Daoliang Yan, Wona Ding, Xiaofei Wang, Bingsong Zheng
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Plants
Subjects:
hormonal crosstalk
callus proliferation
vascular differentiation
graft union formation
Online Access:https://www.mdpi.com/2223-7747/14/14/2229
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Summary:Grafting involves complex hormonal interactions at graft interfaces that are not yet fully understood. In this study, we analyzed hormone fluctuations and gene expression during callus proliferation and vascular tissue differentiation in hickory (<i>Carya cathayensis</i> Sarg.) grafts. Cytokinin and ethylene precursor ACC levels steadily increased after grafting. The biosynthetic genes for these hormones (<i>IPT3</i>, <i>ACS1</i>, <i>ACO1</i>, and <i>ACO5</i>) exhibited heightened expression. Genes related to cytokinin signaling (<i>RR3</i>, <i>ARR4</i>, and <i>ZFP5</i>) and ethylene signaling (<i>MKK9</i>, <i>ESE1</i>, and <i>ESE3</i>) were similarly upregulated. Conversely, genes associated with jasmonic acid, abscisic acid, and strigolactone pathways were downregulated, including synthesis genes (<i>AOC4</i> and <i>AOS</i>) and those involved in signal transduction (<i>NAC3</i>, <i>WRKY51</i>, and <i>SMAX1</i>). Correspondingly, JA-Ile and 5-deoxystrigol levels significantly decreased. Indole-3-acetic acid (IAA) levels also dropped during the early stages of graft union formation. These results suggest that low auxin concentrations may be essential in the initial stages after grafting to encourage callus proliferation, followed by an increase at later stages to facilitate vascular bundle differentiation. These findings imply that maintaining a balance between low auxin levels and elevated cytokinin and ethylene levels may be critical to support cell division and callus formation during the initial proliferation phase. Later, during the vascular differentiation phase, a gradual rise in auxin levels, accompanied by elevated ethylene, may facilitate the differentiation of vascular bundles in hickory grafts.
ISSN:2223-7747

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