Gibberellin Treatment Accelerates Starch Decomposition and Seed Germination in Sticky Nightshade (<i>Solanum sisymbriifolium</i> Lam.)

Gibberellin Treatment Accelerates Starch Decomposition and Seed Germination in Sticky Nightshade (<i>Solanum sisymbriifolium</i> Lam.)

Sticky nightshade (<i>Solanum sisymbriifolium</i> Lam.) is a spiny species with a variety of disease resistance characteristics found worldwide within the <i>Solanum</i> genus. However, its low germination rate and long germination period pose obstacles to the effective use o...

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Bibliographic Details
Main Authors: Haobo Xu, Danni Mo, Xingyu Zhang, Fangman Li, Jinbao Tao, Pingfei Ge, Yang Yang, Ziyuan Wang, Yuyang Zhang
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Horticulturae
Subjects:
sticky nightshade
germination
gibberellin
starch granules
Online Access:https://www.mdpi.com/2311-7524/10/12/1342
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Summary:Sticky nightshade (<i>Solanum sisymbriifolium</i> Lam.) is a spiny species with a variety of disease resistance characteristics found worldwide within the <i>Solanum</i> genus. However, its low germination rate and long germination period pose obstacles to the effective use of this species. Here, we treated Sticky nightshade with different concentrations of gibberellin (GA<sub>3</sub>) and observed paraffin sections of Sticky nightshade seeds treated with different GA<sub>3</sub> concentrations over different time ranges. The results showed that a 400 mg/L exogenous GA<sub>3</sub> concentration at room temperature could improve the germination rate of Sticky nightshade the most effectively. Exogenous GA<sub>3</sub> treatment can significantly accelerate the hydrolysis of starch granules and increase the germination rate of seeds. Subsequently, we also measured the MDA content of Sticky nightshade seeds treated with different GA<sub>3</sub> concentrations over different time ranges. The result reveals that GA<sub>3</sub> treatment can steadily decrease Sticky nightshade seeds’ MDA content during germination, indicating that exogenous GA<sub>3</sub> treatment also reduces membrane peroxidation and maintains the stability of the plasma membrane. In this paper, we identified an optimal GA<sub>3</sub>-treated concentration of Sticky nightshade to improve seed germination at room temperature and explored the reason why the exogenous GA<sub>3</sub> treatment of Sticky nightshade seed increased the germination rate.
ISSN:2311-7524

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