# Regulatory Mechanisms of Silver Nanoparticles on Seed Germination: A Multilevel Integrative Perspective

**Authors:** Yawen Zheng, Chongyuan Qin, Peilin Han, Yinuo Pan, Yingxin Han, Hengjin Chen, Xiumei Wang, Juanxia Li, Jixiang Lin, Jinghong Wang, Lirong Zhang

PMC · DOI: 10.3390/ijms27041692 · 2026-02-10

## TL;DR

This review explores how silver nanoparticles affect seed germination and plant growth, highlighting both benefits and potential environmental risks.

## Contribution

The paper provides a multilevel integrative perspective on the regulatory mechanisms of silver nanoparticles in seed germination.

## Key findings

- AgNPs enhance seed resistance to pathogens and regulate reactive oxygen species balance.
- They influence gene expression, proteomic networks, and the germination microenvironment.
- Potential risks include AgNP accumulation in the food chain and environmental transformation.

## Abstract

With the growing global population and the challenges posed by climate change on agriculture, improving seed germination quality has become an urgent task. Nanotechnology, particularly silver nanoparticles (AgNPs), offers a promising approach to this issue. However, their long-term environmental impact and health risks require further evaluation.This review first explores the physicochemical properties of AgNPs and their effects on plant growth and seed development. Next, the review discusses the mechanisms by which AgNPs enhance seed resistance to pathogens, regulate reactive oxygen species (ROS) balance, activate key metabolic enzymes, induce metabolite accumulation, and modulate plant hormone levels. Additionally, the review explores how AgNPs influence seed gene expression, proteomic networks, and the germination microenvironment. Given the lack of field data on long-term low-dose exposure and challenges in monitoring morphological transformation, the review also evaluates the potential risks of AgNPs in agriculture. These risks include their accumulation in the food chain, environmental transformation, and long-term effects.The review aims to summarize the mechanisms by which AgNPs impact seed germination and plant growth, providing a theoretical basis for their cautious use in agricultural and horticultural practices, while considering their environmental fate and health risks.

## Full-text entities

- **Genes:** FESOD (iron superoxide dismutase) [NCBI Gene 544259] {aka Fe-SODle, sodb}, APX [NCBI Gene 778224], urease [NCBI Gene 101209590], glutathione peroxidase [NCBI Gene 101267098]
- **Diseases:** Plant diseases (MESH:D010939), fungal diseases (MESH:D009181), necrosis (MESH:D009336), leaf chlorosis (MESH:D000747), infection (MESH:D007239), toxicity (MESH:D064420), metabolic disorders (MESH:D008659), injury to (MESH:D014947), stunting (MESH:D006130), neurotoxic (MESH:D020258)
- **Chemicals:** fructose (MESH:D005632), lipopeptides (MESH:D055666), cytokinin (MESH:D003583), glutathione (MESH:D005978), citrate (MESH:D019343), TiO2 (MESH:C009495), Cys (MESH:D003545), lipid (MESH:D008055), SUC (MESH:D013395), GA (MESH:D005708), flavonoids (MESH:D005419), glucose (MESH:D005947), JA (MESH:C011006), calcium (MESH:D002118), heavy metal (MESH:D019216), ROS (MESH:D017382), auxin (MESH:D007210), AgNPs-CH (-), sulfur (MESH:D013455), potassium (MESH:D011188), humic acid (MESH:D006812), AmB (MESH:D000666), thiol (MESH:D013438), Asp (MESH:D001224), AA (MESH:D000596), CTAB (MESH:D000077286), starch (MESH:D013213), phenols (MESH:D010636), amine (MESH:D000588), fatty acid (MESH:D005227), MDA (MESH:D008315), Carbohydrate (MESH:D002241), water (MESH:D014867), Ag2CO3 (MESH:C033260), carotenoid (MESH:D002338), Gibberellin (MESH:D005875), Ag (MESH:D012834), gamma-aminobutyric acid (MESH:D005680), PVP (MESH:D011205), Glu (MESH:D018698), AgCl (MESH:C037548), Cu (MESH:D003300), alkaloids (MESH:D000470), malate (MESH:C030298), galactose (MESH:D005690), HA (MESH:D006820), CHO (MESH:C034482), metal (MESH:D008670), Au (MESH:D006046), Pro (MESH:D011392), ABA (MESH:D000040), chitosan (MESH:D048271), phosphorus (MESH:D010758), phosphate (MESH:D010710), salt (MESH:D012492), sugar (MESH:D000073893), SA (MESH:D020156), zinc (MESH:D015032), oxygen (MESH:D010100), ethylene (MESH:C036216)
- **Species:** Solanum tuberosum (potatoes, species) [taxon 4113], Alternaria alternata (species) [taxon 5599], Brassica rapa subsp. pekinensis (bai cai, subspecies) [taxon 51351], Oryza sativa (Asian cultivated rice, species) [taxon 4530], Cucumis sativus (cucumber, species) [taxon 3659], Ricinus communis (castor bean, species) [taxon 3988], Allium cepa (onion, species) [taxon 4679], Lepidium sativum (species) [taxon 33125], Lathyrus oleraceus (garden pea, species) [taxon 3888], Triticum aestivum (bread wheat, species) [taxon 4565], Powellomyces sp. EA (species) [taxon 252690], Solanum lycopersicum (tomato, species) [taxon 4081], Alternaria solani (species) [taxon 48100], Colletotrichum gloeosporioides (species) [taxon 474922], Homo sapiens (human, species) [taxon 9606], Didymella (genus) [taxon 55170], Nicotiana tabacum (American tobacco, species) [taxon 4097], Cenchrus americanus (bulrush millet, species) [taxon 4543], Helianthus annuus (common sunflower, species) [taxon 4232], Mus musculus (house mouse, species) [taxon 10090], Eruca vesicaria subsp. sativa (arugula, subspecies) [taxon 29727]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12940175/full.md

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Source: https://tomesphere.com/paper/PMC12940175