Nano-Manganese and H2S Signalling Improve Rapeseed Tolerance to Chromium Stress by Regulating Cellular Metabolism and Downstream Pathways
文献类型: 外文期刊
作者: Ayyaz, Ahsan 1 ; Batool, Iram 1 ; Qin, Tongjun 1 ; Bano, Hussan 3 ; Hannan, Fakhir 1 ; Chen, Weiqi 1 ; Zafar, Zafar Ullah 4 ; Farooq, Muhammad Ahsan 5 ; Zhou, Weijun 1 ; Ni, Xiyuan 6 ;
作者机构: 1.Zhejiang Univ, Inst Crop Sci, Minist Agr, Hangzhou, Peoples R China
2.Zhejiang Univ, Rural Affairs Key Lab Spect Sensing, Hangzhou, Peoples R China
3.Women Univ Multan, Dept Bot, Multan, Pakistan
4.Bahauddin Zakariya Univ Multan, Inst Bot, Multan, Pakistan
5.Wenzhou Univ, Coll Life & Environm Sci, Zhejiang Prov Key Lab Water Environm & Marine Biol, Wenzhou, Peoples R China
6.Zhejiang Acad Agr Sci, Inst Crop Sci & Nucl Technol Utilizat, Hangzhou, Peoples R China
关键词: H2S signalling; heavy metal; manganese nanoparticles; rapeseed; transcriptome
期刊名称:PHYSIOLOGIA PLANTARUM ( 影响因子:3.6; 五年影响因子:5.4 )
ISSN: 0031-9317
年卷期: 2025 年 177 卷 3 期
页码:
收录情况: SCI
摘要: A cutting-edge smart nano-hybrid technology, offering potential benefits for plants, has recently been developed to address the pervasive issue of heavy metal pollution. This study explored the potential of this technology in mitigating chromium (Cr) stress in rapeseed using a nano-based system that integrates 100 mu M hydrogen sulphide (H2S) and 50 mu M manganese nanoparticles (Mn-NPs). This strategy reveals Cr-stress tolerance mechanisms through physiological assessments and transcriptome data analysis. The results demonstrated that Cr stress substantially inhibited rapeseed growth while increasing oxidative damage markers (MDA and ROS levels). Conversely, Mn-NP and H2S co-treatment significantly mitigated these effects, as shown by: (1) restored growth metrics, (2) improved photosynthetic performance and membrane integrity, (3) optimized Mn/H2S homeostasis, and (4) reduced tissue Cr accumulation. The reduction in Cr content was attributed to enhanced Cr-detoxification mechanisms, driven by the upregulation of enzymatic antioxidant activities, like superoxide dismutase, peroxidase, catalase, and ascorbate peroxidase. Transcriptomic profiling revealed marked upregulation of genes involved in core metabolic processes, including photosynthetic pathways, carbon assimilation, secondary metabolite biosynthesis, inositol/phosphatidylinositol signalling systems, and stress-response networks. Under Cr stress, Mn-NP and H2S co-treated rapeseed plants displayed enhanced tolerance, highlighting the crucial role of these signalling agents in activating Cr-defence mechanisms. Our findings demonstrate that the integration of nanotechnology and gasotransmitter signalling molecule H2S presents a novel strategy for enhancing heavy metal tolerance and plant productivity in contaminated soils.
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