Zeng-Rong Huang

Overview

Explore the profile of Zeng-Rong Huang including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 27

Citations 231

Followers 0

Related Specialties

Environmental Health

Biology

Toxicology

Top 10 Co-Authors

Li-Song Chen

Lin-Tong Yang

Xin Ye

Wei-Lin Huang

Ning-Wei Lai

Yi-Ping Qi

Xu-Feng Chen

Jiang Zhang

Huan-Huan Chen

Dan Hua

Published In

Plants (Basel)

Ecotoxicol Environ Saf

BMC Plant Biol

Int J Mol Sci

Environ Pollut

Affiliations

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Recent Articles

The protective roles of boron against copper excess in citrus roots: Insights from physiology, transcriptome, and metabolome

Chen X, Huang W, Shen Q, Huang W, Lu F, Yang L, et al.

Plant Physiol Biochem . 2025 Feb; 221:109588. PMID: 39938160

Boron (B) deficiency and copper (Cu) excess are common problems in citrus orchard soils. Citrus sinensis seedlings were exposed to 25 (B25) or 2.5 (B2.5) μM HBO and 0.5 (Cu0.5)...

Excessive copper induces lignin biosynthesis in the leaves and roots of two citrus species: Physiological, metabolomic and anatomical aspects

Zhou X, Xiong X, Lu F, Shi W, Zhou Y, Lai N, et al.

Ecotoxicol Environ Saf . 2025 Jan; 289():117692. PMID: 39778317

Excessive copper (Cu) of rhizosphere inhibited the growth and development of citrus seedlings. Lignin deposition on the cell wall promotes plant Cu tolerance. However, the lignin biosynthesis in citrus leaves...

The Ameliorative Effect of Coumarin on Copper Toxicity in : Insights from Growth, Nutrient Uptake, Oxidative Damage, and Photosynthetic Performance

Huang W, Yang H, Chen X, Lu F, Xie R, Yang L, et al.

Plants (Basel) . 2025 Jan; 13(24. PMID: 39771282

Excessive copper (Cu) has become a common physiological disorder restricting the sustainable production of citrus. Coumarin (COU) is a hydroxycinnamic acid that can protect plants from heavy metal toxicity. No...

Mechanisms by Which Increased pH Ameliorates Copper Excess in Roots: Insight from a Combined Analysis of Physiology, Transcriptome, and Metabolome

Zhang J, Huang W, Chen W, Rao R, Lai N, Huang Z, et al.

Plants (Basel) . 2024 Nov; 13(21). PMID: 39519972

Limited data are available on copper (Cu)-pH interaction-responsive genes and/or metabolites in plant roots. seedlings were treated with 300 μM (Cu toxicity) or 0.5 μM (control) CuCl at pH 3.0...

Both hormones and energy-rich compounds play a role in the mitigation of elevated pH on aluminum toxicity in Citrus sinensis leaves

Wu B, Chen X, Rao R, Hua D, Huang W, Chen W, et al.

Ecotoxicol Environ Saf . 2024 Aug; 283:116975. PMID: 39216222

The contribution of plant hormones and energy-rich compounds and their metabolites (ECMs) in alleviating aluminum (Al) toxicity by elevated pH remains to be clarified. For the first time, a targeted...

Adaptive Responses of Hormones to Nitrogen Deficiency in Leaves and Roots

Hua D, Rao R, Chen W, Yang H, Shen Q, Lai N, et al.

Plants (Basel) . 2024 Jul; 13(14). PMID: 39065452

Some citrus orchards in China often experience nitrogen (N) deficiency. For the first time, targeted metabolomics was used to examine N-deficient effects on hormones in sweet orange ( (L.) Osbeck...

Boron Reduced Copper Excess-Induced Oxidative Damage in by Modulating Reactive Oxygen Species and Methylglyoxal Formation and Their Detoxification Systems

Chen X, Chen H, Huang W, Huang W, Huang Z, Yang L, et al.

Antioxidants (Basel) . 2024 Mar; 13(3). PMID: 38539803

Citrus is mainly cultivated in acid soil with low boron (B) and high copper (Cu). In this study, seedlings were submitted to 0.5 (control) or 350 μM Cu (Cu excess...

Boron-mediated amelioration of copper toxicity in Citrus sinensis seedlings involved reduced concentrations of copper in leaves and roots and their cell walls rather than increased copper fractions in their cell walls

Chen H, Zheng Z, Hua D, Chen X, Huang Z, Guo J, et al.

J Hazard Mater . 2024 Feb; 467:133738. PMID: 38350317

Little information is available on how boron (B) supplementation affects plant cell wall (CW) remodeling under copper (Cu) excess. 'Xuegan' (Citrus sinensis) seedlings were submitted to 0.5 or 350 µM...

Physiological and Ultrastructural Responses to Excessive-Copper-Induced Toxicity in Two Differentially Copper Tolerant Citrus Species

Li X, Lin M, Lu F, Zhou X, Xiong X, Chen L, et al.

Plants (Basel) . 2023 Jan; 12(2). PMID: 36679064

Over-applied copper (Cu)-based agrochemicals are toxic to citrus trees. However, less information is available discussing the ultrastructural alterations in Cu-stressed citrus species. In the present study, seedlings of and that...

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High pH Alleviated Sweet Orange () Copper Toxicity by Enhancing the Capacity to Maintain a Balance between Formation and Removal of Reactive Oxygen Species and Methylglyoxal in Leaves and Roots

Zhang J, Chen X, Huang W, Chen H, Huang Z, Ye X, et al.

Int J Mol Sci . 2022 Nov; 23(22). PMID: 36430374

The contribution of reactive oxygen species (ROS) and methylglyoxal (MG) formation and removal in high-pH-mediated alleviation of plant copper (Cu)-toxicity remains to be elucidated. Seedlings of sweet orange () were...