Evaluating the Accumulation of Grain Mercury in Engineered Rice Lines Containing <i>merA</i> and <i>merB</i> Genes Under an Organic Mercury-Enriched Condition

Evaluating the Accumulation of Grain Mercury in Engineered Rice Lines Containing <i>merA</i> and <i>merB</i> Genes Under an Organic Mercury-Enriched Condition

Rice is a critical crop for human sustenance worldwide. Food security has increasingly attracted public concerns, particularly due to heavy metal pollution, which adversely impacts crop yield and quality, with cadmium and mercury being the primary culprits. Excessive soil mercury not only hampers ri...

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Bibliographic Details
Main Authors: Deyao Meng, Zhaoze Song, Jinyuan Liu, Liyang Ji, Chen Chen, Changhu Wang
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Plants
Subjects:
low mercury accumulation
<i>merA</i>
<i>merB</i>
organic mercury
<i>Oryza sativa</i> L.
Online Access:https://www.mdpi.com/2223-7747/14/1/66
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Summary:Rice is a critical crop for human sustenance worldwide. Food security has increasingly attracted public concerns, particularly due to heavy metal pollution, which adversely impacts crop yield and quality, with cadmium and mercury being the primary culprits. Excessive soil mercury not only hampers rice’s growth and development but also leads to a substantial accumulation in grains, posing a significant threat to human health. To mitigate the issue, low-mercury germplasms in rice were developed by expressing bacterial <i>merA</i> and <i>merB</i> genes, which convert mercury to less toxic forms from its most hazardous organic form: methylmercury. While previous evaluations of transgenic lines were typically conducted in environments mimicking inorganic mercury enrichment, studies on their performance in organic mercury-rich conditions, such as year-round rice planting paddies, remain limited. In this study, <i>merA</i> and <i>merB</i> transgenic rice lines were cultivated in organic mercury-contaminated soil to evaluate their grain mercury accumulation. Results showed a reduction in total grain mercury contents across three transgenic lines. Notably, one combined <i>merA</i> and <i>merB</i> line exhibited decreased organic mercury accumulation, and a reduction in total mercury levels in its grains, highlighting its breeding potential as a low-mercury rice germplasm for breeding programs.
ISSN:2223-7747

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