☆ 4.8 Article

Selenium Increased Arsenic Accumulation by Upregulating the Expression of Genes Responsible for Arsenic Reduction, Translocation, and Sequestration in Arsenic Hyperaccumulator Pteris vittata

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2022)

相关参考文献

注意：仅列出部分参考文献，下载原文获取全部文献信息。

Article Plant Sciences

Revisiting the mechanisms of arsenic uptake, transport and detoxification in plants

Alok Kumar et al.

Summary: Arsenic contamination leading to toxicity in animals and humans has become a major concern in recent decades. Developing plants with reduced arsenic levels in their edible parts is a plausible strategy for decreasing human arsenic intake. This review summarizes recent progress in understanding arsenic uptake, translocation, and detoxification mechanisms in plants, and highlights biotechnological approaches for enhancing arsenic tolerance in different plant species.

ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2022)

添加到收藏夹

Article Engineering, Environmental

Selenate increased plant growth and arsenic uptake in As-hyperaccumulator Pteris vittata via glutathione-enhanced arsenic reduction and translocation

Zhi-Hua Dai et al.

Summary: The study found that selenate promotes plant growth and increases arsenic concentrations in both roots and fronds of Pteris vittata. Additionally, selenate enhances glutathione levels and the activity of GPX and GR in the plant, suggesting an effective mechanism for improving arsenic uptake.

JOURNAL OF HAZARDOUS MATERIALS (2022)

添加到收藏夹

Review Environmental Sciences

Stabilization and encapsulation of arsenic-/antimony-bearing mine waste: Overview and outlook of existing techniques

Esther Alvarez-Ayuso

Summary: Arsenic and antimony often co-occur in mine waste and have adverse effects on ecosystems and human health. Strategies to stabilize or encapsulate As or Sb-bearing waste include establishing surface covers, applying amendments, solidification using cementing or geopolymer, and applying protective coatings. Different methods show potential for treating As mine waste, while only cementation processes have shown some effectiveness for Sb waste.

CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY (2022)

添加到收藏夹

Article Environmental Sciences

Arsenic uptake by Pteris vittata in a subarctic arsenic-contaminated agricultural field in Japan: An 8-year study

Yi Huang-Takeshi Kohda et al.

Summary: This study investigated the phytoremediation potential of the tropical and subtropical arsenic hyperaccumulating fern Pteris vittata in an arsenic-contaminated farmland. The results showed that P. vittata could decrease the risk of arsenic in the soil and was applicable for arsenic phytoremediation in subarctic climate areas.

SCIENCE OF THE TOTAL ENVIRONMENT (2022)

添加到收藏夹

Review Environmental Sciences

Insights into the mechanisms of arsenic-selenium interactions and the associated toxicity in plants, animals, and humans: A critical review

Waqar Ali et al.

Summary: This review discusses the sources, uptake, and toxicity of arsenic and selenium in the environment, focusing on their interactions in plants, animals, and humans. The interaction between arsenic and selenium is crucial for understanding the transport and toxicological effects of these metals in biological systems.

CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY (2021)

添加到收藏夹

Review Environmental Sciences

Arsenic in Latin America: New findings on source, mobilization and mobility in human environments in 20 countries based on decadal research 2010-2020

Jochen Bundschuh et al.

Summary: The issue of arsenic contamination in Latin American countries is prevalent, with sources including volcanic rocks, metallic mineral deposits, and geothermal fluids. Challenges arise from mining activities that transport arsenic pollutants to rivers and coastal environments.

CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY (2021)

添加到收藏夹

Review Environmental Sciences

The roles of membrane transporters in arsenic uptake, translocation and detoxification in plants

Zhong Tang et al.

Summary: Arsenic is a highly toxic environmental contaminant that affects millions of people worldwide through exposure in drinking water and diet. It is crucial to reduce arsenic accumulation in food crops for food safety and public health. Understanding the uptake and transport of arsenic in plants is essential for limiting accumulation or phytoremediation.

CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY (2021)

添加到收藏夹

Article Plant Sciences

Expression of PvPht1;3, PvACR2 and PvACR3 during arsenic processing in root of Pteris vittata

Shujun Wei et al.

Summary: The study demonstrated the uptake and transport mechanisms of arsenic in P. vittata, highlighting the high affinity and sensitivity of the plant to arsenic. Three genes were found to play significant roles in arsenic processing, contributing to the hyper-accumulation of arsenic in P. vittata.

ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2021)

添加到收藏夹

Article Engineering, Environmental

Novel PvACR3;2 and PvACR3;3 genes from arsenic-hyperaccumulator Pteris vittata and their roles in manipulating plant arsenic accumulation

Jun-Xiu Chen et al.

Summary: The ACR3 genes in arsenic hyperaccumulator Pteris vittata were studied in yeast and tobacco, showing their roles in regulating arsenic translocation and sequestration. PvACR3;2 facilitated AsIII translocation to the shoots and efflux from the roots in tobacco, while PvACR3;3 sequestered AsIII in tobacco root vacuoles.

JOURNAL OF HAZARDOUS MATERIALS (2021)

添加到收藏夹

Review Plant Sciences

Roles of selenium in mineral plant nutrition: ROS scavenging responses against abiotic stresses

Maria Gabriela Dantas Bereta Lanza et al.

Summary: Selenium serves as a powerful antioxidant in plant metabolism, promoting growth and stress resistance. Agronomic biofortification with selenium can enhance crop yield and resilience through its beneficial effects on plant health.

PLANT PHYSIOLOGY AND BIOCHEMISTRY (2021)

添加到收藏夹

Article Biochemistry & Molecular Biology

Synchrotron micro-X-ray fluorescence imaging of arsenic in frozen-hydrated sections of a root of Pteris vittata

Teruhiko Kashiwabara et al.

Summary: Micro-X-ray fluorescence imaging was used for the first time to study the mechanism of arsenic uptake in frozen-hydrated sections of a Pteris vittata root. The distribution of arsenic was visualized, showing changes in uptake pathways and differing mobilities of arsenic and potassium in different parts of the root. These findings provide insights into the peculiar root-to-shoot transport of arsenic in P. vittata.

METALLOMICS (2021)

添加到收藏夹

Article Engineering, Environmental

Expression of New Pteris vittata Phosphate Transporter PvPht1;4 Reduces Arsenic Translocation from the Roots to Shoots in Tobacco Plants

Dan Sun et al.

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2020)

添加到收藏夹

Article Engineering, Environmental

Transcriptome and proteome analyses reveal selenium mediated amelioration of arsenic toxicity in rice (Oryza sativa L.)

Reshu Chauhan et al.

JOURNAL OF HAZARDOUS MATERIALS (2020)

添加到收藏夹

Article Engineering, Environmental

Efficient arsenate reduction in As-hyperaccumulator Pteris vittata are mediated by novel arsenate reductases PvHAC1 and PvHAC2

Xinyuan Li et al.

JOURNAL OF HAZARDOUS MATERIALS (2020)

添加到收藏夹

Article Biology

Difference between Selenite and Selenate in the Regulation of Growth and Physiological Parameters of Nickel-Exposed Lettuce

Barbara Hawrylak-Nowak et al.

BIOLOGY-BASEL (2020)

添加到收藏夹

Review Environmental Sciences

Pathways of arsenic uptake and efflux

Luis D. Garbinski et al.

ENVIRONMENT INTERNATIONAL (2019)

添加到收藏夹

Article Engineering, Environmental

Potential use of the Pteris vittata arsenic hyperaccumulation-regulation network for phytoremediation

Huili Yan et al.

JOURNAL OF HAZARDOUS MATERIALS (2019)

添加到收藏夹

Article Engineering, Environmental

Heterologous Expression of Pteris vittata Phosphate Transporter PvPht1;3 Enhances Arsenic Translocation to and Accumulation in Tobacco Shoots

Yue Cao et al.

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2019)

添加到收藏夹

Review Biochemistry & Molecular Biology

Regulation of Ascorbate-Glutathione Pathway in Mitigating Oxidative Damage in Plants under Abiotic Stress

Mirza Hasanuzzaman et al.

ANTIOXIDANTS (2019)

添加到收藏夹

Article Environmental Sciences

Selenium reduces cadmium uptake into rice suspension cells by regulating the expression of lignin synthesis and cadmium-related genes

Jianghu Cui et al.

SCIENCE OF THE TOTAL ENVIRONMENT (2018)

添加到收藏夹

Article Biochemistry & Molecular Biology

Can Selenium and Molybdenum Restrain Cadmium Toxicity to Pollen Grains in Brassica napus?

Marwa A. Ismael et al.

INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2018)

添加到收藏夹

Article Plant Sciences

Selenium amelioration of arsenic toxicity in rice shows genotypic variation: A transcriptomic and biochemical analysis

Chandana Pandey et al.

JOURNAL OF PLANT PHYSIOLOGY (2018)

添加到收藏夹

Article Engineering, Environmental

Heterologous Expression of Pteris vittata Arsenite Antiporter PvACR3;1 Reduces Arsenic Accumulation in Plant Shoots

Yanshan Chen et al.

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2017)

添加到收藏夹

Review Plant Sciences

New Molecular Mechanisms to Reduce Arsenic in Crops

Emma R. Lindsay et al.

TRENDS IN PLANT SCIENCE (2017)

添加到收藏夹

Article Plant Sciences

A member of the Phosphate transporter 1 (Pht1) family from the arsenic-hyperaccumulating fern Pteris vittata is a high-affinity arsenate transporter

Sandra Feuer DiTusa et al.

NEW PHYTOLOGIST (2016)

添加到收藏夹

Article Environmental Sciences

High As exposure induced substantial arsenite efflux in As-hyperaccumulator Pteris vittata

Yanshan Chen et al.

CHEMOSPHERE (2016)

添加到收藏夹

Article Engineering, Environmental

Arsenic Induced Phytate Exudation, and Promoted FeAsO4 Dissolution and Plant Growth in As-Hyperaccumulator Pteris vittata

Xue Liu et al.

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2016)

添加到收藏夹

Article Environmental Sciences

Chromate and phosphate inhibited each other's uptake and translocation in arsenic hyperaccumulator Pteris vittata L.

Letuzia M. de Oliveira et al.

ENVIRONMENTAL POLLUTION (2015)

添加到收藏夹

Article Multidisciplinary Sciences

The arsenic hyperaccumulating Pteris vittata expresses two arsenate reductases

Patrizia Cesaro et al.

SCIENTIFIC REPORTS (2015)

添加到收藏夹

Article Environmental Sciences

A CRITICAL REVIEW OF THE ARSENIC UPTAKE MECHANISMS AND PHYTOREMEDIATION POTENTIAL OF PTERIS VITTATA

Luu Thai Danh et al.

INTERNATIONAL JOURNAL OF PHYTOREMEDIATION (2014)

添加到收藏夹

Article Engineering, Environmental

Pteris vittata continuously removed arsenic from non-labile fraction in three contaminated-soils during 3.5 years of phytoextraction

Jason T. Lessl et al.

JOURNAL OF HAZARDOUS MATERIALS (2014)

添加到收藏夹

Article Multidisciplinary Sciences

Natural variation in arsenate tolerance identifies an arsenate reductase in Arabidopsis thaliana

Eduardo Sanchez-Bermejo et al.

NATURE COMMUNICATIONS (2014)

添加到收藏夹

Article Plant Sciences

Effects of selenium hyperaccumulation on plant-plant interactions: evidence for elemental allelopathy?

Ali F. El Mehdawi et al.

NEW PHYTOLOGIST (2011)

添加到收藏夹

Article Toxicology

Arsenic Exposure and Toxicology: A Historical Perspective

Michael F. Hughes et al.

TOXICOLOGICAL SCIENCES (2011)

添加到收藏夹

Article Agricultural Engineering

Arsenic transformation in the growth media and biomass of hyperaccumulator Pteris vittata L.

Shiny Mathews et al.

BIORESOURCE TECHNOLOGY (2010)

添加到收藏夹

Article Engineering, Environmental

Arsenic Influence on Genetic Variation in Grain Trace-Element Nutrient Content in Bengal Delta Grown Rice

Gareth J. Norton et al.

ENVIRONMENTAL SCIENCE & TECHNOLOGY (2010)

添加到收藏夹

Article Plant Sciences

Arsenate reductase activity in roots from the arsenic hyperaccumulator Pteris vittata utilizes both glutathione and dithiothreitol as reductants

V. K. Nagarajan et al.

PLANT BIOSYSTEMS (2010)

添加到收藏夹

Article Biochemistry & Molecular Biology

A Vacuolar Arsenite Transporter Necessary for Arsenic Tolerance in the Arsenic Hyperaccumulating Fern Pteris vittata Is Missing in Flowering Plants

Emily Indriolo et al.

PLANT CELL (2010)

添加到收藏夹

Article Agricultural Engineering

Effects of selenium on arsenic uptake in arsenic hyperaccumulator Pteris vittata L.

Mrittunjai Srivastava et al.

BIORESOURCE TECHNOLOGY (2009)

添加到收藏夹

Article Plant Sciences

Interactive effects of selenium and arsenic on their uptake by Pteris vittata L. under hydroponic conditions

Renwei Feng et al.

ENVIRONMENTAL AND EXPERIMENTAL BOTANY (2009)

添加到收藏夹

Article Plant Sciences

A novel arsenate reductase from the arsenic hyperaccumulating fern Pteris vittata

Danielle R. Ellis et al.

PLANT PHYSIOLOGY (2006)

添加到收藏夹

Article Plant Sciences

Comparison of root absorption, translocation and tolerance of arsenic in the hyperaccumulator Pteris vittata and the nonhyperaccumulator Pteris tremula

N Caille et al.

NEW PHYTOLOGIST (2005)

添加到收藏夹

Article Plant Sciences

Mechanisms of arsenic hyperaccumulation in Pteris species:: root As influx and translocation

CY Poynton et al.

PLANTA (2004)

添加到收藏夹

Article Multidisciplinary Sciences

A fern that hyperaccumulates arsenic - A hardy, versatile, fast-growing plant helps to remove arsenic from contaminated soils.

LQ Ma et al.

NATURE (2001)

添加到收藏夹

© Peeref 2019-2024. All rights reserved.