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This Special Issue provides 15 research articles and 4 comprehensive review articles on various aspects of plant–metal/metalloid interactions. - Up-to-date information on plant responses to metals/metalloids are published. - Various mechanisms of plant tolerance to metals’/metalloids’ toxicity are presented. - Exogenous applications of mitigating metals’/metalloids’ toxicity are discussed. - Sustainable technologies in growing plants in metal/metalloid-contaminated environments are discussed. - Phytoremediation techniques for the remediation of metals/metalloids are discussed.

Research & information: general --- Biology, life sciences --- Botany & plant sciences --- metal stress --- toxicity --- silicon --- Si-fertilization --- genomics --- transporter genes --- cadmium toxicity --- oxidative stress --- antioxidative defense system --- photosynthetic pigments --- environmental pollution --- phytoextraction --- cadmium --- biostimulation --- oxidative damage --- metal toxicity --- sulphur nutrition --- stress mitigation --- cation exchange capacity --- glutathione --- agriculture --- Cd stress --- environmental --- gene expression --- PGPB --- switchgrass --- P. fasciculatum --- heavy metals --- tolerant plant --- protein carbonylation --- photosynthesis proteins --- mining soils --- thiols --- phenolic metabolites --- organic acids --- lead --- castor beans --- citric acid --- antioxidant enzyme --- antioxidant system --- ethylene --- glyoxalase system --- photosynthesis --- proline metabolism --- zinc --- jute varieties --- copper stress --- phytoremediation --- bioaccumulation factor --- translocation factor --- growth --- copper toxicity --- micronutrient deficiency --- iron --- nicotianamine --- histidine --- Cu-chelation --- lead pollution --- antioxidants --- bentonite --- grain biochemistry --- biochar --- maize hybrids --- nickel --- nutrients --- translocation --- heavy metal --- reactive oxygen species --- oxidative burst --- Rhododendron arboreum --- Vigna radiata --- enzymes activity --- chromium (Cr) --- polyphenols --- abiotic stress --- antioxidant defense --- methylglyoxal --- organic acid --- ripening physiology --- silver --- chemical elicitors --- chili --- fibrous crop --- environmental pollutants --- morphological traits --- soil remediation --- chelating agents --- chromium --- wastewater --- sunflower --- biomass --- chlorophyll contents

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This Special Issue provides 15 research articles and 4 comprehensive review articles on various aspects of plant–metal/metalloid interactions. - Up-to-date information on plant responses to metals/metalloids are published. - Various mechanisms of plant tolerance to metals’/metalloids’ toxicity are presented. - Exogenous applications of mitigating metals’/metalloids’ toxicity are discussed. - Sustainable technologies in growing plants in metal/metalloid-contaminated environments are discussed. - Phytoremediation techniques for the remediation of metals/metalloids are discussed.

Research & information: general --- Biology, life sciences --- Botany & plant sciences --- metal stress --- toxicity --- silicon --- Si-fertilization --- genomics --- transporter genes --- cadmium toxicity --- oxidative stress --- antioxidative defense system --- photosynthetic pigments --- environmental pollution --- phytoextraction --- cadmium --- biostimulation --- oxidative damage --- metal toxicity --- sulphur nutrition --- stress mitigation --- cation exchange capacity --- glutathione --- agriculture --- Cd stress --- environmental --- gene expression --- PGPB --- switchgrass --- P. fasciculatum --- heavy metals --- tolerant plant --- protein carbonylation --- photosynthesis proteins --- mining soils --- thiols --- phenolic metabolites --- organic acids --- lead --- castor beans --- citric acid --- antioxidant enzyme --- antioxidant system --- ethylene --- glyoxalase system --- photosynthesis --- proline metabolism --- zinc --- jute varieties --- copper stress --- phytoremediation --- bioaccumulation factor --- translocation factor --- growth --- copper toxicity --- micronutrient deficiency --- iron --- nicotianamine --- histidine --- Cu-chelation --- lead pollution --- antioxidants --- bentonite --- grain biochemistry --- biochar --- maize hybrids --- nickel --- nutrients --- translocation --- heavy metal --- reactive oxygen species --- oxidative burst --- Rhododendron arboreum --- Vigna radiata --- enzymes activity --- chromium (Cr) --- polyphenols --- abiotic stress --- antioxidant defense --- methylglyoxal --- organic acid --- ripening physiology --- silver --- chemical elicitors --- chili --- fibrous crop --- environmental pollutants --- morphological traits --- soil remediation --- chelating agents --- chromium --- wastewater --- sunflower --- biomass --- chlorophyll contents --- metal stress --- toxicity --- silicon --- Si-fertilization --- genomics --- transporter genes --- cadmium toxicity --- oxidative stress --- antioxidative defense system --- photosynthetic pigments --- environmental pollution --- phytoextraction --- cadmium --- biostimulation --- oxidative damage --- metal toxicity --- sulphur nutrition --- stress mitigation --- cation exchange capacity --- glutathione --- agriculture --- Cd stress --- environmental --- gene expression --- PGPB --- switchgrass --- P. fasciculatum --- heavy metals --- tolerant plant --- protein carbonylation --- photosynthesis proteins --- mining soils --- thiols --- phenolic metabolites --- organic acids --- lead --- castor beans --- citric acid --- antioxidant enzyme --- antioxidant system --- ethylene --- glyoxalase system --- photosynthesis --- proline metabolism --- zinc --- jute varieties --- copper stress --- phytoremediation --- bioaccumulation factor --- translocation factor --- growth --- copper toxicity --- micronutrient deficiency --- iron --- nicotianamine --- histidine --- Cu-chelation --- lead pollution --- antioxidants --- bentonite --- grain biochemistry --- biochar --- maize hybrids --- nickel --- nutrients --- translocation --- heavy metal --- reactive oxygen species --- oxidative burst --- Rhododendron arboreum --- Vigna radiata --- enzymes activity --- chromium (Cr) --- polyphenols --- abiotic stress --- antioxidant defense --- methylglyoxal --- organic acid --- ripening physiology --- silver --- chemical elicitors --- chili --- fibrous crop --- environmental pollutants --- morphological traits --- soil remediation --- chelating agents --- chromium --- wastewater --- sunflower --- biomass --- chlorophyll contents

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The trace mineral selenium is still regarded as one of the most interesting and health-beneficial elements. In addition to the Editorial containing a dedication to Dr. Leopold Flohé, this Special Issue contains 13 research articles and 8 reviews, with over 120 different contributors covering many of the most important subjects concerning the study of selenium. The articles address both selenium as well as selenoproteins and their molecular roles, providing important considerations regarding this trace element’s impact on human and animal health and disease.

selenoproteome --- selenoprotein hierarchy --- nonradioactive isotopes --- SEC-ICP MS --- glutathione peroxidase --- thioredoxin reductase --- SECIS --- translation regulation --- autoimmune thyroid disease --- diabetes mellitus --- Graves’ disease --- Hashimoto thyroiditis --- infection --- inflammation --- long-COVID --- rheumatoid arthritis --- selenoprotein P --- sepsis --- selenoprotein W --- thioredoxin --- 14-3-3 --- Akt --- cell death --- Selenof --- selenium --- selenoprotein --- colon cancer --- barrier integrity --- cardiovascular --- heart --- selenoproteins --- Keshan’s Disease --- bacteria --- selenite --- selenium delivery system --- Trsp --- hypothalamus --- Agrp neuron --- sex differences --- diet-induced obesity --- leptin resistance --- macrophage --- differentiation --- redox signaling --- NRF2 --- NF-κB --- lipid mediators --- seleocysteine --- autoimmunity --- lymphocyte --- cadmium cytotoxicity --- cancer therapy --- cisplatin --- ICP-MS --- nonsynonymous mutation --- selenium homeostasis --- ZIP8 --- Trit1 --- isopentenylation --- tRNA[Ser]Sec --- selenocysteine --- genetic variance --- human disease --- selenophosphate synthetase --- endothelial cell --- reactive oxygen species --- cell growth --- angiogenesis --- SEPHS1 --- early embryogenesis --- embryonic lethality --- prostate --- cancer --- tumor suppressor --- selenoprotein deficiency --- SECISBP2 --- Sec-tRNA[Ser]Sec --- SEPSECS --- antioxidative defense --- autoantibody --- Hashimoto’s thyroiditis --- trace element --- recoding --- SECIS-binding protein --- translation termination --- nonsense-mediated decay --- ribosome rescue --- health --- mouse models --- selenocysteine (Sec) --- virus --- viral --- antioxidant --- HIV --- HCV --- HBV --- coxsackie virus --- influenza --- n/a --- HIV-1 --- viral infection --- SELENOS --- SELENOO --- primary T cells --- Jurkat --- SupT1 --- translational control --- Graves' disease --- Keshan's Disease --- Hashimoto's thyroiditis