LEADER 10933nam 2200529 450 001 9910624382803321 005 20230316144546.0 010 $a981-19-6103-4 035 $a(MiAaPQ)EBC7127708 035 $a(Au-PeEL)EBL7127708 035 $a(CKB)25219365600041 035 $a(PPN)265863783 035 $a(EXLCZ)9925219365600041 100 $a20230316d2022 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aPlant metal and metalloid transporters /$fKundan Kumar and Sudhakar Srivastava, editors 210 1$aSingapore :$cSpringer,$d[2022] 210 4$dİ2022 215 $a1 online resource (455 pages) 311 08$aPrint version: Kumar, Kundan Plant Metal and Metalloid Transporters Singapore : Springer,c2022 9789811961021 320 $aIncludes bibliographical references. 327 $aIntro -- Preface -- Contents -- Editors and Contributors -- 1: Plant Metal and Metalloid Transporters -- 1.1 Introduction -- 1.2 Metals and Their Significance in Plants -- 1.3 Metalloids and Their Significance in Plants -- 1.4 Metal Transporters -- 1.4.1 NRAMP Transporters -- 1.4.2 CDF Transporters -- 1.4.3 ZIP Transporters -- 1.4.4 ABC Transporters -- 1.4.5 Heavy Metal ATPases (HMAs) -- 1.5 Metalloid Transporters -- 1.5.1 Diversity of Plant Metalloid Transporters -- 1.5.2 Metalloid Absorption Channels -- 1.5.3 Metalloid Channel Transporters and Their Specificity -- 1.6 Metalloid Transporter Types -- 1.6.1 Aquaporin Transporters -- 1.6.1.1 NIP Transporters -- 1.6.2 Metalloid Efflux Transporters in Plants -- 1.6.2.1 BOR Transporters -- 1.6.2.2 Lsi2 Transporters -- 1.7 Directional Transport Systems for Metalloid Uptake -- 1.7.1 Polar Localization of Metalloid Transporters in Plants -- 1.8 Distribution of Metalloids by Transporters -- 1.8.1 Transporters for B Distribution -- 1.8.2 Transporters for Si Distribution -- 1.8.3 Transporters for As Distribution -- 1.9 Conclusions and Future Perspectives -- References -- 2: Heavy Metals: Transport in Plants and Their Physiological and Toxicological Effects -- 2.1 Introduction -- 2.2 Different Sources of Heavy Metal Pollution -- 2.3 Properties of Heavy Metal -- 2.4 Effects and Transport of Metal Pollutants into the Ecosystem -- 2.4.1 Translocation of Metals in Soil -- 2.4.2 Translocation of Metals in Water -- 2.4.3 Translocation of Metals in Air -- 2.5 Heavy Metal Pollution in the Atmosphere: A Need for Great Attention -- 2.6 Heavy Metals and Their Translocation in Plants -- 2.6.1 Chromium -- 2.6.2 Toxicology Processes -- 2.6.3 Fluoride -- 2.6.4 Toxicological Processes -- 2.6.5 Manganese -- 2.6.6 Cobalt -- 2.6.7 Nickel -- 2.6.8 Copper -- 2.6.9 Zinc -- 2.6.10 Mercury -- 2.6.11 Lead -- 2.7 Conclusion. 327 $aReferences -- 3: The Role of ABC Transporters in Metal Transport in Plants -- 3.1 Introduction -- 3.2 ABC Transporter Family -- 3.3 Molecular Structure of ABC Transporters -- 3.4 Primary Superfamilies of Plant ABC Transporters -- 3.4.1 MDR Superfamily -- 3.4.2 MRP Superfamily -- 3.5 Classes of Plant ABC Transporters -- 3.6 Role of ABC Transporters -- 3.6.1 Role in Growth and Development: Transport of Hormones, Fatty Acids, and Phytate -- 3.6.2 Role in Pathogen Defense -- 3.7 ABC Transporters in Metal Transport and Sequestration -- 3.8 Future Prospects -- References -- 4: Cadmium, a Nonessential Heavy Metal: Uptake, Translocation, Signaling, Detoxification, and Impact on Amino Acid Metabolism -- 4.1 Introduction -- 4.2 Cadmium Transporters: Uptake and Translocation -- 4.3 NRAMP Transporters -- 4.4 ZIP Transporters -- 4.5 YSL Transporters -- 4.6 Transporters Involved in Shoot Uptake of Cadmium -- 4.7 Cadmium Stress Signaling -- 4.8 Phytochelatins and Metallothioneins: Role in Cd Detoxification -- 4.9 Cadmium Toxicity and Amino Acid Metabolism -- 4.10 Conclusion -- References -- 5: Natural Resistance-Associated Macrophage Proteins (NRAMPs): Functional Significance of Metal Transport in Plants -- 5.1 Introduction -- 5.2 Genomic Analysis -- 5.3 Structural Analysis -- 5.4 Functional Characterization -- 5.5 Expression Pattern and Regulation -- 5.6 Conclusion -- References -- 6: Role of Heavy Metal ATPases in Transport of Cadmium and Zinc in Plants -- 6.1 Introduction -- 6.2 Heavy Metal ATPases in Alleviating Heavy Metal Toxicity -- 6.3 Cadmium Toxicity in Plants -- 6.3.1 Transporters in Alleviating Cadmium Stress -- 6.3.2 Activities of HMA Within the Roots in Response to Cadmium Stress -- 6.3.3 Heavy Metal ATPase Associated with Cadmium Translocation -- 6.3.4 Heavy Metal ATPase Associated with Xylem Unloading and Cadmium Distribution. 327 $a6.4 Zinc Toxicity in Plants -- 6.4.1 Heavy Metal ATPases in Zinc Homeostasis -- 6.5 Expression of Heavy Metal ATPases -- 6.6 Prospects and Conclusion -- References -- 7: The Versatile Role of Plant Aquaglyceroporins in Metalloid Transport -- 7.1 Introduction -- 7.2 PIP Members as Metalloid Transporters -- 7.3 NIP Members as Metalloid Transporters -- 7.4 XIP Members as Metalloid Transporters -- 7.5 Role of TIPs in Metalloid Transport and Tolerance -- 7.6 Future Perspectives -- References -- 8: The Multidrug and Toxic Compound Extrusion (MATE) Family in Plants and Their Significance in Metal Transport -- 8.1 Introduction -- 8.2 Structure of MATEs -- 8.3 Function of MATE Transporters in Metal Toxicity Tolerance -- 8.3.1 Role of MATE Transporters in Xenobiotic Toxicity Tolerance -- 8.3.2 Effect of Aluminum on Plants -- 8.3.2.1 MATE Transporters Exude Citrate in Response to Aluminum Toxicity -- 8.3.3 Role of MATE Transporters in Iron Homeostasis -- 8.4 Other Functions of MATE Transporters in Plants -- 8.4.1 Secondary Metabolite Transport -- 8.4.2 Developmental Roles -- 8.4.3 Biotic Stress -- 8.5 Conclusion and Future Perspectives -- References -- 9: Molecular Mechanism of Aluminum Tolerance in Plants: An Overview -- 9.1 Aluminum Toxicity and Tolerance in Plants: An Introduction -- 9.2 Effect of Aluminum Stress in Plants -- 9.3 Aluminum Tolerance Mechanism -- 9.3.1 External Tolerance Mechanism -- 9.3.2 Internal Tolerance Mechanism -- 9.3.3 Transcription Factors Involved in Combatting Aluminum Stress -- 9.3.4 Plant Hormones Involved in Aluminum Stress Adaptation -- 9.4 Manipulation of Aluminum-Tolerant Genes Using Transgenic Approaches -- 9.5 Conclusion and Future Perspective -- References -- 10: Functional, Structural, and Transport Aspects of ZIP in Plants -- 10.1 Introduction -- 10.2 Role of Zn in Plants -- 10.3 Zn Transport Protein in Plants. 327 $a10.3.1 Zn Uptake and Transport in Plants -- 10.4 ZIP in Plants -- 10.4.1 Structural and Functional Aspect of ZIP in Plants -- 10.4.2 Regulation of ZIP in Plants -- 10.5 Conclusion and Future Prospectus -- References -- 11: The Function of HAK as K+ Transporter and AKT as Inward-Rectifying Agent in the K+ Channel -- 11.1 Introduction -- 11.2 HAK-AKT Transporters Present in Various Plants -- 11.3 K+ Channels and Transporters -- 11.4 Adaptive Responses of Plants to Salinity Stress -- 11.5 Mechanism of Action of HAK and AKT -- 11.6 Conclusion -- References -- 12: The Mechanism of Silicon Transport in Plants -- 12.1 Silicon -- 12.2 Silicon in Plants -- 12.3 Silicon in Soil -- 12.4 Silicon and Abiotic Stresses -- 12.4.1 Water-Deficit Stress -- 12.4.2 Temperature Stress -- 12.4.3 Ultraviolet Stress -- 12.4.4 Mechanical Injury -- 12.4.5 Heavy Metal Stress -- 12.4.6 Excessive Mineral Nutrient Stress -- 12.4.7 Saline Stress -- 12.5 Silicon and Biotic Stress Mitigation -- 12.6 Omics Studies on Silicon Application on Crops -- 12.7 Reactive Oxygen Species Regulation -- 12.8 Silicon and Phytohormone Cross Talk -- 12.9 Si Accumulation and Transporters in the Plant Kingdom -- 12.10 Silicon Accumulation and Uptake -- 12.11 Silicon Transport in Xylem -- 12.12 Elements Effecting Silicon Uptake and Distribution -- 12.13 Silicon Uptake Mechanism: Influx and Efflux Transporters (Table 12.2) -- 12.14 Silicon Transport -- 12.14.1 Channel-Type Transporters -- 12.15 Silicon Uptake in Major Crops -- 12.15.1 Silicon Uptake in Rice -- 12.15.2 Silicon Uptake in Sugarcane -- 12.15.3 Silicon Uptake in Pepper -- 12.15.4 Silicon Uptake in Tomato -- 12.15.5 Silicon Uptake in Wheat -- 12.15.6 Silicon Uptake in Maize -- 12.15.7 Silicon Uptake in Cucumber -- 12.15.8 Silicon Uptake in Barley -- 12.15.9 Silicon Uptake in Arabidopsis -- 12.15.10 Silicon Uptake in Cannabis. 327 $a12.16 Silicon Controversy -- 12.17 Conclusion -- 12.18 Future Recommendation -- References -- 13: The Copper Transport Mechanism in Plants -- 13.1 Introduction -- 13.2 Mechanism of Copper (Cu) Transport in Plants -- 13.3 P-Type ATPase Copper Transporters -- 13.4 COPT Copper Transporters -- 13.5 Copper Chaperones -- 13.6 Natural Resistance-Associated Macrophage Protein (NRAMP) -- 13.7 Relating the Biosynthetic and Homeostatic Roles of Cu Transport Systems -- 13.8 Conclusion -- References -- 14: Plant Metal Tolerance Proteins: Insight into Their Roles in Metal Transport and Homeostasis for Future Biotechnological Ap... -- 14.1 Introduction -- 14.2 Regulation of Cellular Metal Homeostasis -- 14.2.1 Role of MTPs in Vacuolar Compartmentalization for Metal Homeostasis -- 14.2.2 Plasma Membrane-Localized MTP Transporter Responsible for Distal Transport of Mn -- 14.2.3 MTP Transporter as Manganese Transport Proteins in Endomembranes -- 14.2.4 MTP Member Assures Mn Homeostasis During Seed Development and Germination -- 14.3 Potential of MTP in Biotechnological Application -- 14.4 Future Prospects -- References -- 15: Co-Transport Mechanism in Plants for Metals and Metalloids -- 15.1 Introduction -- 15.2 Cation Diffusion Facilitators (CDF) Transporter -- 15.3 Lsi Transporter -- 15.4 Yellow Stripe-Like Proteins (YSL) Transporter -- 15.5 Heavy Metal ATPases (HMAs) Transporters -- 15.6 ZIP Transporter -- 15.7 NRAMP (Natural Resistance-Associated Macrophage Protein) Transporters -- 15.8 ABC Transporter -- 15.9 Aquaglyceroporin Transporter -- 15.10 Conclusions -- References -- 16: Metal Nanoparticle Implication, Transport, and Detection in Plants -- 16.1 Introduction -- 16.2 Metal NPs Implications on Plants -- 16.2.1 Metal NPs Implications on Seed Germination -- 16.2.2 Metal NPs Implications on Plant Growth and Root Elongation. 327 $a16.2.3 Metal NP Implications on Photosynthetic Pigments. 606 $aPlants$xEffect of metals on 606 $aMetals$xTransport properties 606 $aPlants$xEffect of heavy metals on 615 0$aPlants$xEffect of metals on. 615 0$aMetals$xTransport properties. 615 0$aPlants$xEffect of heavy metals on. 676 $a582.019214 702 $aKundan Kumar 702 $aSrivastava$b Sudhakar 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910624382803321 996 $aPlant Metal and Metalloid Transporters$92963220 997 $aUNINA