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1. Melatonin alleviates aluminium toxicity through modulating antioxi.. [443]
2. Zinc improves salt tolerance by increasing reactive oxygen species.. [382]
3. cGMP is involved in Zn tolerance through the modulation of auxin r.. [369]
4. Identification of cadmium-responsive microRNAs in Solanum torvum b.. [365]
5. iTRAQ-based analysis of developmental dynamics in the soybean leaf.. [359]
6. The Nitrification Inhibitor Methyl 3-(4-Hydroxyphenyl)Propionate M.. [337]
7. Nitrate reductase-mediated NO production enhances Cd accumulation .. [333]
8. Hydrogen sulfide toxicity inhibits primary root growth through the.. [331]
9. UV-B Radiation Induces Root Bending Through the Flavonoid-Mediated.. [325]
10. Manganese Toxicity Inhibited Root Growth by Disrupting Auxin Biosy.. [315]
11. Involvement of reactive oxygen species and auxin in serotonin-indu.. [314]
12. Involvement of reactive oxygen species in lanthanum-induced inhibi.. [313]
13. Identification of microRNAs from Zn-treated Solanum nigrum roots b.. [309]
14. Lanthanum Inhibits Primary Root Growth by Repressing Auxin Carrier.. [309]
15. EFFECTS OF SALT STRESS ON TILLERING NODES TO THE GROWTH OF WINTER .. [290]
16. Involvement of reactive oxygen species and auxin in serotonin-indu.. [265]
17. ABCF3 regulates the expression of aquaporin genes and endoplasmic .. [265]
18. The R2R3-MYB Transcription Factor MYB49 Regulates Cadmium Accumula.. [206]
19. Auxin enhances aluminium-induced citrate exudation through upregul.. [198]
20. MYB70 modulates seed germination and root system development in Ar.. [196]
21. TheR2R3-MYBtranscription factorAtMYB49modulates salt tolerance inA.. [165]
22. Comparative physiological responses and transcriptome analysis rev.. [145]
23. Comparative physiological and metabolomics analysis reveals that s.. [138]
24. Comparative physiological and metabolomic analyses reveal that Fe3.. [125]
25. Physiological, transcriptomic, and metabolomic analyses reveal zin.. [122]
26. Physiological and metabolomic analyses reveal that Fe3O4 nanoparti.. [105]

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1. Melatonin alleviates aluminium toxicity through modulating antioxi.. [211]
2. iTRAQ-based analysis of developmental dynamics in the soybean leaf.. [181]
3. Identification of cadmium-responsive microRNAs in Solanum torvum b.. [164]
4. Nitrate reductase-mediated NO production enhances Cd accumulation .. [156]
5. The Nitrification Inhibitor Methyl 3-(4-Hydroxyphenyl)Propionate M.. [150]
6. Involvement of reactive oxygen species in lanthanum-induced inhibi.. [138]
7. MYB70 modulates seed germination and root system development in Ar.. [131]
8. cGMP is involved in Zn tolerance through the modulation of auxin r.. [127]
9. Manganese Toxicity Inhibited Root Growth by Disrupting Auxin Biosy.. [122]
10. UV-B Radiation Induces Root Bending Through the Flavonoid-Mediated.. [121]
11. Involvement of reactive oxygen species and auxin in serotonin-indu.. [121]
12. Lanthanum Inhibits Primary Root Growth by Repressing Auxin Carrier.. [118]
13. Identification of microRNAs from Zn-treated Solanum nigrum roots b.. [110]
14. ABCF3 regulates the expression of aquaporin genes and endoplasmic .. [106]
15. Hydrogen sulfide toxicity inhibits primary root growth through the.. [103]
16. EFFECTS OF SALT STRESS ON TILLERING NODES TO THE GROWTH OF WINTER .. [85]
17. Comparative physiological and metabolomic analyses reveal that Fe3.. [78]
18. Comparative physiological and metabolomics analysis reveals that s.. [77]
19. Zinc improves salt tolerance by increasing reactive oxygen species.. [72]
20. Involvement of reactive oxygen species and auxin in serotonin-indu.. [68]
21. Physiological and metabolomic analyses reveal that Fe3O4 nanoparti.. [53]
22. Auxin enhances aluminium-induced citrate exudation through upregul.. [44]
23. Comparative physiological responses and transcriptome analysis rev.. [40]
24. The R2R3-MYB Transcription Factor MYB49 Regulates Cadmium Accumula.. [33]
25. TheR2R3-MYBtranscription factorAtMYB49modulates salt tolerance inA.. [28]
26. Physiological, transcriptomic, and metabolomic analyses reveal zin.. [23]