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1. Excessive boron fertilization-induced toxicity is related to boron transport in field-grown pomelo trees

2. Both hormones and energy-rich compounds play a role in the mitigation of elevated pH on aluminum toxicity in Citrus sinensis leaves

3. Effects of aluminum (Al) stress on the isoprenoid metabolism of two Citrus species differing in Al-tolerance

4. Mechanisms by Which Increased pH Ameliorates Copper Excess in Citrus sinensis Roots: Insight from a Combined Analysis of Physiology, Transcriptome, and Metabolome

5. Adaptive Responses of Hormones to Nitrogen Deficiency in Citrus sinensis Leaves and Roots

6. Fruit quality assessment based on mineral elements and juice properties in nine citrus cultivars

7. Boron Reduced Copper Excess-Induced Oxidative Damage in Citrus sinensis by Modulating Reactive Oxygen Species and Methylglyoxal Formation and Their Detoxification Systems

9. Adaptive responses of carbon and nitrogen metabolisms to nitrogen-deficiency in Citrus sinensis seedlings

10. The aluminum distribution and translocation in two citrus species differing in aluminum tolerance

11. An Integrated Analysis of Metabolome, Transcriptome, and Physiology Revealed the Molecular and Physiological Response of Citrus sinensis Roots to Prolonged Nitrogen Deficiency

12. Differences in morphological and physiological features of citrus seedlings are related to Mg transport from the parent to branch organs

13. Roles of Hormones in Elevated pH-Mediated Mitigation of Copper Toxicity in Citrus sinensis Revealed by Targeted Metabolome

14. Boron-mediated amelioration of copper-toxicity in sweet orange [Citrus sinensis (L.) Osbeck cv. Xuegan] seedlings involved reduced damage to roots and improved nutrition and water status

15. Physiological and Ultrastructural Responses to Excessive-Copper-Induced Toxicity in Two Differentially Copper Tolerant Citrus Species

16. Metabolomics combined with physiology and transcriptomics reveals how Citrus grandis leaves cope with copper-toxicity

17. High pH Alleviated Sweet Orange (Citrus sinensis) Copper Toxicity by Enhancing the Capacity to Maintain a Balance between Formation and Removal of Reactive Oxygen Species and Methylglyoxal in Leaves and Roots

18. Low pH effects on reactive oxygen species and methylglyoxal metabolisms in Citrus roots and leaves

19. Responses of reactive oxygen species and methylglyoxal metabolisms to magnesium-deficiency differ greatly among the roots, upper and lower leaves of Citrus sinensis

20. Effects of phosphorus deficiency on the absorption of mineral nutrients, photosynthetic system performance and antioxidant metabolism in Citrus grandis.

21. Molecular and Physiological Responses of Citrus sinensis Leaves to Long-Term Low pH Revealed by RNA-Seq Integrated with Targeted Metabolomics

22. Comparative transcriptome analysis reveals candidate genes related to cadmium accumulation and tolerance in two almond mushroom (Agaricus brasiliensis) strains with contrasting cadmium tolerance.

23. Low pH-responsive proteins revealed by a 2-DE based MS approach and related physiological responses in Citrus leaves

24. Citrus Physiological and Molecular Response to Boron Stresses

25. Growth, Mineral Nutrients, Photosynthesis and Related Physiological Parameters of Citrus in Response to Nitrogen Deficiency

26. MicroRNA-mediated responses to long-term magnesium-deficiency in Citrus sinensis roots revealed by Illumina sequencing

27. Phosphorus-mediated alleviation of aluminum toxicity revealed by the iTRAQ technique in Citrus grandis roots.

28. Leaf Photosynthesis and Carbon Metabolism Adapt to Crop Load in ‘Gala’ Apple Trees

29. The adaptation of root cell wall pectin to copper toxicity in two citrus species differing in copper tolerance: remodeling and responding.

30. Citrus Physiological and Molecular Response to Boron Stresses

31. Excess Copper-Induced Alterations of Protein Profiles and Related Physiological Parameters in Citrus Leaves

32. Soil chemical quality assessment and spatial distribution of pomelo orchards in acidic red soil hilly regions of <scp>C</scp> hina

33. Copper Toxicity Differentially Regulates the Seedling Growth, Copper Distribution, and Photosynthetic Performance of Citrus sinensis and Citrus grandis

35. Magnesium-Deficiency Effects on Pigments, Photosynthesis and Photosynthetic Electron Transport of Leaves, and Nutrients of Leaf Blades and Veins in Citrus sinensis Seedlings

36. Analysis of Interacting Proteins of Aluminum Toxicity Response Factor ALS3 and CAD in Citrus

37. Magnesium Deficiency Induced Global Transcriptome Change in Citrus sinensis Leaves Revealed by RNA-Seq

38. MicroRNA Sequencing Revealed Citrus Adaptation to Long-Term Boron Toxicity through Modulation of Root Development by miR319 and miR171

39. Two-dimensional gel electrophoresis data in support of leaf comparative proteomics of two citrus species differing in boron-tolerance

40. Elevated pH-mediated mitigation of aluminum-toxicity in sweet orange (Citrus sinensis) roots involved the regulation of energy-rich compounds and phytohormones

41. Illumina sequencing revealed roles of microRNAs in different aluminum tolerance of two citrus species

42. Molecular mechanisms for magnesium-deficiency-induced leaf vein lignification, enlargement and cracking in Citrus sinensis revealed by RNA-Seq

43. Special issue in honour of Prof. Reto J. Strasser - The photosynthetic performance of two Citrus species under long-term aluminum treatment

44. Molecular and physiological mechanisms underlying magnesium-deficiency-induced enlargement, cracking and lignification of Citrus sinensis leaf veins

46. Characterization of copper-induced-release of exudates by Citrus sinensis roots and their possible roles in copper-tolerance

47. Sulfur-Mediated-Alleviation of Aluminum-Toxicity in Citrus grandis Seedlings

48. Adaptive Responses of Citrus grandis Leaves to Copper Toxicity Revealed by RNA-Seq and Physiology

49. Growth, Mineral Nutrients, Photosynthesis and Related Physiological Parameters of Citrus in Response to Nitrogen Deficiency

50. Mechanisms on boron-induced alleviation of aluminum-toxicity in Citrus grandis seedlings at a transcriptional level revealed by cDNA-AFLP analysis.

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