The role of the apoplast in aluminium toxicity and resistance of higher plants: A review

Zeitschrift für Pflanzenernährung und Bodenkunde

Volumn 158, Issue 5, 1995, Pages 419-428

  Horst, Walter J ^a  

^a LEIBNIZ UNIVERSITY HANNOVER   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 85025011347     PISSN: 00443263     EISSN: 15222624     Source Type: Journal    
DOI: 10.1002/jpln.19951580503     Document Type: Article

References (89)

1. Induction of aluminium tolerance in wheat seedlings by low doses of aluminium in the nutrient solution
2. Induction of microsomal membrane proteins in roots of an aluminium‐resistant cultivar of Triticum aestivum L. under conditions of aluminium stress
3. Aluminium resistance in Triticum aestivum associated with enhanced exudation of malate
4. The recovery of the roots of Zea mays L. from various aluminium treatments: towards elucidating the regulatory processes that underlie root growth control
5. The aluminium signal: New dimensions to mechanisms of aluminium tolerance
6. Role of root cation‐exchange capacity in differential aluminium tolerance of Lotus species
7. Empirical models to approximate calcium and magnesium ameliorative effects and genetic differences in aluminium tolerance in wheat
8. In vitro evidence of aluminium effects on solution movement through root cell walls
9. Cation exchange properties and adaptation to soil acidity in bryophytes
10. Effect of aluminium on net efflux of nitrate and potassium from root tips of soybean (Glycine max L.)
11. Effect of aluminium on lipid peroxidation, superoxide dismutase, catalase, and peroxidase activities in root tips of soybean (Glycine max)
12. Analysis of aluminium and divalent cation binding to wheat root plasma membrane proteins using terbium phophores‐cence
13. Structural models of primary cells walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth
14. Aluminium and temperature alteration of cell membrane permeability of Quercus rubra
15. A note on the evolutionary status of aluminium accumulation among dicotyledons
16. Aluminium tolerance in species within the genus Agrostis
17. The effect of aluminium on enzyme activities in wheat
18. Metal tolerance in plants: Signal transduction and acclimation mechanisms
19. Aluminium tolerance in wheat (Triticum aestivum L.) I. Uptake and distribution of aluminium in root apices
20. Aluminium tolerance in wheat (Triticum aestivum L.) II. Aluminium‐stimulated excretion of malic acid from root apices
21. Aluminium and hydrogen ions inhibit a mechanosensory calcium‐selective cation channel
22. The physiology of metal toxicity in plants
23. Aluminium and heavy metal stress: from the rhizosphere to the whole plant
24. Use of root elongation studies to determine aluminium and lead toxicity in Picea abies seedlings
25. Aluminium toxicity and forest decline
26. Modelling anion amelioration of aluminium phytotoxicity
27. Modelling cation amelioration of aluminium phytotoxicity
28. Phosphate nutrition effects on aluminium avoidance of Mucuna pruriens Var. Utilis
29. Aluminium interaction with phosphoinositide‐associated signal transduction
30. Mucilage protects root meristems from aluminium injury
31. Effect of aluminium on root growth, cell division rate and mineral element contents in roots of Vigna unguiculata genotypes
32. Aluminium‐Toleranz von Ackerbohne, Lupine, Gerste und Roggen. I. Sproß und Wurzelwachstum in Abhängigkeit vom Al‐Angebot
33. Screening soybean for aluminium tolerance and adaptation to acid soils
34. Short‐term responses of soybean roots to aluminium
35. Aluminium effects on the kinetics of calcium uptake into cells of the wheat root apex
36. Aluminium effects on calcium fluxes at the root apex of aluminium‐tolerant and aluminium‐sensitive wheat cultivars
37. Ultrastructural changes of the root tip cells in barley induced by a comparatively low concentration of aluminium
38. 2+ uptake and callose synthesis in suspension‐cultured cells of Catharanthus roseus are decreased by the protein phosphatase inhibitor okadaic acid
39. Proton extrusion by wheat roots exhibiting severe aluminium toxicity symptoms
40. Aluminium enhancement of plant growth in acid rooting media. A case of reciprocal alleviation of toxicity by two toxic cations
41. + and other cations on root elongation considered in terms of cell‐surface electrical potential
42. 2+‐displacement hypothesis
43. Influence of limestone, silicates and soil pH on vegetation
44. Rapid uptake of aluminium into cells of intact soybean root tips
45. The effect of aluminium on respiration of wheat roots
46. 2+ fluxes in three cultivars of sugar beet (Beta vulgaris)
47. Aluminium effects on transmembrane potential in cells of fibrous roots of sugar beet
48. Aluminium tolerance of maize cultivars as assessed by callose production and root elongation
49. X‐ray microanalysis in roots of Al‐treated Avena saliva plants
50. Repressed template activity of chromatin of pea roots treated by aluminium
51. The effects of aluminium on the influx of calcium, potassium, ammonium, nitrate, and phosphate in an aluminium‐sensitive cultivar of barley (Hordeum vulgare L.)
52. Citrate reverses the inhibition of wheat growth caused by aluminium
53. Quantitative changes in cytoplasmic and microsomal proteins associated with aluminium toxicity in two cultivars of winter wheat
54. 2+ channels in roots of higher plants and their role in aluminium toxicity
55. The control of cell expansion in roots
56. 2+ uptake by intact Lolium multiflorum roots. II. Plant age effects
57. 2+ uptake by Amaranthus protoplasts
58. 2+ homeostasis as a primary trigger of Al toxicity syndrome
59. Role of calcium in aluminium toxicity
60. 2+ uptake by Amaranthus protoplasts
61. Aluminium partitioning in intact roots of aluminium‐tolerant and aluminium‐sensitive wheat (Triticum aestivum L.) cultivars
62. Interaction between aluminium toxicity and calcium uptake at the root apex in near‐isogenic lines of wheat (Triticum aestivum L.) differing in aluminium tolerance
63. Aluminium toxicity in roots: An investigation of spatial sensitivity and the role of the root cap
64. 2+ interactions in aluminium rhizotoxicity. I. Inhibition of root growth is not caused by reduction of calcium uptake
65. Root elongation and ion flux of wheat varieties differing in aluminium tolerance
66. Influence of minerals on the cytoplasmic streaming in root hairs of intact wheat seedlings (Triticum aestivum L.)
67. Aluminium‐induced deposition of (1,3)‐β‐glucans (callose) in Triticum aestivum L
68. Effects of aluminium on the growth of tea (Camellia sinensis) and its uptake of potassium and phosphorus
69. Element content in tissues of spruce seedlings from hydroponic cultures simulating acidification and deacidification
70. The physiology of aluminium tolerance
71. Overcoming barriers to understanding the cellular basis of aluminium resistance
72. Operationally defined apoplastic and symplastic aluminium fractions in root tips of aluminium‐intoxicated wheat
73. The subcellular distribution of zinc and copper within the roots of metal‐tolerant clones of Agrostis tenuis Sibth
74. Mechanisms of metal tolerance in higher plants
75. 3+ on the physical properties of membrane lipids in Thermoplasma acidophilum
76. Low surface negativity of root protoplasts from aluminium‐tolerant plant species
77. Metal tolerance aspects of plant cell wall and vacuole
78. Aluminium induced callose synthesis in roots of soybean (Glycine max L.)
79. Effect of calcium supply on aluminium‐induced callose formation, its distribution and persistence in roots of soybean (Glycine max (L.) Merr.)
80. Kinetics of aluminium uptake by excised roots of aluminium‐tolerant and aluminium‐sensitive cultivars of Triticum aestivum L
81. Kinetics of aluminium uptake in Triticum aestivum L
82. Effects of biological inhibitors on kinetics of aluminium uptake by excised roots and purified cell wall material of aluminium‐tolerant and aluminium‐sensitive cultivars of Triticum aestivum L
83. Characterization of 1,3‐β‐glucan (callose) synthesis in roots of Triticum aestivum in response to aluminium toxicity