Aluminum regulates oxalate secretion and plasma membrane H+-ATPase activity independently in tomato roots

Planta

Volumn 234, Issue 2, 2011, Pages 281-291

  Yang, Jian Li ^a   Zhu, Xiao Fang ^a   Peng, You Xiang ^a   Zheng, Cheng ^a   Ming, Feng ^b   Zheng, Shao Jian ^a  

^a ZHEJIANG UNIVERSITY   (China)

^b FUDAN UNIVERSITY   (China)

Author keywords

Acid soil; Aluminum toxicity; Detoxification; H+ ATPase; Organic acid anions; Resistance mechanisms

Indexed keywords

ALUMINUM; LANTHANUM; LANTHANUM CHLORIDE; OXALIC ACID DERIVATIVE; PHENYLGLYOXAL; PROTON TRANSPORTING ADENOSINE TRIPHOSPHATASE; VANADIC ACID;

ARTICLE; CELL MEMBRANE; DOSE RESPONSE; DRUG ANTAGONISM; DRUG EFFECT; ENZYMOLOGY; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; PHYSIOLOGICAL STRESS; PLANT EXUDATE; PLANT ROOT; SECRETION (PROCESS); SEEDLING; TOMATO;

ALUMINUM; CELL MEMBRANE; DOSE-RESPONSE RELATIONSHIP, DRUG; GENE EXPRESSION REGULATION, ENZYMOLOGIC; GENE EXPRESSION REGULATION, PLANT; LANTHANUM; LYCOPERSICON ESCULENTUM; OXALATES; PHENYLGLYOXAL; PLANT EXUDATES; PLANT ROOTS; PROTON-TRANSLOCATING ATPASES; SEEDLING; STRESS, PHYSIOLOGICAL; VANADATES;

LYCOPERSICON ESCULENTUM;

EID: 79960724322     PISSN: 00320935     EISSN: 14322048     Source Type: Journal    
DOI: 10.1007/s00425-011-1402-3     Document Type: Article

References (41)

1. +-ATPase activity by permanently altering the PM surface potentials in squash roots. Plant Physiol 126: 1381-1390.
2. +-ATPase activity in near-isogenic wheat lines differing in tolerance to aluminum. New Phytol 162: 71-79.
3. +-ATPase genes in tomato. Plant Physiol 106: 547-557.
4. Furukawa J, Yamaji N, Wang H, Mitani N, Murata Y, Sato K, Katsuhara M, Takeda K, Ma JF (2007) An aluminum-activated citrate transporter in barley. Plant Cell Physiol 48: 1081-1091.
5. Hoekenga OA, Vision TJ, Shaff JE, Monforte AJ, Lee GP, Howell SH, Kochian LV (2003) Identification and characterization of aluminum tolerance loci in Arabidopsis (Landsberg erecta × Columbia) by quantitative trait locus mapping. A physiologically simple but genetically complex trait. Plant Physiol 132: 936-948.
6. Hoekenga OA, Maron LG, Piñeros MA, Cançado GMA, Shaff J, Kobayashi Y, Ryan PR, Dong B, Delhaize E, Sasaki T, Matsumoto H (2006) AtALMT1, which encodes a malate transporter, is identified as one of several genes critical for aluminum tolerance in Arabidopsis. Proc Natl Acad Sci USA 103: 9738-9743.
7. +-ATPase in the root apex of soybean. Soil Sci Plant Nutr 56: 140-149.
8. 2+ upon root elongation. Eur J Soil Sci 54: 323-333.
9. Kochian LV, Hoekenga AO, Piñeros MA (2004) How do crop plants tolerate acid soils? Mechanisms of aluminum tolerance and phosphorous efficiency. Annu Rev Plant Biol 55: 459-493.
10. 4. Nature 227: 680-685.
11. +-ATPase activity and citrate exudation in greater purple lupin (Lupinus pilosus). Funct Plant Biol 31: 1075-1083.
12. Ma JF (2000) Role of organic acids in detoxification of Al in higher plants. Plant Cell Physiol 44: 383-390.
13. Ma JF, Zheng SJ, Matsumoto H, Hiradate S (1997) Detoxifying aluminum with buckwheat. Nature 390: 569-570.
14. Ma JF, Ryan PR, Delhaize E (2001) Aluminum tolerance in plants and the complexing role of organic acids. Trends Plant Sci 6: 273-278.
15. Magalhaes JV, Liu J, Guimaraes CT, Lana UGP, Alves VM, Wang YH, Schaffert RE, Hoekenga OA, Pineros MA, Shaff JE, Klein PE, Carneiro NP, Coelho CM, Trick HN, Kochian LV (2007) A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminum tolerance in Sorghum. Nature Genet 39: 1156-1161.
16. +-ATPase gene expression in a glycophyte and a halophyte. Plant Physiol 103: 713-718.
17. +-ATPase gene expression. Plant Physiol 111: 679-686.
18. Ohno T, Koyama H, Hara T (2003) Characterization of citrate transport through the plasma membrane in a carrot mutant cell line with enhanced citrate excretion. Plant Cell Physiol 44: 156-162.
19. Osawa H, Matsumoto H (2001) Possible involvement of protein phosphorylation in aluminum-responsive malate efflux in wheat root apex. Plant Physiol 126: 411-420.
20. +-ATPases: powerhouses for nutrient uptake. Annu Rev Plant Physiol Plant Mol Biol 52: 817-845.
21. Pellet DM, Grunes DL, Kochian LV (1995) Organic acid exudation as an Al-tolerance mechanism in maize (Zea mays L.). Planta 196: 788-795.
22. Ryan PR, Delhaize E, Randall PJ (1995) Characterisation of Al-stimulated efflux of malate from the apices of Al-tolerant wheat roots. Planta 196: 103-110.
23. Ryan PR, Delhaize E, Jones DL (2001) Function and mechanism of organic anion exudation from plant roots. Annu Plant Physiol Plant Mol Biol 52: 527-560.
24. Sasaki T, Yamamoto Y, Ezaki B, Katsuhara M, Ahn SJ, Ryan PR, Delhaize E, Matsumoto H (2004) A wheat gene encoding an aluminum-activated malate transporter. Plant J 37: 645-653.
25. Shaff JE, Schultz BA, Craft EJ, Clark RT, Kochian LV (2010) GEOCHEM-EZ: a chemical speciation program with greater power and flexibility. Plant Soil 330: 207-214.
26. Shen H, Ligaba A, Yamaguchi M, Osawa H, Shibata K, Yan XL, Matsumoto H (2004) Effect of K-252a and abscisic acid on the efflux of citrate from soybean roots. J Exp Bot 55: 663-671.
27. +-ATPase. Plant Physiol 138: 287-296.
28. +-ATPase. Plant Physiol 136: 2475-2482.
29. von Uexküll HR, Mutert E (1995) Global extent, development and economic impact of acid soils. In: Date RA, Grundon NJ, Rayment GE, Probert ME (eds) Plant-soil interactions at low pH: principles and management. Kluwer Academic Publishers, Dordrecht, pp 5-19.
30. Widell S, Lundborg T, Larsson C (1982) Plasma membrane from oats prepared by partition in an aqueous polymer two-phase system. On the use of light-induced cytochrome b reduction as a marker for the plasma membrane. Plant Physiol 70: 1429-1435.
31. +-ATPase activity of barley roots by ammonium treatment. Soil Sci Plant Nutr 41: 133-140.
32. +-ATPase activity in proteoid roots white lupin under phosphate deficiency. Plant Physiol 129: 50-63.
33. Yang ZM, Nian H, Sivaguru M, Tanakamaru S, Matsumoto H (2001) Characterization of aluminum-induced citrate secretion in aluminum-tolerant soybean (Glycine max) plants. Physiol Plant 113: 64-71.
34. Yang JL, Zheng SJ, He YF, Matsumoto H (2005) Aluminium resistance requires resistance to acid stress: a case study with spinach that exudes oxalate rapidly when exposed to Al stress. J Exp Bot 56: 1197-1203.
35. Yang JL, Zheng SJ, He YF, You JF, Zhang L, Yu XH (2006) Comparative studies on the effect of a protein-synthesis inhibitor on aluminium-induced secretion of organic acids from Fagopyrum esculentum Moench and Cassia tora L. roots. Plant Cell Environ 29: 240-246.
36. +-ATPase activity. Plant Cell Physiol 48: 66-73.
37. You JF, He YF, Yang JL, Zheng SJ (2005) A comparison of aluminum resistance among Polygonum species originating on strongly acidic and neutral soils. Plant Soil 276: 143-151.
38. 3+-activated anion channel in transformed tobacco (Nicotiana tabacum L.) cells. Plant Cell Physiol 49: 1316-1330.
39. Zheng SJ, Ma JF, Matsumoto H (1998) High aluminum resistance in buckwheat: I Al-induced special secretion of oxalic acid from root tips. Plant Physiol 117: 745-751.
40. Zhu Y, Yan F, Zörb C, Schubert S (2005) A link between citrate and proton release by proteoid roots of white lupin (Lupinus albus L.) grown under phosphorus-deficient conditions? Plant Cell Physiol 46: 892-901.
41. +-ATPase of rice to low pH as related to ammonium nutrition. Plant Cell Environ 32: 1428-1440.