Nax loci affect SOS1-like Na+/H+ exchanger expression and activity in wheat

Journal of Experimental Botany

Volumn 67, Issue 3, 2016, Pages 835-844

  Zhu, Min ^a   Shabala, Lana ^a   Cuin, Tracey A ^a,b   Huang, Xin ^a   Zhou, Meixue ^a   Munns, Rana ^c,d   Shabala, Sergey ^a  

^a UNIVERSITY OF TASMANIA   (Australia)

^b UNIVERSITY OF WÜRZBURG   (Germany)

^c UNIVERSITY OF WESTERN AUSTRALIA   (Australia)

^d CSIRO   (Australia)

Author keywords

HKT transporter; potassium; salinity stress; sequestration; sodium; xylem loading

Indexed keywords

ION; MESSENGER RNA; PLANT PROTEIN; POTASSIUM; SODIUM CHLORIDE; SODIUM PROTON EXCHANGE PROTEIN;

BIOLOGICAL MODEL; DRUG EFFECTS; GENE EXPRESSION REGULATION; GENE LOCUS; GENETICS; METABOLISM; PLANT LEAF; PLANT ROOT; WHEAT;

GENE EXPRESSION REGULATION, PLANT; GENETIC LOCI; IONS; MODELS, BIOLOGICAL; PLANT LEAVES; PLANT PROTEINS; PLANT ROOTS; POTASSIUM; RNA, MESSENGER; SODIUM CHLORIDE; SODIUM-HYDROGEN ANTIPORTER; TRITICUM;

EID: 84964334581     PISSN: 00220957     EISSN: 14602431     Source Type: Journal    
DOI: 10.1093/jxb/erv493     Document Type: Article

References (55)

1. Allakhverdiev SI, Nishiyama Y, Miyairi S, Yamamoto H, Inagaki N, Kanesaki Y, Murata N.2002.Salt stress inhibits the repair of photodamaged photosystem II by suppressing the transcription and translation of psbA genes in Synechocystis.Plant Physiology 130, 1443-1453.
2. Anschutz U, Becker D, Shabala S.2014.Going beyond nutrition: regulation of potassium homoeostasis as a common denominator of plant adaptive responses to environment.Journal of Plant Physiology 171, 670-687.
3. Blumwald E, Aharon GS, Apse MP.2000.Sodium transport in plant cells.Biochimica et Biophysica Acta-Biomembranes 1465, 140-151.
4. Bose J, Rodrigo-Moreno A, Shabala S.2014.ROS homeostasis in halophytes in the context of salinity stress tolerance.Journal of Experimental Botany 65, 1241-1257.
5. Byrt CS, Platten JD, Spielmeyer W, James RA, Lagudah ES, Dennis ES, Tester M, Munns R.2007.HKT1;5-like cation transporters linked to Na+ exclusion loci in wheat, Nax2 and Kna1.Plant Physiology 143, 1918-1928.
6. Byrt CS, Xu B, Krishnan M, et al.2014.The Na+ transporter, TaHKT1;5-D, limits shoot Na+ accumulation in bread wheat.The Plant Journal 80, 516-526.
7. Chen Z, Newman I, Zhou M, Mendham N, Zhang G, Shabala S. 2005.Screening plants for salt tolerance by measuring K+ flux: a case study for barley.Plant, Cell and Environment 28, 1230-1246.
8. Colmenero-Flores JM, Moreno LP, Smith CE, Covarrubias AA.1999.Pvlea-18, a member of a new late-embryogenesis-abundant protein family that accumulates during water stress and in the growing regions of wellirrigated bean seedlings.Plant Physiology 120, 93-103.
9. Cuin TA, Bose J, Stefano G, Jha D, Tester M, Mancuso S, Shabala S.2011.Assessing the role of root plasma membrane and tonoplast Na+/H+ exchangers in salinity tolerance in wheat: in planta quantification methods.Plant, Cell and Environment 34, 947-961.
10. Cuin TA, Tian Y, Betts SA, Chalmandrier R, Shabala S.2009.Ionic relations and osmotic adjustment in durum and bread wheat under saline conditions.Functional Plant Biology 36, 1110-1119.
11. Davenport RJ, Munoz-Mayor A, Jha D, Essah PA, Rus A, Tester M. 2007.The Na+ transporter AtHKT1;1 controls retrieval of Na+ from the xylem in Arabidopsis.Plant, Cell and Environment 30, 497-507.
12. Demidchik V, Maathuis FJM.2007.Physiological roles of nonselective cation channels in plants: from salt stress to signalling and development. New Phytologist 175, 387-404.
13. Feki K, Quintero FJ, Khoudi H, Leidi EO, Masmoudi K, Pardo JM, Brini F.2014.A constitutively active form of a durum wheat Na+/H+ antiporter SOS1 confers high salt tolerance to transgenic Arabidopsis. Plant Cell Reports 33, 277-288.
14. Feki K, Quintero FJ, Pardo JM, Masmoudi K.2011.Regulation of durum wheat Na+/H+ exchanger TdSOS1 by phosphorylation.Plant Molecular Biology 76, 545-556.
15. Garciadeblas B, Senn ME, Banuelos MA, Rodriguez-Navarro A. 2003.Sodium transport and HKT transporters: the rice model.The Plant Journal 34, 788-801.
16. Gorham J, Wyn Jones RG, Bristol A.1990.Partial characterization of the trait for enhanced K+-Na+ discrimination in the D genome of wheat. Planta 180, 590-597.
17. Halfter U, Ishitani M, Zhu JK.2000.The Arabidopsis SOS2 protein kinase physically interacts with and is activated by the calcium-binding protein SOS3.Proceedings of the National Academy of Sciences, USA 97, 3735-3740.
18. Haro R, Banuelos MA, Senn MAE, Barrero-Gil J, Rodriguez-Navarro A.2005.HKT1 mediates sodium uniport in roots.Pitfalls in the expression of HKT1 in yeast.Plant Physiology 139, 1495-1506.
19. Hasegawa PM, Bressan RA, Zhu JK, Bohnert HJ.2000.Plant cellular and molecular responses to high salinity.Annual Review of Plant Physiology and Plant Molecular Biology 51, 463-499.
20. Horie T, Costa A, Kim TH, Han MJ, Horie R, Leung HY, Miyao A, Hirochika H, An G, Schroeder JI.2007.Rice OsHKT2;1 transporter mediates large Na+ influx component into K+-starved roots for growth. EMBO Journal 26, 3003-3014.
21. Horie T, Hauser F, Schroeder JI.2009.HKT transporter-mediated salinity resistance mechanisms in Arabidopsis and monocot crop plants. Trends in Plant Science 14, 660-668.
22. Horie T, Yoshida K, Nakayama H, Yamada K, Oiki S, Shinmyo A. 2001.Two types of HKT transporters with different properties of Na+ and K+ transport in Oryza sativa.The Plant Journal 27, 129-138.
23. Huang S, Spielmeyer W, Lagudah ES, James RA, Platten JD, Dennis ES, Munns R.2006.A sodium transporter (HKT7) is a candidate for Nax1, a gene for salt tolerance in durum wheat.Plant Physiology 142, 1718-1727.
24. Ishitani M, Liu JP, Halfter U, Kim CS, Shi WM, Zhu JK.2000.SOS3 function in plant salt tolerance requires N-myristoylation and calcium binding.The Plant Cell 12, 1667-1677.
25. James RA, Blake C, Byrt CS, Munns R.2011.Major genes for Na+ exclusion, Nax1 and Nax2 (wheat HKT1;4 and HKT1;5), decrease Na+ accumulation in bread wheat leaves under saline and waterlogged conditions.Journal of Experimental Botany 62, 2939-2947.
26. James RA, Davenport RJ, Munns R.2006.Physiological characterization of two genes for Na+ exclusion in durum wheat, Nax1 and Nax2.Plant Physiology 142, 1537-1547.
27. Knight H, Trewavas AJ, Knight MR.1997.Calcium signalling in Arabidopsis thaliana responding to drought and salinity.The Plant Journal 12, 1067-1078.
28. Laurie S, Feeney KA, Maathuis FJM, Heard PJ, Brown SJ, Leigh RA. 2002.A role for HKT1 in sodium uptake by wheat roots.The Plant Journal 32, 139-149.
29. Liu JP, Ishitani M, Halfter U, Kim CS, Zhu JK.2000.The Arabidopsis thaliana SOS2 gene encodes a protein kinase that is required for salt tolerance.Proceedings of the National Academy of Sciences, USA 97, 3730-3734.
30. Liu JP, Zhu JK.1998.A calcium sensor homolog required for plant salt tolerance.Science 280, 1943-1945.
31. Martinez-Atienza J, Jiang XY, Garciadeblas B, Mendoza I, Zhu JK, Pardo JM, Quintero FJ.2007.Conservation of the salt overly sensitive pathway in rice.Plant Physiology 143, 1001-1012.
32. Mullan DJ, Colmer TD, Francki MG.2007.Arabidopsis-rice-wheat gene orthologues for Na+ transport and transcript analysis in wheat-L.elongatum aneuploids under salt stress.Molecular Genetics and Genomics 277, 199-212.
33. Munns R, James RA.2003.Screening methods for salinity tolerance: a case study with tetraploid wheat.Plant and Soil 253, 201-218.
34. Munns R, James RA, Xu B, et al.2012.Wheat grain yield on saline soils is improved by an ancestral Na+ transporter gene.Nature Biotechnology 30, 360-364.
35. Munns R, Tester M.2008.Mechanisms of salinity tolerance.Annual Review of Plant Biology 59, 651-681.
36. Pottosin I, Shabala S.2014.Polyamines control of cation transport across plant membranes: implications for ion homeostasis and abiotic stress signaling.Frontiers in Plant Science 5.
37. Qadir M, Quillerou E, Nangia V, Murtaza G, Singh M, Thomas RJ, Drechsel P, Noble AD.2014.Economics of salt-induced land degradation and restoration.Natural Resources Forum 38, 282-295.
38. Rahnama A, James RA, Poustini K, Munns R.2010.Stomatal conductance as a screen for osmotic stress tolerance in durum wheat growing in saline soil.Functional Plant Biology 37, 255-263.
39. Rengasamy P.2010.Soil progress affecting crop production in saltaffected soils.Functional Plant Biology 37, 613-620.
40. Sanders PM, Lee PY, Biesgen C, Boone JD, Beals TP, Weiler EW, Goldberg RB.2000.The Arabidopsis DELAYED DEHISCENCE1 gene encodes an enzyme in the jasmonic acid synthesis pathway.The Plant Cell 12, 1041-1061.
41. Shabala S.2013.Learning from halophytes: physiological basis and strategies to improve abiotic stress tolerance in crops.Annals of Botany 112, 1209-1221.
42. Shabala S, Bose J, Hedrich R.2014.Salt bladders: do they matter? Trends in Plant Science 19, 687-691.
43. Shabala S, Hariadi Y, Jacobsen S-E.2013.Genotypic difference in salinity tolerance in quinoa is determined by differential control of xylem Na+ loading and stomatal density.Journal of Plant Physiology 170, 906-914.
44. Shabala S, Shabala L.2002.Kinetics of net H+, Ca2+, K+, Na+, NH4+, and Cl-fluxes associated with post-chilling recovery of plasma membrane transporters in Zea mays leaf and root tissues.Physiologia Plantarum 114, 47-56.
45. Shabala S, Shabala L, Gradmann D, Chen ZH, Newman I, Mancuso S.2006.Oscillations in plant membrane transport: model predictions, experimental validation, and physiological implications.Journal of Experimental Botany 57, 171-184.
46. Shabala S, Shabala S, Cuin TA, Pang J, Percey W, Chen Z, Conn S, Eing C, Wegner LH.2010.Xylem ionic relations and salinity tolerance in barley.The Plant Journal 61, 839-853.
47. Shabala SN, Lew RR.2002.Turgor regulation in osmotically stressed Arabidopsis epidermal root cells.Direct support for the role of inorganic ion uptake as revealed by concurrent flux and cell turgor measurements.Plant Physiology 129, 290-299.
48. Shabala SN, Newman IA, Morris J.1997.Oscillations in H+ and Ca2+ ion fluxes around the elongation region of corn roots and effects of external pH.Plant Physiology 113, 111-118.
49. Shewry PR.2009.Wheat.Journal of Experimental Botany 60, 1537-1553.
50. Shi HZ, Lee BH, Wu SJ, Zhu JK.2003.Overexpression of a plasma membrane Na+/H+ antiporter gene improves salt tolerance in Arabidopsis thaliana.Nature Biotechnology 21, 81-85.
51. Shi HZ, Quintero FJ, Pardo JM, Zhu JK.2002.The putative plasma membrane Na+/H+ antiporter SOS1 controls long-distance Na+ transport in plants.The Plant Cell 14, 465-477.
52. Vass I, Styring S, Hundal T, Koivuniemi A, Aro EM, Andersson B. 1992.Reversible and irreversible intermediates during photoinhibition of photosystem .2.Stable reduced QA species promote chlorophyll triplet formation.Proceedings of the National Academy of Sciences, USA 89, 1408-1412.
53. Wu HH, Shabala L, Liu XH, Azzarello E, Zhou M, Pandolfi C, Chen ZH, Bose J, Mancuso S, Shabala S.2015.Linking salinity stress tolerance tissue-specific Na+ sequestration in wheat roots.Frontiers in Plant Science 6.
54. Zhu JK.2001.Plant salt tolerance.Trends in Plant Science 6, 66-71.
55. Zhu JK, Liu JP, Xiong LM.1998.Genetic analysis of salt tolerance in Arabidopsis: evidence for a critical role of potassium nutrition.The Plant Cell 10, 1181-1191.