Transcription factor oshsfc1b regulates salt tolerance and development in oryza sativa ssp. japonica

AoB PLANTS

Volumn 12, Issue 1, 2012, Pages

  Schmidt, Romy ^a,b   Schippers, Jos H M ^a,b   Welker, Annelie ^a   Mieulet, Delphine ^c   Guiderdoni, Emmanuel ^c   Mueller Roeber, Bernd ^a,b  

^a UNIVERSITY OF POTSDAM   (Germany)

^b MAX PLANCK INSTITUTE OF MOLECULAR PLANT PHYSIOLOGY   (Germany)

^c UMR AGAP   (France)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 84872791026     PISSN: None     EISSN: 20412851     Source Type: Journal    
DOI: 10.1093/aobpla/pls011     Document Type: Article

References (69)

1. Arvidsson S, Kwasniewski M, Riano-Pachon DM, Mueller-Roeber B. 2008. QuantPrime-a flexible tool for reliable high-throughput primer design for quantitative PCR. BMC Bioinformatics 9: 465.
2. Banti V, Mafessoni F, Loreti E, Alpi A, Perata P. 2010. The heat-inducible transcription factor HsfA2 enhances anoxia tolerance in Arabidopsis. Plant Physiology 152: 1471-1483.
3. Barros MD, Czarnecka E, Gurley BW. 1992. Mutation analysis of a plant heat shock element. Plant Molecular Biology 19: 665-675.
4. Borsani O, Cuartero J, Fernández JA, Valpuesta V, Botella MA. 2001. Identification of two loci in tomato reveals distinct mechanisms for salt tolerance. Plant Cell 13: 873-887.
5. Caldana C, Scheible WR, Mueller-Roeber B, Ruzicic S. 2007. A quantitative RT-PCR platform for high-throughput expression profiling of 2500 rice transcription factors. Plant Methods 8: 3-7.
6. Chauhan H, Khurana N, Agarwal P, Khurana P. 2011. Heat shock factors in rice (Oryza sativa L.): genome-wide expression analysis during reproductive development and abiotic stress. Molecular Genetics and Genomics 286: 171-178.
7. Cotsaftis O, Plett D, Johnson AA, Walia H, Wilson C, Ismail AM, Close TJ, Tester M, Baumann U. 2011. Root-specific transcript profiling of contrasting rice genotypes in response to salinity stress. Molecular Plant 4: 25-41.
8. Degenkolbe T, Do PT, Zuther E, Repsilber D, Walther D, Hincha DK, Köhl KI. 2009. Expression profiling of rice cultivars differing in their tolerance to long-term drought stress. Plant Molecular Biology 69: 133-153.
9. Ferdose J, Kawasaki M, Taniguchi M, Miyake H. 2009. Differential sensitivity of rice cultivars to salinity and its relation to ion accumulation and root tip structure. Plant Production Science 12: 453-461.
10. Gallo GJ, Prentice H, Kingston RE. 1993. Heat shock factor is required for growth at normal temperatures in the fission yeast Schizosaccharomyces pombe. Molecular and Cellular Biology 13: 749-761.
11. Golldack D, Su H, Quigley F, Kamasani UR, Munõz-Garay C, Balderas E, Popova OV, Bennett J, Bohnert HJ, Pantoja O. 2002. Characterization of a HKT-type transporter in rice as a general alkali cation transporter. The Plant Journal 31: 529-542.
12. Guo L, Wang ZY, Lin H, Cui WE, Chen J, Liu M, Chen ZL, Qu LJ, Gu H. 2006. Expression and functional analysis of the rice plasma-membrane intrinsic protein gene family. Cell Research 16: 277-286.
13. Guo J, Wu J, Ji Q, Wang C, Luo L, Yuan Y, Wang Y, Wang J. 2008. Genome-wide analysis of heat shock transcription factor families in rice and Arabidopsis. Journal of Genetics and Genomics 35: 105-118.
14. Hadiarto T, Tran LSP. 2011. Progress studies of drought-responsive genes in rice. Plant Cell Reports 30: 297-310.
15. +-starved roots for growth. EMBO Journal 26: 3003-3014.
16. Hossain MA, Cho JI, Han M, Ahn CH, Jeon JS, An G, Park PB. 2010. The ABRE-binding bZIP transcription factor OsABF2 is a positive regulator of abiotic stress and ABA signalling in rice. Journal of Plant Physiology 167: 1512-1520.
17. Hu H, Dai M, Yao J, Xiao B, Li X, Zhang Q, Xiong L. 2006. Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice. Proceedings of the National Academy of Sciences of the USA 35: 12987-12992.
18. Hu H, You J, Fang Y, Zhu X, Qi Z, Xiong L. 2008. Characterization of transcription factor gene SNAC2 conferring cold and salt tolerance in rice. Plant Molecular Biology 67: 169-181.
19. Hu W, Hu G, Han B. 2009. Genome-wide survey and expression profiling of heat shock proteins and heat shock factors revealed overlapped and stress specific response under abiotic stresses in rice. Plant Science 176: 583-590.
20. Ikeda M, Mitsuda N, Ohme-Takagi M. 2011. Arabidopsis HsfB1 and HsfB2b act as repressors of the expression of heat-inducible Hsfs but positively regulate the acquired thermotolerance. Plant Physiology 157: 1243-1254.
21. Inouye S, Izu H, Takaki E, Suzuki H, Shirai M, Yokota Y, Ichikawa H, Fujimoto M, Nakai A. 2004. Impaired IgG production in mice deficient for heat shock transcription factor 1. Journal of Biological Chemistry 279: 38701-38709.
22. Jedlicka P, Mortin MA, Wu C. 1997. Multiple functions of Drosophila heat shock transcription factor in vivo. EMBO Journal 16: 2452-2462.
23. Jeon JS, Lee S, Jung KH, Jun SH, Jeong DH, Lee J, Kim C, Jang S, Yang K, Nam J, An K, Han MJ, Sung RJ, Choi HS, Yu JH, Choi JH, Cho SY, Cha SS, Kim SI, An G. 2000. T-DNA insertional mutagenesis for functional genomics in rice. The Plant Journal 22: 561-570.
24. Jung KH, Cao P, Seo YS, Dardick C, Ronald PC. 2010. The Rice Kinase Phylogenomics Database: a guide for systematic analysis of the rice kinase super-family. Trends in Plant Science 15: 595-599.
25. Kang JY, Choi HI, Im MY, Kim SY. 2002. Arabidopsis basic leucine zipper proteins that mediate stress-responsive abscisic acid signalling. Plant Cell 14: 343-357.
26. Karimi M, Meyer D, Hilson P. 2005. Modular cloning and expression of tagged fluorescent protein in plant cells. Trends in Plant Science 10: 103-105.
27. Kumar M, Busch W, Birke H, Kemmerling B, Nürnberger T, Schöffl F. 2009. Heat shock factors HsfB1 and HsfB2b are involved in the regulation of Pdf1.2 expression and pathogen resistance in Arabidopsis. Molecular Plant 2: 152-165.
28. Larkin MA, Blackshields G, Brown NP, Chenna R, McGettigan PA, McWilliam H, Valentin F, Wallace IM, Wilm A, Lopez R, Thompson JD, Gibson TJ, Higgins DG. 2007. Clustal W and Clustal X version 2.0. Bioinformatics 23: 2947-2948.
29. Lian HL, Yu X, Ye Q, Ding X, Kitagawa Y, Kwak SS, Su WA, Tang ZC. 2004. The role of aquaporin RWC3 in drought avoidance in rice. Plant and Cell Physiology 45: 481-489.
30. Liu JG, Qin QL, Zhang Z, Peng RH, Xiong AS, Chen JM, Yao QH. 2009. OsHSF7 gene in rice, Oryza sativa L., encodes a transcription factor that functions as a high temperature receptive and responsive factor. BMB Reports 42: 16-21.
31. Ma Q, Dai X, Xu Y, Guo J, Liu Y, Chen N, Xiao J, Zhang D, Xu Z, Zhang X, Chong K. 2009. Enhanced tolerance to chilling stress in OsMYB3R-2 transgenic rice is mediated by alteration in cell cycle and ectopic expression of stress genes. Plant Physiology 150: 244-256.
32. Mallikarjuna G, Mallikarjuna K, Reddy MK, Kaul T. 2011. Expression of OsDREB2A transcription factor confers enhanced dehydration and salt stress tolerance in rice (Oryza sativa L.). Biotechnology Letters 33: 1689-1697.
33. Matsumoto T, Lian HL, Su WA, Tanaka D, Liu C, Iwasaki I, Kitagawa Y. 2009. Role of the aquaporin PIP1 subfamily in the chilling tolerance of rice. Plant and Cell Physiology 50: 216-229.
34. Mishra SK, Tripp J, Winkelhaus S, Tschiersch B, Theres K, Nover L, Scharf KD. 2002. In the complex family of heat stress transcription factors, HsfA1 has a unique role as master regulator of thermotolerance in tomato. Genes and Development 16: 1555-1567.
35. Mittal D, Chakrabarti S, Sarkar A, Singh A, Grover A. 2009. Heat shock factor gene family in rice: genomic organization and transcript expression profiling in response to high temperature, low temperature and oxidative stresses. Plant Physiology and Biochemistry 47: 785-795.
36. Mittal D, Enoki Y, Lavania D, Singh A, Sakurai H, Grover A. 2011. Binding affinities and interactions among different heat shock element types and heat shock factors in rice (Oryza sativa L.). FEBS Journal 278: 3076-3085.
37. Munns R, Tester M. 2008. Mechanisms of salinity tolerance. Annual Review of Plant Biology 59: 651-681.
38. Nishizawa-Yokoi A, Nosaka R, Hayashi H, Tainaka H, Maruta T, Tamoi M, Ikeda M, Ohme-Takagi M, Yoshimura K, Yabuta Y, Shigeoka S. 2011. HsfA1d and HsfA1e involved in the transcriptional regulation of HsfA2 function as key regulators for the Hsf signalling network in response to environmental stress. Plant and Cell Physiology 52: 933-945.
39. Nover L, Bharti K, Döring P, Mishra SK, Ganguli A, Scharf KD. 2001. Arabidopsis and the heat stress transcription factor world: how many heat stress transcription factors do we need? Cell Stress and Chaperones 6: 177-189.
40. Obata T, Kitamoto HK, Nakamura A, Fukuda A, Tanaka Y. 2007. Rice Shaker potassium channel OsKAT1 confers tolerance to salinity stress on yeast and rice cells. Plant Physiology 144: 1978-1985.
41. Ogawa D, Yamaguchi K, Nishiuchi T. 2007. High level overexpression of the Arabidopsis HsfA2 gene confers not only increased thermotolerance but also salt/osmotic stress tolerance and enhanced callus growth. Journal of Experimental Botany 58: 1-11.
42. Oh MJ, Chun HS, Lee CB. 2003. Differences in photosynthetic characterization of salt tolerance for two rice (Oryza sativa) cultivars. Journal of Plant Biology 46: 17-22.
43. Ouwerkerk PBF, de Kam RJ, Hoge JHC, Meijer AH. 2001. Glucocorticoid-inducible gene expression in rice. Planta 213: 370-378.
44. Ouyang S, Zhu W, Hamilton J, Lin H, Campbell M, Childs K, Thibaud-Nissen F, Malek RL, Lee Y, Zheng L, Orvis J, Haas B, Wortman J, Buell CR. 2007. The TIGR Rice Genome Annotation Resource: improvements and new features. Nucleic Acids Research 35: D846-851.
45. Pandey GK, Grant JJ, Cheong YH, Kim BG, Li L, Luan S. 2005. ABR1, an APETALA2-domain transcription factor that functions as a repressor of ABA response in Arabidopsis. Plant Physiology 139: 1185-1193.
46. Park MR, Yun KY, Mohanty B, Herath V, Xu F, Wijaya E, Bajic VB, Yun SJ, De Los Reyes BG. 2010. Supra-optimal expression of the cold-regulated OsMyb4 transcription factor in transgenic rice changes the complexity of transcriptional network with major effects on stress tolerance and panicle development. Plant, Cell and Environment 33: 2209-2230.
47. Pirkkala L, Nykänen P, Sistonen L. 2001. Roles of the heat shock transcription factors in regulation of the heat shock response and beyond. FASEB Journal 15: 1118-1131.
48. Rodrigues A, Santiago J, Rubio S, Saez A, Osmont KS, Gadea J, Hardtke CS, Rodriguez PL. 2009. The short-rooted phenotype of the brevis radix mutant partly reflects root abscisic acid hypersensitivity. Plant Physiology 149: 1917-1928.
49. Sallaud C, Meynard D, van Boxtel J, Gay C, Bes M, Brizard JP, Larmande P, Ortega D, Raynal M, Portefaix M, Ouwerkerk PB, Rueb S, Delseny M, Guiderdoni E. 2003. Highly efficient production and characterization of T-DNA plants for rice (Oryza sativa L.) functional genomics. Theoretical and Applied Genetics 106: 1396-1408.
50. Sarkar NK, Kim YK, Grover A. 2009. Rice sHsp genes: genomic organization and expression profiling under stress and development. BMC Genomics 10: 393-411.
51. Scharf KD, Heider H, Höhfeld I, Lyck R, Schmidt E, Nover L. 1998. The tomato Hsf system: HsfA2 needs interaction with HsfA1 for efficient nuclear import and may be localized in cytoplasmic heat stress granules. Molecular and Cellular Biology 18: 2240-2251.
52. Scharf KD, Siddique M, Vierling E. 2001. The expanding family of Arabidopsis thaliana small heat stress proteins and a new family of proteins containing alpha-crystallin domains (Acd proteins). Cell Stress and Chaperones 6: 225-237.
53. Schramm F, Ganguli A, Kiehlmann E, Englich G, Walch D, von Koskull-Döring P. 2006. The heat stress transcription factor HsfA2 serves as a regulatory amplifier of a subset of genes in the heat stress response in Arabidopsis. Plant Molecular Biology 60: 759-772.
54. Schulz-Raffelt M, Lodha M, Schroda M. 2007. Heat shock factor 1 is a key regulator of the stress response in Chlamydomonas. The Plant Journal 52: 286-295.
55. Song SY, Chen Y, Chen J, Dai XY, Zhang WH. 2011. Physiological mechanisms underlying OsNAC5-dependent tolerance of rice plants to abiotic stress. Planta 234: 331-345.
56. Sun W, Van Montagu M, Verbruggen N. 2002. Small heat shock proteins and stress tolerance in plants. Biochimica et Biophysica Acta 1577: 1-9.
57. Takasaki H, Maruyama K, Kidokoro S, Ito Y, Fujita Y, Shinozaki K, Yamaguchi-Shinozaki K, Nakashima K. 2010. The abiotic stressresponsive NAC-type transcription factor OsNAC5 regulates stress-inducible genes and stress tolerance in rice. Molecular Genetics and Genomics 284: 173-183.
58. Walia H, Wilson C, Condamine P, Liu X, Ismail AM, Zeng L, Wanamaker SI, Mandal J, Xu J, Cui X, Close TJ. 2005. Environmental stress and adaptation to stress: comparative transcriptional profiling of two contrasting rice genotypes under salinity stress during the vegetative growth stage. American Society of Plant Biologists 139: 822-835.
59. Wang C, Zhang Q, Shou HX. 2009. Identification and expression analysis of OsHsfs in rice. Journal of Zhejiang University Science B 10: 291-300.
60. Warthmann N, Chen H, Ossowski S, Weigel D, Hervé P. 2008. Highly specific gene silencing by artificial miRNAs in rice. PLoS One 3: e1829.
61. Wu FH, Shen SC, Lee LY, Lee SH, Chan MT, Lin CS. 2009. Tape-Arabidopsis sandwich-a simpler Arabidopsis protoplast isolation method. Plant Methods 5: 16.
62. Xiao X, Zuo X, Davis AA, McMillan DR, Curry BB, Richardson JA, Benjamin IJ. 1999. HSF1 is required for extra-embryonic development, postnatal growth and protection during inflammatory responses in mice. EMBO Journal 18: 5943-5952.
63. Yan S, Tang Z, Su W, Sun W. 2005. Proteomic analysis of salt stressresponsive proteins in rice root. Proteomics 5: 235-244.
64. Yokotani N, Ichikawa T, Kondou Y, Matsui M, Hirochika H, Iwabuchi M, Oda K. 2008. Expression of rice heat stress transcription factor OsHsfA2e enhances tolerance to environmental stresses in transgenic Arabidopsis. Planta 227: 957-967.
65. Yoshida S, Forno DD, Cock JH. 1971. Routine procedure for growing rice plants in culture solution. In: Laboratory manual for physiological studies of rice. Philippines: The International Rice Research Institute, 53.
66. Yoshida T, Sakuma Y, Todaka D, Maruyama K, Qin F, Mizoi J, Kidokoro S, Fujita Y, Shinozaki K, Yamaguchi-Shinozaki K. 2008. Functional analysis of an Arabidopsis heat-shock transcription factor HsfA3 in the transcriptional cascade downstream of the DREB2A stress-regulatory system. Biochemical and Biophysical Research Communications 368: 515-521.
67. Zhu JK. 2002. Salt and drought stress signal transduction in plants. Annual Review of Plant Biology 53: 247-273.
68. Zhu Y, Wang Z, Jing Y, Wang L, Liu X, Liu Y, Deng X. 2009. Ectopic over-expression of BhHsf1, a heat shock factor from the resurrection plant Boea hygrometrica, leads to increased thermotolerance and retarded growth in transgenic Arabidopsis and tobacco. Plant Molecular Biology 71: 451-467.
69. Zhu Q, Zhang J, Gao X, Tong J, Xiao L, Li W, Zhang H. 2010. The Arabidopsis AP2/ERF transcription factor RAP2.6 participates in ABA, salt and osmotic stress responses. Gene 457: 1-12.