A rice F-box gene, OsFbx352, is involved in glucose-delayed seed germination in rice

Journal of Experimental Botany

Volumn 63, Issue 15, 2012, Pages 5559-5568

  Song, Shiyong ^a,b   Dai, Xiaoyan ^a   Zhang, Wen Hao ^a  

^a INSTITUTE OF BOTANY   (China)

^b UNIVERSITY OF CHINESE ACADEMY OF SCIENCES   (China)

Author keywords

ABA; F box protein; glucose; OsFbx352; rice (Oryza sativa); seed germination

Indexed keywords

ABSCISIC ACID; F BOX PROTEIN; GLUCOSE; VEGETABLE PROTEIN;

AMINO ACID SEQUENCE; ARTICLE; DRUG EFFECT; GENE EXPRESSION; GENE EXPRESSION REGULATION; GENETICS; GERMINATION; GROWTH, DEVELOPMENT AND AGING; METABOLISM; MOLECULAR GENETICS; PHYLOGENY; PLANT SEED; PROTEIN TERTIARY STRUCTURE; RICE; RNA INTERFERENCE; SEEDLING; SEQUENCE ALIGNMENT; SIGNAL TRANSDUCTION; TIME; TRANSGENIC PLANT; UPREGULATION;

ABSCISIC ACID; AMINO ACID SEQUENCE; F-BOX PROTEINS; GENE EXPRESSION; GENE EXPRESSION REGULATION, PLANT; GERMINATION; GLUCOSE; MOLECULAR SEQUENCE DATA; ORYZA SATIVA; PHYLOGENY; PLANT PROTEINS; PLANTS, GENETICALLY MODIFIED; PROTEIN STRUCTURE, TERTIARY; RNA INTERFERENCE; SEEDLING; SEEDS; SEQUENCE ALIGNMENT; SIGNAL TRANSDUCTION; TIME FACTORS; UP-REGULATION;

ORYZA SATIVA;

EID: 84866645960     PISSN: 00220957     EISSN: 14602431     Source Type: Journal    
DOI: 10.1093/jxb/ers206     Document Type: Article

References (45)

1. Arenas-Huertero F, Arroyo A, Zhou L, Sheen J, Leon P. 2000. Analysis of Arabidopsis glucose insensitive mutants, gin5 and gin6, reveals a central role of the plant hormone ABA in the regulation of plant vegetative development by sugar. Genes and Development 14, 2085-2096.
2. Cao Y, Yang Y, Zhang H, Li D, Zheng Z, Song F. 2008. Overexpression of a rice defense-related F-box protein gene OsDRF1 in tobacco improves disease resistance through potentiation of defense gene expression. Physiological Plantarum 134, 440-452.
3. Carvalho RF, Carvalho SD, Duque P. 2010. The plant-specific SR45 protein negatively regulates glucose and ABA signaling during early seedling development in Arabidopsis. Plant Physiology 154, 772-783.
4. Chen Y, Ji FF, Xie H, Liang JS, Zhang JH. 2006. The regulator of G-protein signaling proteins involved in sugar and abscisic acid signaling in Arabidopsis seed germination. Plant Physiology 140, 302-310.
5. Cheng WH, Endo A, Zhou L, et al. 2002. A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functions. The Plant Cell 14, 2723-2743.
6. Dekkers B, Schuurmans J, Smeekens S. 2004. Glucose delays seed germination in Arabidopsis thaliana. Planta 218, 579-588.
7. Dekkers B, Schuurmans J, Smeekens S. 2008. Interaction between sugar and abscisic acid signaling during early seedling development in Arabidopsis. Plant Molecular Biology 67, 151-167.
8. Dharmasiri N, Dharmasiri S, Estelle M. 2005. The F-box protein TIR1 is an auxin receptor. Nature 435, 441-445.
9. Dreher K, Callis J. 2007. Ubiquitin, hormones and biotic stress in plants. Annals of Botany 99, 787-822.
10. Gibson S. 2004. Sugar and phytohormone response pathways: navigating a signaling network. Journal of Experimental Botany 55, 253-264.
11. Gibson S. 2005. Control of plant development and gene expression by sugar signaling. Current Opinion in Plant Biology 8, 93-102.
12. Ho MS, Ou C, Chan YR, Chien CT, Pi H. 2008. The utility F-box for protein destruction. Cell and Molecular Life Sciences 65, 1977-2000.
13. Huijser C, Kortstee A, Pego J, Weisbeek P, Wisman E, Smeekens S. 2000. The Arabidopsis SUCROSE UNCOUPLED-6 gene is identical to ABSCISIC ACID INSENSITIVE-4: involvement of abscisic acid in sugar responses. The Plant Journal 23, 577-585.
14. Jang JC, Sheen J. 1997. Sugar sensing in higher plants. Trends in Plant Science 2, 208-214.
15. Kiba T, Henriques R, Sakakibara H, Chua NH. 2007. Targeted degradation of PSEUDO-RESPONSE REGULATOR5 by an SCFZTL complex regulates clock function and photomorphogenesis in Arabidopsis thaliana. The Plant Cell 19, 2516-2530.
16. Koornneef M, Bentsink L, Hilhorst H. 2002. Seed dormancy and germination. Current Opinion in Plant Biology 5, 33-36.
17. Laby RJ, Kincaid MS, Kim D, Gibson SI. 2000. The Arabidopsis sugar-insensitive mutants sis4 and sis5 are defective in abscisic acid synthesis and response. The Plant Journal 23, 587-596.
18. Lee JH, Kim WT. 2011. Regulation of abiotic stress signal transduction by E3 ubiquitin ligases in Arabidopsis. Molecular Cell 31, 201-208.
19. Leo'n P, Sheen J., 2003. Sugar and hormone connections. Trends in Plant Science, 8, 110-116.
20. Livak KJ, Schmittgen TD. 2001. Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) method. Methods 25, 402-408.
21. Maldonado-Calderón MT, Sepúlveda-García E, Rocha-Sosa M. 2012. Characterization of novel F-box proteins in plants induced by biotic and abiotic stress. Plant Science 185, 208-217.
22. Matiolli CC, Tomaz JP, Duarte GT, et al. 2011. The Arabidopsis bZIP gene AtbZIP63 is a sensitive integrator of transient abscisic acid and glucose signals. Plant Physiology 157, 692-705.
23. Moon J, Parry G, Estelle M. 2004. The ubiquitin-proteasome pathway and plant development. The Plant Cell 16, 3181-3195.
24. Nambara E, Marion-Poll A. 2005. Abscisic acid biosynthesis and catabolism. Annual Review of Plant Biology 56, 165-185.
25. Ni W, Xie D, Hobbie L, Feng B, Zhao D, Akkara J, Ma H. 2004. Regulation of flower development in Arabidopsis by SCF complexes. Plant Physiology 134, 1574-1585.
26. Rolland F, Baena-Gonzalez E, Sheen J. 2006. Sugar sensing and signaling in plants: conserved and novel mechanisms. Annual Review of Plant Biology 57, 675-709.
27. Rook F, Hadingham SA, Li Y, Bevan MW. 2006. Sugar and ABA response pathways and the control of gene expression. Plant Cell and Environment 29, 426-434.
28. Saito S, Hirai N, Matsumoto C, Ohigashi H, Ohta D, Sakata K, Mizutani M. 2004. Arabidopsis CYP707 as encode (+)-abscisic acid 8'-hydroxylase, a key enzyme in the oxidative catabolism of abscisic acid. Plant Physiology 134, 1439-1449.
29. Santner A, Estelle M. 2010. The ubiquitin-proteasome system regulates plant hormone signaling. The Plant Journal 61, 1029-1040.
30. Smalle J, Vierstra RD. 2004. The ubiquitin 26S proteasome proteolytic pathway. Annual Review of Plant Biology 55, 555-590.
31. Smeekens S. 2000. Sugar-induced signal transduction in plant. Annual Review of Plant Physiology and Plant Molecular Biology 51, 49-81.
32. Smeekens S. 2003. Sugar-induced signal transduction in plants. Annual Review of Plant Physiology and Plant Molecular Biology 51, 49-81.
33. Song SY, Chen Y, Zhao MG, Zhang WH. 2012. A novel Medicago truncatula HD-Zip gene, MtHB2, is involved in abiotic stress responses. Environmental and Experimental Botany 80, 1-9.
34. Sullivan JA, Shirasu K, Deng XW. 2003. The diverse roles of ubiquitin and the 26S proteasome in the life of plants. Nature Review of Genetics 4, 948-958.
35. Tan X, Calderon-Villalobos LI, Sharon M, Zheng C, Robinson CV, Estelle M, Zheng N. 2007. Mechanism of auxin perception by the TIR1 ubiquitin ligase. Nature 446, 640-645.
36. Vierstra RD. 2009. The ubiquitin-26S proteasome system at the nexus of plant biology. Nature Review of Molecular and Cellular Biology 110, 385-397.
37. Xu GX, Ma H, Nei M, Kong HZ. 2009. Evolution of F-box genes in plants: different modes of sequence divergence and their relationships with functional diversification. Proceedings of National Academy of Sciences, USA 106, 835-840.
38. Yan YS, Chen XY, Yang K, Sun ZX, Fu YP, Zhang YM, Fang RX. 2011. Overexpression of an F-box protein gene reduces abiotic stress tolerance and promotes root growth in rice. Molecular Plant 4, 190-197.
39. Yang YZ, Peng H, Huang HM, Wu JX, Ha SR, Huang DF, Lu TG. 2004. Large-scale production of enhancer trapping lines for rice functional genomics. Plant Science 167, 281-288.
40. Yang JC, Zhang JH, Wang ZQ, Zhu QS, Wang W. 2001. Hormonal changes in the grains of rice subjected to water stress during grain filling. Plant Physiology 127, 315-323.
41. Yuan K, Wysocka-Diller J. 2006. Phytohormone signalling pathways interact with sugars during seed germination and seedling development. Journal of Experimental Botany 57, 3359-3367.
42. Zhang Y, Xu W, Li Z, Deng XW, Wu W, Xue Y. 2008. F-box protein DOR functions as a novel inhibitory factor for abscisic acid-induced stomatal closure under drought stress in Arabidopsis. Plant Physiology 148, 2121-2133.
43. Zhu SF, Gao F, Cao XS, Chen M, Ye GY, Wei CH, Li Y. 2005. The rice dwarf virus P2 protein interacts with ent-kaurene oxidases in vivo, leading to reduced biosynthesis of gibberellins and rice dwarf symptoms. Plant Physiology 139, 1935-1945.
44. Zhu G, Liu Y, Ye N, Liu R, Zhang J. 2011. Involvement of the abscisic acid catabolic gene CYP707A2 in the glucose-induced delay in seed germination and post-germination growth of Arabidopsis. Physiologia Plantarum 143, 375-384.
45. Zhu G, Ye N, Zhang J. 2009. Glucose induced delay of seed germination in rice is mediated by the suppression of ABA catabolism rather than an enhancement of ABA biosynthesis. Plant Cell Physiology 50, 644-651.