Transcription co-activator Arabidopsis ANGUSTIFOLIA3 (AN3) regulates water-use efficiency and drought tolerance by modulating stomatal density and improving root architecture by the transrepression of YODA (YDA)

Plant Biotechnology Journal

Volumn 13, Issue 7, 2015, Pages 893-902

  Meng, Lai Sheng ^a   Yao, Shun Qiao ^a  

^a KUNMING INSTITUTE OF BOTANY   (China)

Author keywords

ANGUSTIFOLIA3 (AN3); Arabidopsis; Drought tolerance; Improved root architecture; Stomatal density; YODA (YDA)

Indexed keywords

ARABIDOPSIS;

ARABIDOPSIS PROTEIN; MITOGEN ACTIVATED PROTEIN KINASE KINASE KINASE; WATER; YODA PROTEIN, ARABIDOPSIS;

ARABIDOPSIS; DROUGHT; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; PLANT ROOT; PLANT STOMA;

ARABIDOPSIS; ARABIDOPSIS PROTEINS; DROUGHTS; GENE EXPRESSION REGULATION, PLANT; MAP KINASE KINASE KINASES; PLANT ROOTS; PLANT STOMATA; WATER;

EID: 84939563530     PISSN: 14677644     EISSN: 14677652     Source Type: Journal    
DOI: 10.1111/pbi.12324     Document Type: Article

References (44)

1. Abrash, E.B., Davies, K.A. and Bergmann, D.C. (2011) Generation of signaling specificity in Arabidopsis by spatially restricted buffering of ligand-receptor interactions. Plant Cell, 23, 2864-2879.
2. Baker, S.S., Wilhem, K.S. and Thomashow, M.F. (1994) The 59-region of Arabidopsis thaliana cor15a has cis-acting elements that confer cold-, drought-, and ABA-regulated gene expression. Plant Mol. Biol. 24, 701-713.
3. Bergmann, D.C., Lukowitz, W. and Somerville, C.R. (2004) Stomatal development and pattern controlled by a MAPKK kinase. Science, 304, 1494-1497.
4. de Bruijn, D.R.H., dos Santos, N.R., Thijssen, J., Balemans, M., Debernardi, S., Linder, B., Young, B.D. and van Kessel, A.G. (2001) The synovial sarcoma associated protein SYT interacts with the acute leukemia associated protein AF10. Oncogene, 20, 3281-3289.
5. Casson, S. and Gray, J.E. (2008) Influence of environmental factors on stomatal development. New Phytol. 178, 9-23.
6. Clark, J., Rocques, P.J., Crew, A.J., Gill, S., Shipley, J., Chan, A.M.-L., Gusterson, B.A. and Cooper, C.S. (1994) Identification of novel genes, SYTand SSX, involved in t(X;18)(p11.2;q11.2) translocation found in human synovial sarcoma. Nat. Genet. 7, 502-508.
7. Crew, A.J., Clark, J., Fisher, C., Gill, S., Grimer, R., Chand, A., Shipley, J., Gusterson, B.A. and Cooper, C. (1995) Fusion of SYT to two genes, SSX1 and SSX2, encoding proteins with homology to the Kruppel-associated box in human synovial sarcoma. EMBO J. 14, 2333-2340.
8. Ferjani, A., Horiguchi, G., Yano, S. and Tsukaya, H. (2007) Analysis of leaf development in fugu mutants of Arabidopsis reveals three compensation modes that modulate cell expansion in determinate organs. Plant Physiol. 144, 988-999.
9. Franks, P.J. and Beerling, D.J. (2009) CO2-forced evolution of plant gas exchange capacity and water-use efficiency over the Phanerozoic. Geobiology, 7, 227-236.
10. Geisler, M., Nadeau, J. and Sack, F.D. (2000) Oriented asymmetric divisions that generate the stomatal spacing pattern in Arabidopsis are disrupted by the too many mouths mutation. Plant Cell, 12, 2075-2086.
11. Hara, K., Kajita, R., Torii, K.U., Bergmann, D.C. and Kakimoto, T. (2007) The secretory peptide gene EPF1 enforces the stomatal one-cell-spacing rule. Gene Dev. 21, 1720-1725.
12. Horiguchi, G., Kim, G.T. and Tsukaya, H. (2005) The transcription factor AtGRF5 and the transcription coactivator AN3 regulate cell proliferation in leaf primordia of Arabidopsis thaliana. Plant J. 43, 68-78.
13. Hunt, L. and Gray, J.E. (2009) The signaling peptide EPF2 controls asymmetric cell divisions during stomatal development. Curr. Biol. 19, 864-869.
14. Kanei, M., Horiguchi, G. and Tsukaya, H. (2012) Stable establishment of cotyledon identity during embryogenesis in Arabidopsis by ANGUSTIFOLIA3 and HANABA TARANU. Development, 139, 2436-2446.
15. Kang, C.Y., Lian, H.L., Wang, F.F., Huang, J.R. and Yang, H.Q. (2009) Cryptochromes, phytochromes, and COP1 regulate light-controlled stomatal development in Arabidopsis. Plant Cell, 21, 2624-2641.
16. Kato, H., Tjernberg, A., Zhang, W., Krutchinsky, A.N., Takeuchi, T., Ohtsuki, Y., Sugano, S., de Brujin, D.R., Chait, B.T. and Roeder, R.G. (2002) SYT associates with human SNF/SWI complexes and the C-terminal region of its fusion partner SSX1 targets histones. J. Biol. Chem. 277, 5498-5505.
17. Kim, J.H. and Kende, H. (2004) A transcriptional coactivator, AtGIF1, is involved in regulating leaf growth and morphology in Arabidopsis. Proc. Natl Acad. Sci. USA, 101, 13374-13379.
18. Lampard, G.R., Macalister, C.A. and Bergmann, D.C. (2008) Arabidopsis stomatal initiation is controlled by MAPK-mediated regulation of the bHLH SPEECHLESS. Science, 322, 1113-1116.
19. Lee, B.H., Ko, J.H., Lee, S., Lee, Y., Park, J.H. and Kim, J.H. (2009) The Arabidopsis GRF-INTERACTING FACTOR gene family performs an overlapping function in determining organ size as well as multiple developmental properties. Plant Physiol. 151, 655-668.
20. Lee, J.S., Kuroha, T., Hnilova, M., Khatayevich, D., Kanaoka, M.M., McAbee, J.M., Sarikaya, M., Tamerler, C. and Torii, K.U. (2012) Direct interaction of ligand-receptor pairs specifying stomatal patterning. Genes Dev. 26, 126-136.
21. Li, W.X., Oono, Y., Zhu, J., He, X.J., Wu, J.M., Iida, K., Lu, X.Y., Cui, X., Jin, H., and Zhu, J.K. (2008) The Arabidopsis NFYA5 transcription factor is regulated transcriptionally and posttranscriptionally to promote drought resistance. Plant Cell, 20, 2238-2251.
22. Lukowitz, W., Roeder, A., Parmenter, D. and Somerville, C. (2004) A MAPKK kinase gene regulates extra-embryonic cell fate in Arabidopsis. Cell, 116, 109-119.
23. Masle, J., Gilmore, S.R. and Farquhar, G.D. (2005) The ERECTA gene regulates plant transpiration efficiency in Arabidopsis. Nature, 436, 866-870.
24. Meng, L.S. (2014) Transcription coactivator Arabidopsis ANGUSTIFOLIA3 modulates anthocyanin accumulation and light-induced root elongation through transrepression of constitutive photomorphogenic1. Plant Cell Environ. DOI: 10.1111/pce.12456.
25. Nagai, M., Tanaka, S., Tsuda, M., Endo, S., Kato, H., Sonobe, H., Minami, A., Hiraga, H., Nishihara, H., Sawa, H. and Nagashima, K. (2001) Analysis of transforming activity of human synovial sarcoma-associated chimeric protein SYT-SSX1 bound to chromatin remodeling factor hBRM/hSNF2a. Proc. Natl Acad. Sci. USA, 98, 3843-3848.
26. Sawa, M., Nusinow, D.A., Kay, S.A. and Imaizumi, T. (2007) FKF1 and GIGANTEA complex formation is required for day-length measurement in Arabidopsis. Science, 318, 261-265.
27. Shpak, E.D., McAbee, J.M., Pillitteri, L.J. and Torii, K.U. (2005) Stomatal patterning and differentiation by synergistic interactions of receptor kinases. Science, 309, 290-293.
28. Sugano, S.S., Shimada, T., Imai, Y., Okawa, K., Tamai, A., Mori, M. and Hara-Nishimura, I. (2010) Stomagen positively regulates stomatal density in Arabidopsis. Nature, 463, 241-244.
29. Tanaka, Y., Sugano, S.S., Shimada, T. and Hara-Nishimura, I. (2013) Enhancement of leaf photosynthetic capacity through increased stomatal density in Arabidopsis. New Phytol. 198, 757-764.
30. Thaete, C., Brett, D., Monaghan, P., Whitehouse, S., Rennie, G., Rayner, E., Cooper, C.S. and Goodwin, G. (1999) Functional domains of the SYT and SYT-SSX synovial sarcoma translocation proteins and co-localization with the SNF protein BRM in the nucleus. Hum. Mol. Genet. 8, 585-591.
31. Thomas-Chollier, M., Herrmann, C., Defrance, M., Sand, O., Thieffry, D. and van Helden, J. (2012) RSAT peak-motifs: motif analysis in full-size ChIP-seq datasets. Nucleic Acids Res. 40, e31.
32. Torii, K.U. (2012) Mix-and-match: ligand-receptor pairs in stomatal development and beyond. Trends Plant Sci. 17, 711-718.
33. Vercruyssen, L., Verkest, A., Gonzalez, N., Heyndrickx, K.S., Eeckhout, D., Han, S.K., Jégu, T., Archacki, R., Leene, J.V., Andriankaja, M., De Bodt, S., Abeel, T., Coppens, F., Dhondt, S., De Milde, L., Vermeersch, M., Maleux, K., Gevaert, K., Jerzmanowski, A., Benhamed, M., Wagner, D., Vandepoele, K., De Jaeger, G. and Inzé, D. (2014) ANGUSTIFOLIA3 Binds to SWI/SNF chromatin remodeling complexes to regulate transcription during Arabidopsis leaf development. Plant Cell, 26, 210-229.
34. Von Groll, U., Berger, D. and Altmann, T. (2002) The subtilisin-like serine protease SDD1 mediates cell-to-cell signaling during Arabidopsis stomatal development. Plant Cell, 14, 1527-1539.
35. Wang, L., Hua, D., He, J., Duan, Y., Chen, Z., Hong, X. and Gong, Z. (2011) Auxin Response Factor2 (ARF2) and its regulated homeodomain gene HB33 mediate abscisic acid response in Arabidopsis. PLoS Genet. 7, e1002172.
36. Wang, H.C., Ngwenyama, N., Liu, Y.D., Walker, J.C. and Zhang, S.Q. (2007) Stomatal development and patterning are regulated by environmentally responsive mitogen-activated protein kinases in Arabidopsis. Plant Cell, 19, 63-73.
37. White, J.W. and Castillo, J.A. (1992) Evaluation of diverse shoot genotypes on selected root genotypes of common bean under soil-water deficits. Crop Sci. 32, 762-765.
38. Wigge, P.A., Kim, M.C., Jaeger, K.E., Busch, W., Schmid, M., Lohmann, J.U. and Weigel, D. (2005) Integration of spatial and temporal information during floral induction in Arabidopsis. Science, 309, 1056-1059.
39. Yamamoto, Y.Y., Yoshitsugu, T., Sakurai, T., Seki, M., Shinozaki, K. and Obokata, J. (2009) Heterogeneity of Arabidopsis core promoters revealed by high-density TSS analysis. Plant J. 60, 350-362.
40. Yoo, C.Y., Pence, H.E., Jin, J.B., Miura, K., Gosney, M.J., Hasegawa, P.W. and Mickelbart, M.V. (2010) The Arabidopsis GTL1 transcription factor regulates water use efficiency and drought tolerance by modulating stomatal density via transrepression of SDD1. Plant Cell, 22, 4128-4141.
41. Yu, H., Chen, X., Hong, Y.Y., Wang, Y., Xu, P., Ke, S.D., Liu, H.Y., Zhu, J.K., Oliver, D.J. and Xiang, C.B. (2008) Activated expression of an Arabidopsis HD-START protein confers drought tolerance with improved root system and reduced stomatal density. Plant Cell, 20, 1134-1151.
42. Zgurski, J.M., Sharma, R., Bolokoski, D.A. and Schultz, E.A. (2005) Asymmetric auxin response precedes asymmetric growth and differentiation of asymmetric leaf1 and asymmetric leaf2 Arabidopsis leaves. Plant Cell, 17, 77-91.
43. Zhang, X.R., Henriques, R., Lin, S.S., Niu, Q.W. and Chua, N.H. (2006) Agrobacterium-mediated transformation of Arabidopsis thaliana using the floral dip method. Nat. Protoc. 1, 641-646.
44. Zhou, Y., Zhang, X.J., Kang, X.J., Zhao, X.Y., Zhang, X.S. and Ni, M. (2009) SHORT HYPOCOTYL UNDER BLUE1 associates with MINISEED3 and HAIKU2 promoters in vivo to regulate Arabidopsis seed development. Plant Cell, 21, 106-117.