Leaf positioning of Arabidopsis in response to blue light

Molecular Plant

Volumn 1, Issue 1, 2008, Pages 15-26

  Inoue, Shin Ichiro ^a   Kinoshita, Toshinori ^a,b   Takemiya, Atsushi ^a   Doi, Michio ^a   Shimazaki, Ken Ichiro ^a  

^a KYUSHU UNIVERSITY   (Japan)

^b NAGOYA UNIVERSITY   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

ARABIDOPSIS;

ARABIDOPSIS PROTEIN; HYBRID PROTEIN; NPH3 PROTEIN, ARABIDOPSIS; PHOTOTROPIN;

ARABIDOPSIS; ARTICLE; GRAVITY; GROWTH, DEVELOPMENT AND AGING; HISTOLOGY; LIGHT; MORPHOGENESIS; PHOTOSYNTHESIS; PHYSIOLOGY; PLANT LEAF; PROTOPLAST; RADIATION EXPOSURE; REPORTER GENE; ULTRAVIOLET RADIATION;

ARABIDOPSIS; ARABIDOPSIS PROTEINS; GENES, REPORTER; GRAVITATION; LIGHT; MORPHOGENESIS; PHOTOSYNTHESIS; PHOTOTROPINS; PLANT LEAVES; PROTOPLASTS; RECOMBINANT FUSION PROTEINS; ULTRAVIOLET RAYS;

EID: 44449177765     PISSN: 16742052     EISSN: 17529867     Source Type: Journal    
DOI: 10.1093/mp/ssm001     Document Type: Article

References (46)

1. Ahmad, M., and Cashmore, A.R. (1993). HY4 gene of A. thaliana encodes a protein with characteristics of a blue-light photoreceptor. Nature 366, 162-166.
2. Ballaré, C.L., and Scopel, A.L. (1997). Phytochrome signaling in plant canopies: testing its population-level implications with photoreceptor mutants of Arabidopsis. Funct. Ecol. 11, 441-450.
3. Bradford, M.M. (1976). A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem. 72, 248-254.
4. Briggs, W.R., and Christie, J.M. (2002). Phototropins 1 and 2: versatile plant blue-light receptors. Trends Plant Sci. 7, 204-210.
5. Cashmore, A.R., Jarillo, J.A., Wu, Y.J., and Liu, D. (1999). Cryptochromes: blue light receptors for plants and animals. Science 284, 760-765.
6. Clough, S.J., and Bent, A.F. (1998). Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. Plant J. 16, 735-743.
7. Doi, M., Shigenaga, A., Emi, T., Kinoshita, T., and Shimazaki, K. (2004). A transgene encoding a blue-light receptor, phot1, restores blue-light responses in the Arabidopsis phot1 phot2 double mutant. J. Exp. Bot. 55, 517-523.
8. Emi, T., Kinoshita, T., Sakamoto, K., Mineyuki, Y., and Shimazaki, K. (2005). Isolation of a protein interacting with Vfphot1a in guard cells of Vicia faba. Plant Physiol. 138, 1615-1626.
9. Fankhauser, C., and Casal, J.J. (2004). Phenotypic characterization of a photomorphogenic mutant. Plant J. 39, 747-760.
10. Folta, K.M., and Kaufman, L.S. (2003). Phototropin1 is required for high-fluence blue-light-mediated mRNA destabilization. Plant Mol. Biol. 51, 609-618.
11. Folta, K.M., and Spalding, E.P. (2001). Unexpected roles for cryptochrome 2 and phototropin revealed by high-resolution hypocotyl growth analysis. Plant J. 26, 471-478.
12. Friml, J., Wisńiewska, J., Benková, E., Mundgen, K., and Palme, K. (2002). Lateral relocation of auxin efflux regulator PIN3 mediates tropism in Arabidopsis. Nature 415, 806-809.
13. Haga, K., Takano, M., Neumann, R., and Iino, M. (2005). The rice COLEOPTILE PHOTOTROPISM1 gene encoding an ortholog of Arabidopsis NPH3 is required for phototropism of coleoptiles and lateral translocation of auxin. Plant Cell 17, 103-115.
14. Hobbie, L., and Estelle, M. (1995). The axr4 auxin-resistant mutants of Arabidopsis thaliana define a gene important for root gravitropism and lateral root initiation. Plant J. 7, 211-220.
15. Huala, E., Oeller, P.W., Liscum, E., Han, I.-S., Larsen, E., and Briggs, W.R. (1997). Arabidopsis NPH1: a protein kinase with a putative redox-sensing domain. Science 278, 2120-2123.
16. Iino, M., and Briggs, W.R. (1984). Growth distribution during first positive phototropic curvature of maize coleoptiles. Plant Cell Environ. 7, 97-104.
17. Imaizumi, T., Tran, H.G., Swartz, T.E., Briggs, W.R., and Kay, S.A. (2002). FKF1 is essential for photoperiodic-specific light signalling in Arabidopsis. Nature 426, 302-306.
18. Inada, S., Ohgishi, M., Mayama, T., Okada, K., and Sakai, T. (2004). RPT2 is a signal transducer involved in phototropic response and stomatal opening by association with phototropin1 in Arabidopsis thaliana. Plant Cell 16, 887-896.
19. Inoue, S., Kinoshita, T., and Shimazaki, K. (2005). Possible involvement of phototropins in leaf movement of kidney bean in response to blue light. Plant Physiol. 138, 1994-2004.
20. Jarillo, J.A., Gabrys, H., Capel, J., Alonso, J.M., Ecker, J.R., and Cashmore, A.R. (2001). Phototropin-related NPL1 controls chloroplast relocation induced by blue light. Nature 410, 952-954.
21. Kagawa, T., Sakai, T., Suetsugu, N., Oikawa, K., Ishiguro, S., Kato, T., Tabata, S., Okada, K., and Wada, M. (2001). Arabidopsis NPL1: a phototropin homolog controlling the chloroplast high-light avoidance response. Science 291, 2138-2141.
22. Kasahara, M., Kagawa, T., Oikawa, K., Suetsugu, N., Miyao, M., and Wada, M. (2002). Chloroplast avoidance movement reduces photodamage in plants. Nature 420, 829-832.
23. Kinoshita, T., Doi, M., Suetsugu, N., Kagawa, T., Wada, M., and Shimazaki, K. (2001). phot1 and phot2 mediate blue light regulation of stomatal opening. Nature 414, 656-660.
24. Koller, D.(2000).Plantsinsearchofsunlight.Adv.Bot.Res.33, 35-131.
25. Koller, D., and Levitan, I. (1989). Diurnal phototropism in leaves of Lavatera cretica L. under conditions of simulated solar-tracking. J. Exp. Bot. 40, 1059-1064.
26. Koller, D., Levitan, I., and Briggs, W.R. (1985). The vectorial photoexcitation in solar-tracking leaves of Lavatera cretica (Malvaceae). Photochem. Photobiol. 42, 717-723.
27. Lariguet, P., et al. (2006). PHYTOCHROME KINASE SUBSTRATE 1 is a phototropin 1 binding protein required for phototropism. Proc. Natl Acad. Sci. USA 103, 10134-10139.
28. Lin, C. (2002). Blue light receptors and signal transduction. Plant Cell 14 (suppl.) S207-S225.
29. Liscum, E. (2002). Phototropism: mechanisms and outcomes. In The Arabidopsis Book, Somerville C.R. and Meyerowitz E.M., eds (Rockville, MD: American Society of Plant Biologists) doi/10.1199/tab.0042, http://www.aspb.org/ publications/arabidopsis/
30. Liscum, E., and Briggs, W.R. (1995). Mutations in the NPH1 locus of Arabidopsis disrupt the perception of phototropic stimuli. Plant Cell 7, 473-485.
31. Liu, Y.-G., Mitsukawa, N., and Whitter, R.F. (1995). Efficient isolation and mapping of Arabidopsis thaliana T-DNA insert junctions by thermal asymmetric interlaced PCR. Plant J. 8, 457-463.
32. Mano, E., Horiguchi, G., and Tsukaya, H. (2006). Gravitropism in leaves of Arabidopsis thaliana (L.) Heynh. Plant Cell Physiol. 47, 217-223.
33. Motchoulski, A., and Liscum, E. (1999). Arabidopsis NPH3: a NPH1 photoreceptor-interacting protein essential for phototropism. Science 286, 961-964.
34. Mullen, J.L., Weinig, C., and Hangarter, R.P. (2006). Shade avoidance and the regulation of leaf inclination in Arabidopsis. Plant Cell Environ. 29, 1099-1106.
35. Nemhauser, J., and Chory, J. (2002). Photomorphogenesis. In The Arabidopsis Book, Somerville C.R. and Meyerowitz E.M., eds (Rockville, MD: American Society of Plant Biologists) doi/10.1199/tab.0054, http://www.aspb.org/ publications/arabidopsis/
36. Niklas, K.J., and Owens, T.G. (1989). Physiological and morphological modifications of Plantago major (Plantginaceae) in response to light conditions. Am. J. Bot. 76, 370-382.
37. Niwa, Y., Hirano, T., Yoshimoto, K., Shimizu, M., and Kobayashi, H. (1999). Non-invasive quantitative detection and applications of non-toxic, S65T-type green fluorescent protein in living plants. Plant J. 18, 455-463.
38. Sakai, T., Kagawa, T., Kasahara, M., Swartz, T.E., Christie, J.M., Briggs, W.R., Wada, M., and Okada, K. (2001). Arabidopsis nph1 and npl1: blue light receptors that mediate both phototropism and chloroplast relocation. Proc. Natl Acad. Sci. USA 98, 6969-6974.
39. Sakai, T., Wada, T., Ishiguro, S., and Okada, K. (2000). RPT2: a signal transducer of the phototropic response in Arabidopsis. Plant Cell 12, 225-236.
40. Sakamoto, K., and Briggs, W.R. (2002). Cellular and subcellular localization of phototropin 1. Plant Cell 14, 1723-1735.
41. Stowe-Evans, E.L., Harper, R.M., Motchoulski, A.V., and Liscum, E. (1998). NPH4, a conditional modulator of auxin-dependent differential growth responses in Arabidopsis. Plant Physiol. 118, 1265-1275.
42. Takemiya, A., Inoue, S., Doi, M., Kinoshita, T., and Shimazaki, K. (2005). Phototropins promote plant growth in response to blue light in low light environments. Plant Cell 17, 1120-1127.
43. Ueno, K., Kinoshita, T., Inoue, S., Emi, T., and Shimazaki, K. (2005). Biochemical characterization of plasma membrane H+-ATPase activation in guard cell protoplasts of Arabidopsis thaliana in response to blue light. Plant Cell Physiol. 46, 955-963.
44. Vandenbussche, F., Verbelen, J.P., and Van Der Straeten, D. (2005). Of light and length: regulation of hypocotyl growth in Arabidopsis. BioEssays 27, 275-284.
45. Wang, H., and Deng, X.W. (2002). Phytochrome signaling mechanism. In The Arabidopsis Book, Somerville C.R. and Meyerowitz E.M., eds (Rockville, MD: American Society of Plant Biologists) doi/10.1199/tab.0074, http://www.aspb.org/ publications/arabidopsis/
46. Watahiki, M.K., and Yamamoto, K.T. (1997). The massugu1 mutation of Arabidopsis identified with failure of auxin-induced growth curvature of hypocotyl confers auxin insensitivity to hypocotyl and leaf. Plant Physiol. 115, 419-426.