Abstract
In a variety of plant cells, chloroplasts change their intracellular arrangement and/or distribution in response to light signals, such as the direction, fluence rate and wavelength. Rapid improvements in cell biological techniques, which enable visualization of cytoskeletal organization in plant cells, has made it increasingly evident that actin microfilaments play a critical role in regulating the intracellular movements and anchoring of chloroplasts. Recent progress in this field is briefly summarized and a possible mode of action of the actin cytoskeleton in the photocontrol of motility of chloroplasts is discussed.
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References
Batschauer A (1998) Photoreceptors of higher plants. Planta 206: 479–492
Blatt MR and Briggs WR (1980) Blue-light-induced cortical fiber reticulation concomitant with chloroplast aggregation in the alga Vaucheria sessilis. Planta 147: 355–362
Blatt MR, Wessells NK and Briggs WR (1980) Actin and cortical fiber reticulation in the siphonaceous alga Vaucheria sessilis. Planta 147: 363–375
Cramer LP and Mitchison TJ (1995) Myosin is involved in postmitotic cell spreading. J Cell Biol 131: 179–189
Dong XJ, Nagai R and Takagi S (1998) Microfilaments anchor chloroplasts along the outer periclinal wall in Vallisneria epidermal cells through cooperation of Pfr and photosynthesis. Plant Cell Physiol 39: 1299–1306
Dong XJ, Ryu JH, Takagi S and Nagai R (1996) Dynamic changes in the organization of microfilaments associated with the photocontrolled motility of chloroplasts in epidermal cells of Vallisneria. Protoplasma 195: 18–24
Dong XJ, Takagi S and Nagai R (1995) Regulation of the orientation movement of chloroplasts in epidermal cells of Vallisneria Cooperation of phytochrome with photosynthetic pigment under low-fluence-rate light. Planta 197: 257–263
Evans JR and von Caemmerer S (1996) Carbon dioxide diffusion inside leaves. Plant Physiol 110:339–346
Fukuda H and Kobayashi H (1989) Dynamic organization of the cytoskeleton during tracheary-element differentiation. Develop Growth Differ 31: 9–16
Furuya M (1993) Phytochromes: Their molecular species, gene families, and functions. Annu Rev Plant Physiol Plant Mol Biol 44: 617–645
Haupt W (1999) Chloroplast movement: From phenomenology to molecular biology. Progress Bot 60: 3–36
Haupt W and Scheuerlein R (1990) Chloroplast movement. Plant Cell Environ 13: 595–614
Haupt W and Schönbohm E (1970) Light-oriented chloroplast movements. In: Halldall P (ed) Photobiology of Microorganisms. London: Wiley-Interscience, pp 283–306
Izutani Y, Takagi S and Nagai R (1990) Orientation movements of chloroplasts in Vallisneria epidermal cells: Different effects of light at low- and high-fluence rate. Photochem Photobiol 51: 105–111
Kadota A and Wada M (1992a) Photoinduction of formation of circular structures by microfilaments of chloroplasts during intracellular orientation in protonemal cells of the fern Adiantum capillus-veneris. Protoplasma 167: 97–107
Kadota A and Wada M (1992b) Photoorientation of chloroplasts in protonemal cells of the fern Adiantum as analyzed by use of a video-tracking system. Bot Mag Tokyo 105: 265–279
Kagawa T and Wada M (1996) Phytochrome- and blue-light-absorbing pigment-mediated directional movement of chloroplasts in dark-adapted prothallial cells of fern Adiantum as analyzed by microbeam irradiation. Planta 198: 488–493
Kamiya N (1959) Protoplasmic streaming. In: Heilbrunn LV, Weber F (eds) Protoplasmatologia vol VIII 3 a. Vienna: Springer-Verlag, pp 1–199
Kandasamy MK and Meagher RB (1999) Actin-organelle interaction: Association with chloroplast in Arabidopsis leaf mesophyll cells. Cell Motil Cytoskel 44: 110–118
Kobayashi H, Fukuda H and Shibaoka H (1987) Reorganization of actin filaments associated with the differentiation of tracheary elements in Zinnia mesophyll cells. Protoplasma 138: 69–71
La Claire JW II (1991) Immunolocalization of myosin in intact and wounded cells of the green alga Emodesmis verticillata (Kutzing) Borgesen. Planta 184: 209–217
La Claire JW II, Chen R and Herrin DL (1995) Identification of a myosin-like protein in Chlamydomonas reinhardtii (Chlorophyta). J Phycol 31: 302–306
Menzel D and Elsner-Menzel C (1989) Actin-based chloroplast rearrangements in the cortex of the giant coenocytic green alga Caulerpa. Protoplasma 150: 1–8
Mineyuki Y, Kataoka H, Masuda Y and Nagai R (1995) Dynamic changes in the actin cytoskeleton during the high-fluence rate response of the Mougeotia chloroplast. Protoplasma 185:222–229
Nagai R (1993) Regulation of intracellular movements in plant cells by environmental stimuli. Int Rev Cytol 145: 251–310
Seitz K (1979) Light induced change in the centrifugability of chloroplasts: Different action spectra and different influence of inhibitors in the low and high intensity range. Z Pflanzenphysiol 95:1–12
Senger H (1980) The Blue Light Syndrome. Berlin Heidelberg New York: Springer-Verlag
Senger H (1984) Blue Light Effects in Biological Systems. Berlin Heidelberg New York Tokyo: Springer-Verlag
Shimmen T and Yokota E (1994) Physiological and biochemical aspects of cytoplasmic streaming. Int Rev Cytol 155: 97–139
Staiger CJ and Schliwa M (1987) Actin localization and function in higher plants. Protoplasma 141: 1–12
Takagi S (1997) Photoregulation of cytoplasmic streaming: Cell biological dissection of signal transduction pathway. J Plant Res 110: 299–303
Takagi S, Kamitsubo E and Nagai R (1991) Light-induced changes in the behavior of chloroplasts under centrifugation in Vallisneria epidermal cells. J Plant Physiol 138: 257–262
Takagi S, Kamitsubo E and Nagai R (1992) Visualization of a rapid, red/far-red light-dependent reaction by centrifuge microscopy. Protoplasma 168: 153–158
Terashima I, Ishibashi M, Ono K and Hikosaka K (1995) Three resistances to CO2 diffusion: Leaf-surface water, intercellular spaces and mesophyll cells. In: Mathis P (ed) Photosynthesis: From Light to Biosphere, vol V. Dordrecht, Netherlands: Kluwer Academic Publishers, pp 537–542
Trojan A and Gabrys H (1996) Chloroplast distribution in Arabidopsis thaliana (L.) depends on light conditions during growth. Plant Physiol 111: 419–425
Virgin HI (1949) The relation between the viscosity of the cytoplasm, the plasma flow, and the motive force. An experimental study. Physiol Plant 2: 157–163
Wada M, Grolig F and Haupt W (1993) Light-oriented chloroplast positioning. Contribution to progress in photobiology. J Photochem Photobiol B. Biol 17: 3–25
Yamaguchi Y and Nagai R (1981) Motile apparatus in Vallisneria leaf cells. I. Organization of microfilaments. J Cell Sci 48: 193–205
Yatsuhashi H (1996) Photoregulation systems for light-oriented chloroplast movement. J Plant Res 109: 139–146
Zurzycki J (1955) Chloroplasts arrangement as a factor in photosynthesis. Acta Soc Bot Pol 24: 27–63
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Takagi, S. (2000). Roles for Actin Filaments in Chloroplast Motility and Anchoring. In: Staiger, C.J., Baluška, F., Volkmann, D., Barlow, P.W. (eds) Actin: A Dynamic Framework for Multiple Plant Cell Functions. Developments in Plant and Soil Sciences, vol 89. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-9460-8_12
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DOI: https://doi.org/10.1007/978-94-015-9460-8_12
Publisher Name: Springer, Dordrecht
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