Light-induced oil globule migration in haematococcus pluvialis (chlorophyceae)

Journal of Phycology

Volumn 48, Issue 5, 2012, Pages 1209-1219

  Peled, Ehud ^a   Pick, Uri ^b   Zarka, Aliza ^a   Shimoni, Eyal ^b   Leu, Stefan ^a   Boussiba, Sammy ^a  

^a BEN GURION UNIVERSITY OF THE NEGEV   (Israel)

^b WEIZMANN INSTITUTE OF SCIENCE   (Israel)

Author keywords

Actin; Algae; Astaxanthin; Haematococcus; Oil globules; Photomovement

Indexed keywords

ALGAE; CHLOROPHYCEAE; HAEMATOCOCCUS; HAEMATOCOCCUS PLUVIALIS;

EID: 84867192447     PISSN: 00223646     EISSN: 15298817     Source Type: Journal    
DOI: 10.1111/j.1529-8817.2012.01210.x     Document Type: Article

References (40)

1. Austin, J. R., Frost, E., Vidi, P.-A., Kessler, F. & Staehelin, L. A. 2006. Plastoglobules arelipoprotein subcompartments of the chloroplast that are permanently coupled to thylakoid membranes and contain biosynthetic enzymes. Plant Cell 18:1693-703.
2. Bradley, M. O. 1973. Microfilaments and cytoplasmic streaming: inhibition of streaming with cytochalasin. J. Cell Sci. 12:327-43.
3. Eberhard, S., Finazzi, G. & Wollman, F. A. 2008. The dynamics of photosynthesis. Ann. Rev. Genet. 42:463-515.
4. Fehrenbacher, K. L., Boldogh, I. R. & Pon, L. A. 2003. Taking the A-train: actin-based force generators and organelle targeting. Trends Cell Biol. 13:472-7.
5. Fleurat -Lessard, P., Roblin, G., Bonmort, J. & Besse, C. 1988. Effects of colchicine, vinblastine, cytochalasin B and phalloidin on the seismonastic movement of Mimosa pudica leaf and on motor cell ultrastructure. J. Exp. Bot. 39:209-21.
6. Foissner, I. 2004. Microfilaments and microtubules control the shape, motility, and subcellular distribution of cortical mitochondria in characean internodal cells. Protoplasma 224:145-57.
7. Fukui, S.-I. & Nagai, R. 1985. Reactivation of cytoplasmic streaming in a tonoplast-permeabilized cell model of Acetabularia. Plant Cell Physiol. 26:737-44.
8. Goodenough, U., Heuser, J., Roth, R., Mario Aguirre Palma, L. & Waffenschmidt, S. 2010. The cw15 sta6 mutant strain of C. reinhardtii produces lipid bodies in both the cytoplasm and the chloroplast in response to nitrogen starvation in 20 mM acetate. In 14th International Conference on the Cell and Molecular Biology of Chlamydomonas. Wheaton College, Norton, Massachusetts.
9. Grolig, F. 1990. Actin-based organelle movements in interphase Spirogyra. Protoplasma 155:29-42.
10. Hagen, C., Braune, W. & Bjorn, L. 1994. Functional aspects of secondary carotenoids in Haematococcus lacustris (Volvocales). III. Action as a "sunshade". J. Phycol. 30:241-8.
11. Jedd, G. & Chua, N.-H. 2002. Visualization of peroxisomes in living plant cells eveals acto-myosin-dependent cytoplasmic streaming and peroxisome budding. Plant Cell Physiol. 43:384-92.
12. Kamiya, N. 1981. Physical and chemical basis of cytoplasmic streaming. Ann. Rev. Plant Physiol. 32:205-36.
13. Koop, H. U. 1981. Protoplasmic streaming in Acetabularia. Protoplasma 109:143-57.
14. Lang, N. 1968. Electron microscopic studies of extraplastidic astaxanthin in Haematococcus. J. Phycol. 4:12-9.
15. Maekawa, T., Tsutsui, I. & Nagai, R. 1986. Light-regulated translocation of cytoplasm in green alga Dichotomosiphon. Plant Cell Physiol. 27:837-51.
16. Mainx, F. 1927. Beitraege zur morphologie und physiologie der Euglenen. Arch. Protistenk. 60:60-72.
17. Murphy, D. 2001. The biogenesis and functions of lipid bodies in animals, plants and microorganisms. Prog. Lipid Res. 40:325-438.
18. Nascimento, A. A., Roland, J. T. & Gelfand, V. I. 2003. Pigment cells: a model for the study of organelle transport. Annu. Rev. Cell Dev. Biol. 19:469-91.
19. Noctor, G., Mhamdi, A., Chaouch, S., Han, Y., Neukermans, J., Marquez-Garcia, B., Queval, G. & Foyer, C. H. 2012. Glutathione in plants: an integrated overview. Plant, Cell Environ. 35:454-84.
20. Papageorgiou, G. C., Tsimilli-Michael, M. & Stamatalis, K. 2007. The fast and slow kinetics of chlorophyll a fluorescence induction in plants, algae and cyanobacteria: a viewpoint. Photosynth. Res. 94:275-90.
21. Peled, E., Leu, S., Zarka, A., Weiss, M., Pick, U., Khozin-Goldberg, I. & Boussiba, S. 2011. Isolation of a novel oil globule protein from the green alga Haematococcus pluvialis (Chlorophyceae). Lipids 46:851-61.
22. Peltier, G. & Cournac, L. 2002. Chlororespiration. Annu. Rev. Plant Biol. 53:523-50.
23. Pfannschmidt, T., Allen, J. F. & Oelmuller, R. 2001. Principles of redox control in photosynthesis gene expression. Physiol. Plant. 112:1-9.
24. Pollard, T. D. & Borisy, G. G. 2003. cellular motility driven by assembly and disassembly of actin filaments. Cell 112:453-65.
25. Robenek, H., Hofnagel, O., Buers, I., Robenek, M. J., Troyer, D. & Severs, N. J. 2006. Adipophilin-enriched domains in the ER membrane are sites of lipid droplet biogenesis. J. Cell Sci. 119:4215-24.
26. Romagnoli, S., Cai, G., Faleri, C., Yokota, E., Shimmen, T. & Cresti, M. 2007. Microtubule- and actin filament-dependent motors are distributed on pollen tube mitochondria and contribute differently to their movement. Plant Cell Physiol. 48:345-61.
27. Santos, M. & Mesquita, J. 1984. Ultrastructural Study of Haematococcus lacustris (Girod.) Rostafinski (Volvocales) 1. Some aspects of carotenogenesis. Cytologia 49:215-28.
28. Sato, Y., Wada, M. & Kadota, A. 2001. Choice of tracks, microtubules and/or actin filaments for chloroplast photo-movement is differentially controlled by phytochrome and a blue light receptor. J. Cell Sci. 114:269-79.
29. Schoefs, B., Rmiki, N.-E., Rachadi, J. & Lemoine, Y. 2001. Astaxanthin accumulation in Haematococcus requires a cytochrome P450 hydroxylase and an active synthesis of fatty acids. FEBS Lett. 500:125-8.
30. Steinbrenner, J. & Linden, H. 2003. Light induction of carotenoid biosynthesis genes in the green alga Haematococcus pluvialis: regulation by photosynthetic redox control. Plant Molec. Biol. 52:343-56.
31. Suetsugu, N., Dolja, V. V. & Wada, M. 2010. Why have chloroplasts developed a unique motility system? Plant Signal. Behav. 5:1190-6.
32. Suetsugu, N. & Wada, M. 2007. Phytochrome-dependent photomovement responses mediated by phototropin family proteins in cryptogam plants. Photochem. Photobiol. 83:87-93.
33. Takagi, S. 2003. Actin-based photo-orientation movement of chloroplasts in plant cells. J. Exp. Biol. 206:1963-9.
34. Taylor, J. D. 1992. Does the introduction of a new player, the endoplasmic reticulum, create more or less confusion in understanding the mechanism(s) of pigmentary organelle translocations? Pigm. Cell Res. 5:49-57.
35. Wang, J., Boja, E. S., Tan, W., Tekle, E., Fales, H. M., English, S., Mieyal, J. J. & Chock, P. B. 2001. Reversible glutathionylation regulates actin polymerization in A431 Cells. J. Biol. Chem. 276:47763-6.
36. Wang, B., Zarka, A., Trebst, A. & Boussiba, S. 2003. Astaxanthin accumulation in Haematococcus pluvialis (Chlorophyceae) as an active photoprotective process under high irradiance. J. Phycol. 39:1116-24.
37. Wilson, S. M., Pickett-Heaps, J. D. & West, J. A. 2006. Vesicle transport and the cytoskeleton in the unicellular red alga Glaucosphaera vacuolata. Phycol. Res. 54:15-20.
38. Yong, Y. & Lee, Y. 1991. Do carotenoids play a photoprotective role in the cytoplasm of Haematococcus lacustris (Chlorophyta)? Phycologia 30:257-61.
39. Zhekisheva, M., Boussiba, S., Khozin-Goldberg, I., Zarka, A. & Cohen, Z. 2002. accumulation of oleic acid in Haematococcus pluvialis (Chlorophyceae) under nitrogen starvation or high light is correlated with that of astaxanthin esters. J. Phycol. 38:325-31.
40. Zhekisheva, M., Zarka, A., Khozin-Goldberg, I., Cohen, Z. & Boussiba, S. 2005. Inhibition of astaxanthin synthesis under high irradiance does not abolish triacylglycerol accumulation in the green alga Haematococcus pluvialis (Chlorophyceae). J. Phycol. 41:819-26.