Summary
The cell body and flagellar surfaces of certain green flagellates are covered by non-mineralized scales. Scale structure has been widely used in the systematics of this group of algae commonly known as the Prasinophyceae. The special importance of the flagellar hairs as a taxonomic marker is discussed. We summarize current knowledge about the structure and chemical composition of these scales with emphasis on thecate flagellates. Scales consist mainly of acidic polysaccharides involving unusual 2-keto sugar acids. Glycoproteins as minor components are mainly involved in mediating scale subunit and scale-membrane interactions and species specific glycosylation patterns exist. In thecate prasinophytes the elaboration of 3-deoxy-manno-2-octulosonic acid and galacturonic acid side chains presumably favours a complex of thecal scales with calcium ions and thus extracellular coalescence of the scales to a rigid cell wall. Scales are formed within the Golgi apparatus (GA) and especially in thecate prasinophytes scale formation (i.e., during flagellar regeneration) represents an excellent model system for GA function. Movement of developing scales through the GA requires cisternal progression. Biogenesis of scales involves mainly polysaccharide synthesis, whereas about 50% of the scale-associated glycoproteins are added from a pre-existing pool. Possible functions of prasinophyte scales are briefly discussed.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- Dha:
-
3-deoxy-lyxo-2-heptulosaric acid
- DSA:
-
Datura stramonium agglutinin
- ER:
-
endoplasmic reticulum
- GA:
-
Golgi apparatus
- GNA:
-
Galanthus nivalis agglutinin
- Kdo:
-
3-deoxy-manno-2-octulosonic acid
- MeKdo:
-
3-deoxy-5-O-methyl-manno-2-octulosonic acid
- SDS-PAGE:
-
sodium dodecyl sulphate polyacrylamide gel electrophoresis
References
Aken ME, Pienaar FN (1985) Preliminary investigations on the chemical composition of the scale boundary and cyst wall ofPyramimonas pseudoparkeae (Prasinophyceae). S Afr J Bot 51: 408–416
Becker B, Hard K, Melkonian M, Kamerling JP, Vliegenthart JFG (1989) Identification of 3-deoxy-manno-2-octulosonic acid (Kdo), 3-deoxy-5-O-methyl-manno-2-octulosonic acid and 3-deoxy-lyxo-2-heptulosaric acid in the cell wall (theca) of the green algaTetraselmis striata (Butcher). Eur J Biochem 182: 153–160
—, Becker D, Kamerling JP, Melkonian M (1991) 2-Keto-sugar acids in green flagellates: a chemical marker for prasinophycean scales. J Phycol 27: 498–504
- Lommerse JPM, Melkonian M, Kamerling JP, Vliegenthart JFG (1994) The structure of an acidic trisaccharide component from a cell wall polysaccharide preparation of the green algaTetraselmis striata (Butcher). Carbohydr Res (submitted)
Becker D, Melkonian M (1992) N-linked glycoproteins associated with flagellar scales in a flagellate green alga: characterization of interactions. Eur J Cell Biol 57: 109–116
—, Becker B, Satir P, Melkonian M (1990) Isolation, purification, and characterization of flagellar scales from the green flagellateTetraselmis striata (Prasinophyceae). Protoplasma 156: 103–112
Butcher RW (1959) An introductory account of the smaller algae of the British coastal waters. Part 1: Introduction and Chlorophyceae. Fishery Investigations. Ministry Agriculture Fisheries Food Ser IV 1: 1–74
Chadefaud M (1941) Sur l'organisation et la position systématique des Flagellés du genrePyramidomonas. Rev Scient 79: 113–114
— (1947) Études sur l'organisation de deux Volvocales sédentaires marines:Prasinocladus lubricus etChlorodendron subsalsum. Rev Scient 85: 862–865
Daugbjerg N, Moestrup Ø (1992 a) Fine structure ofPyramimonas cyclotreta sp.nov. (Prasinophyceae) form Northern Foxe Basin, Arctic Canada, with some observations on growth rates. Eur J Protistol 28: 288–298
— — (1992 b) Ultrastructure ofPyramimonas sp.nov. (Prasinophyceae), a species with 16 flagella from northern Foxe Basin, Arctic Canada, including observations on growth rates. Can J Bot 70: 1259–1273
— — (1993) Four new species ofPyramimonas (Prasinophyceae) from arctic Canada including a light and electron microscopic description ofPyramimonas quadrifolia sp.nov. Eur J Phycol 28: 3–16
Domozych DS, Stewart KD, Mattox KR (1981) Development of the cell wall inTetraselmis: role of the Golgi apparatus and extracellular wall assembly. J Cell Sci 52: 351–371
—, Wells B, Shaw PJ (1991) Basket scales of the green alga,Mesostigma viride: chemistry and ultrastructure. J Cell Sci 100: 397–407
— — — (1992) Scale biogenesis in the green alga,Mesostigma viride. Protoplasma 167: 19–32
Driouich A, Faye L, Staehelin A (1993) The plant Golgi apparatus: a factory for complex polysaccharides and glycoproteins. Trend Biochem Sci 18: 210–214
Dunphy WG, Rothman JE (1985) Compartmental organization of the Golgi stack. Cell 42: 13–21
Eikrem W, Throndsen J (1990) The ultrastructure ofBathycoccus gen.nov. andBathycoccus prasinos sp.nov., a non-motile picoplanctic alga (Chlorphyta, Prasinophyceae) from the Mediterrancean and Atlantic. Phycologia 29: 344–350
Ettl H (1983) Chlorophyta I. Phytomonadina. In: Ettl H, Gerloff J, Heynig H, Mollenhauer D (eds) Süßwasserflora von Mittelleuropa, vol 9. G Fischer, Stuttgart
Gooday GW (1971) A biochemical and autoradiographic study of the role of the Golgi bodies in thecal formation inPlatymonas tetrathele. J Exp Bot 22: 959–971
Grunow A, Becker B, Melkonian M (1993) Isolation and characterization of the Golgi apparatus of a flagellate scaly green alga. Eur J Cell Biol 61: 10–20
Guillard RRL, Keller MD, O'Kelly CJ, Floyd GL (1991)Pycnococcus provasolii, gen. et sp. nov., a coccoid prasinoxanthincontaining phytoplankter from the western North Atlantic and Gulf of Mexico. J Phycol 27: 39–47
Hori T, Norris RE, Chihara M (1982) Studies on the ultrastructure and taxonomy of the genusTetraselmis (Prasinophyceae) I. SubgenusTetraselmis. Bot Mag Tokyo 95: 49–61
— — — (1983) Studies on the ultrastructure and taxonomy of the genusTetraselmis (Prasinophyceae) II. SubgenusPrasinocladia. Bot Mag Tokyo 96: 385–392
— — — (1986) Studies on the ultrastructure and taxonomy of the genusTetraselmis (Prasinophyceae) III. SubgenusParviselmis. Bot Mag Tokyo 99: 123–135
Inouye I, Pienaar RN (1984) Light and electron microscope observations onNephroselmis astigmatica sp.nov. (Prasinophyceae). Nord J Bot 4: 409–423
—, Hori T (1991) High speed video analysis of the flagellar beat and swimming patterns of algae: possible evolutionary trends in green algae. Protoplasma 164: 54–69
Kornfeld R, Kornfeld S (1985) Assembly of asparagine linked oligosaccharides. Annu Rev Biochem 54: 631–664
Lewin RA (1958) The cell walls ofPlatymonas. J Gen Microbiol 19: 87–90
McFadden GI, Melkonian M (1986) Golgi apparatus activity and membrane flow during scale biogenesis in the green flagellateScherffelia dubia (Prasinophyceae). I: Flagellar regeneration. Protoplasma 130: 186–198
—, Wetherbee R (1985) Flagellar regeneration and associated scales deposition inPyramimonas gelidicola (Prasinophyceae, Chlorophyta). Protoplasma 128: 31–37
—, Hill DRA, Wetherbee R (1986 a) A study of the genusPyramimonas (Prasinophyceae, Chlorophyta) from southeastern Australia. Nord J Bot 6: 209–234
—, Preisig HR, Melkonian M (1986 b) Golgi apparatus activity and membrane flow during scale biogenesis in the green flagellateScherffelia dubia (Prasinophyceae). II: Cell wall secretion and assembly. Protoplasma 131: 174–184
—, Hill DRA, Wetherbee R (1987) Electron microscopic observations onPyramimonas olivcea N. Carter (Prasinophyceae, Chlorophyta). Phycologia 26: 322–327
Manton I (1966) Observations on scale production inPyramimonas amylifera Conrad. J Cell Sci 1: 429–438
— (1967 a) Further observations on the fine structure ofChrysochromulina chiton with special reference to the haptonema, peculiar Golgi structure and scale production. J Cell Sci 2: 265–272
— (1967 b) Further observations on scale formation inChrysochromulina chiton. J Cell Sci 2: 411–418
Manton I, Parke M (1960) Further observations on small green flagellates with special reference to possible relatives ofChromulina pusilla Butcher. J Mar Biol Assoc UK 39: 275–298
— — (1965) Observations on the fine structure of two species ofPlatymonas with special reference to flagellar scales and the mode of origin of the theca. J Mar Biol Assoc UK 45: 743–754
—, Ettl H (1965) Observations on the fine structure ofMesostigma viride Lauterborn. J Linn Soc Bot 59: 175–184
—, Rayns DG, Ettl H, Parke M (1965) Further observations on green flagellates with scaly flagella: the genusHeteromastix Korshikov. J Mar Biol Assoc UK 45: 241–255
—, Oates K, Gooday G (1973) Further observation on the chemical composition of thecae ofPlatymonas tetrathele West (Prasinophyceae) by means of the X-ray microanalyzer electron microscopy (EMMA). J Exp Bot 24: 223–229
Marchant HJ, Buck KR, Garrison DL, Thomsen HA (1989)Mantoniella in antarctic waters including the description ofM. antarctica sp.nov. (Prasinophyceae). J Phycol 25: 167–174
Marin B, Matzke C, Melkonian M (1993) Flagellar hairs ofTetraselmis (Prasinophyceae): ultrastructural types and intrageneric variation. Phycologia 32: 213–222
Melkonian M (1982) Effect of divalent cations on flagellar scales in the green flagellateTetraselmis cordiformis. Protoplasma 111: 221–233
— (1990) Phylum Chlorophyta. Class Prasinophyceae. In: Margulis M, Corliss JO, Melkonian M, Chapman DJ (eds) Handbook of Protoctista. Jones and Bartlett, Boston, pp 600–607
—, Preisig HR (1986) A light and electron microscopic study ofScherffelia dubia, a new member of the scaly green flagellates (Prasinophyceae). Nord J Bot 6: 235–256
—, Robenek H (1981) Comparative ultrastructure of underlayer scales in four species of the green flagellatePyramimonas: a freeze-fracture and thin section study. Phycologia 20: 365–376
—, McFadden GI, Reize IB, Becker D (1986) Secretion of organic scales in green algae: secretory products are transported through the Golgi apparatus by cisternal progression. Ber Deutsch Bot Ges 99: 263–280
—, Becker B, Becker D (1991) Scale formation in algae. J Electron Microsc Techn 17: 165–178
Mellman I, Simons K (1992) The Golgi complex: In vitro veritas? Cell 68: 829–840
Moestrup Ø (1984) Further studies onNephroselmis and its allies (Prasinophyceae). II.Mamiella gen.nov., Mamiellaceae fam.nov., Mamiellales ord.nov. Nord J Bot 4: 109–121
— (1990) Scale structure inMantoniella squamata, with some comments on the phylogeny of the Prasinophyceae (Chlorophyta). Phycologia 29: 437–442
— (1991) Further studies of presumably primitive green algae, including the description of Pedinophyceae class.nov. andResultor gen.nov. J Phycol 27: 119–133
—, Ettl H (1979) A light and electron microscopical study of the flagellateNephroselmis olivacea (Prasinophyceae). Opera Bot 49: 1–39
—, Hill DRA (1991) Studies on the genusPyramimonas (Prasinophyceae) from Australian and European waters:P. propulsa sp.nov. andP. mitra sp.nov. Phycologia 30: 534–546
— — (1993) Reconstruction of the flagellar surface armour inPyramimonas mantoniae sp.nov. andP. mitra Moestrup et Hill (Prasinophyceae). Phycologia 32: 59–67
—, Thomsen HA (1974) An ultrastructural study of the flagellatePyramimonas orientalis with particular emphasis on Golgi apparatus activity and the flagellar apparatus. Protoplasma 81: 247–269
—, Throndsen J (1988) Light and electron microscopical studies onPseudoscourfieldia marina, a primitive scaly green flagellate (Prasionphyceae) with posterior flagella. Can J Bot 66: 1415–1434
—, Walne PL (1979) Studies on scale morphogenesis in the Golgi apparatus ofPyramimonas tetrarhynchus (Prasinophyceae). J Cell Sci 36: 437–459
Morré DJ, Mollenhauer HH (1974) The endomembrane concept: a functional integration of endoplasmic reticulum and Golgi apparatus. In: Robards AW (ed) Dynamic aspects of plant ultrastructure. McGraw-Hill, London, pp 84–137
Nilsson T, Pypaert M, Hoe MH, Slusarewicz P, Berger EG, Warren G (1993) Overlapping distribution of two glycosyltransferases in the Golgi apparatus of HeLa cells. J Cell Biol 120: 5–13
Norris RE, Hori T, Chihara M (1980) Revision of the genusTetraselmis (Class Prasinophyceae). Bot Mag Tokyo 93: 317–339
Parke M, Hartog-Adams I (1965) Three species ofHalosphaera. J Mar Biol Assoc UK 45: 537–557
—, Manton I (1965) Preliminary observations on the fine structure ofPrasinocladus miranus. J Mar Biol Assoc UK 45: 525–536
— — (1967) The specific identity of the algal symbiontinConvoluta roscoffensis. J Mar Biol Assoc UK 47: 445–464
—, Rayns DG (1964) Studies on marine flagellates VII.Nephroselmis gilva sp.nov. and some allied forms. J Mar Biol Assoc UK 44: 209–217
Pennick NC (1984) Comparative ultrastructure and occurrence of scales inPyramimonas (Chlorophyta, Prasinophyceae). Arch Protistenk 128: 3–11
—, Clarke KJ, Belcher JH (1978) Studies of the external morphology ofPyramimonas 1.P. orientalis and its allies in culture. Arch Protistenk 120: 304–311
Pienaar RN, Aken ME (1985) The ultrastructure ofPyramimonas pseudoparkeae sp.nov. (Prasinophyceae) form South Africa. J Phycol 21: 428–447
Reize IB, Belkonian M (1987) Flagellar regeneration in the scaly green flagellateTetraselmis striata (Prasinophyceae): regeneration kinetics and effect of inhibitors. Helgol Meeresunters 41: 149–164
Roberts K, Grief C, Hills GJ, Shaw PJ (1985) Cell wall glycoproteins: structure and function. J Cell Sci 2 [Suppl]: 105–127
Roth J (1991) Localization of glycosylation sites in the Golgi apparatus using immunolabeling and cytochemistry. J Electron Microsc Tech 17: 121–131
Rothman JE, Orci L (1992) Molecular dissection of the secretory pathway. Nature 355: 409–415
Sym SD, Pienaar RN (1991) Light and electron microscopy of a punctate species ofPyramimonas, P. mucifera sp.nov. (Prasinophyceae). J Phycol 27: 277–290
Throndsen J (1988)Cymbomonas Schiller (Prasinophyceae) reinvestigated by light and electron microscopy. Arch Protistenk 136: 327–336
Velasco A, Hendricks L, Moremen KW, Tulsiani DRP, Touster O, Farquhar MG (1993) Cell type-dependent variations in the subcellular distribution of α-mannosidase I and II. J Cell Biol 122: 39–51
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Becker, B., Marin, B. & Melkonian, M. Structure, composition, and biogenesis of prasinophyte cell coverings. Protoplasma 181, 233–244 (1994). https://doi.org/10.1007/BF01666398
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01666398