Biomineralization Within Vesicles: The Calcite of Coccoliths

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214 Young & HenriksenInouye I, Pienaar RN (1984) New observations on the coccolithophorid Umbilicosphaera sibogae var.foliosa (Prymnesiophyceae) with reference to cell covering, cell structure and flagellar apparatus. BrPhycol J 19:357-369Inouye I, Pienaar RN (1988) Light and electron microscope observations of the type species ofSyracosphaera, S. pulchra (Prymnesiophyceae). Br Phycol J 23:205-217Kamptner E (1954) Untersuchungen über den Feinbau der Coccolithen. Anz öst Akad Wiss Mathematisch-Naturwissenschaftliche Klasse 87:152-158Kirschvink JL, Hagadorn JW (2000) A grand unified theory of biomineralization. In: Biomineralization:from Biology to Biotechnology and Medical Application. Bäuerlein E (ed) Wiley-VCH, Weinheim, p139-149Klaveness D (1973) The microanatomy of Calyptrosphaera sphaeroidea, with some supplementaryobservations on the motile stage of Coccolithus pelagicus. Norw J Bot 20:151-162Klaveness D (1976) Emiliania huxleyi (Lohmann) Hay & Mohler. III. Mineral deposition and the origin ofthe matrix during coccolith formation. Protistologica 12:214-224Kleijne A (1991) Holococcolithophorids from the Indian Ocean, Red Sea, Mediterranean Sea and NorthAtlantic Ocean. Mar Micropaleontol 17:1-76Kleijne A (1992) Extant Rhabdosphaeraceae (coccolithophorids, class Prymnesiophyceae) from the IndianOcean, Red Sea, Mediterranean Sea and North Atlantic Ocean. Scr Geol 100:1-63Mann S (1993) Molecular tectonics in biomineralization and biomimetic materials chemistry. Nature365:499-505Manton I, Leedale GF (1963) Observations on the microanatomy of Crystallolithus hyalinus Gaarder andMarkali. Arch Mikrobiol 47:115-136Manton I, Leedale GF (1969) Observations on the microanatomy of Coccolithus pelagicus andCricosphaera carterae, with special reference to the origin and nature of coccoliths and scales. J MarBiol Ass U K 49: 1-16Manton I, Oates K (1975) Fine-structural observations on Papposphaera Tangen from the SouthernHemisphere and on Pappomonas gen. nov. from South Africa and Greenland. Br Phycol J 10:93-109Manton I, Oates K (1980) Polycrater galapagensis gen. et sp. nov., a putative coccolithophorid from theGalapagos Islands with an unusual aragonitic periplast. Br Phycol J 15:95-103Marsh ME (1994) Polyanion-mediated mineralization—assembly and reorganization of acidicpolysaccharides in the Golgi system of a coccolithophorid alga during mineral deposition.Protoplasma 177:108-122Marsh ME (1999) Coccolith crystals of Pleurochrysis carterae: Crystallographic faces, organization anddevelopment. Protoplasma 207:54-66Marsh ME (2000) Polyanions in the CaCO 3 mineralization of coccolithophores. In: Biomineralization:from Biology to Biotechnology and Medical Application. Bäuerlein E (ed) Wiley-VCH, Weinheim, p251-268Marsh ME, Chang D, King GC (1992) Isolation and characterization of a novel acidic polysaccharidecontaining tartrate and glyoxylate residues from the mineralized scales of a unicellularcoccolithophorid alga Pleurochrysis carterae. J Biol Chem 267:20507-20512Marsh ME, Dickinson DP (1997) Polyanion mediated mineralization—mineralization in coccolithophore(Pleurochrysis carterae) variants which do not express PS2, the most abundant and acidic mineralassociatedpolyanion in wild-type cells. Protoplasma 199:9-17Marsh ME, Ridall AL, Azadi P, Duke PJ (2002) Glacturonomannan and Golgi-derived membrane linked togrowth and shaping of biogenic calcite. J Struct Biol 139:39-45Medlin LK, Kooistra WHCF, Potter D, Saunders JB, Andersen RA (1997) Phylogenetic relationships of the"golden algae" (haptophytes, heterokont chromophytes) and their plastids. Pl Syst Evol Suppl 11:187-219Noël M-H, Kawachi M, Inouye I (in press) Induced dimorphic life cycle of a coccolithophorid,Calyptrosphaera sphaeroidea. J PhycolOutka DE, Williams DC (1971) Sequential coccolith morphogenesis in Hymenomonas carterae. JProtozool 18:285-297Ozaki N, Sakuda S, Nagasawa H (2001) Isolation and some characterization of an acidic polysaccharidewith anti-calcification activity from coccoliths of a marine alga, Pleurochrysis carterae. BiosciBiotechnol Biochem 65:2330-2333Paasche E (2002) A review of the coccolithophorid Emiliania huxleyi (Prymnesiophyceae), with particularreference to growth, coccolith formation, and calcification-photosynthesis interactions. Phycologia40:503-529Parke M, Adams I (1960) The motile (Crystallolithus hyalinus Gaarder & Markali) and non-motile phasesin the life history of Coccolithus pelagicus (Wallich) Schiller. J Mar Biol Ass U K 39:263-274
Biomineralization Within Vesicles 215Pienaar RN (1994) Ultrastructure and calcification of coccolithophores. In: Coccolithophore. Winter A,Siesser WG (eds) Cambridge University Press, Cambridge, p 13-37Prins B (1969) Evolution and stratigraphy of cocolithinids from the Lower and Middle Lias. In: FirstInternational Conference Planktonic Microfossils, Vol. 2. Bronnimann P, Renz HH (eds) Geneva, E.J. Brill, Leiden, p 547-558Romein AJT (1979) Lineages in Early Paleogene calcareous nannoplankton. Utrecht Micropaleontol Bull22:1-231Rowson JD, Leadbeater BSC, Green JC (1986) Calcium carbonate deposition in the motile(Crystallolithus) phase of Coccolithus pelagicus (Prymnesiophyceae). Br Phycol J 21:359-370Sáez AG, Probert I, Geisen M, Quinn P, Young JR, Medlin LK (2003) Pseudo-cryptic speciation incoccolithophores. Proc Natn Acad Sci USA 100:7163-7168Sáez AG, Probert I, Young JR, Medlin LK (in press) A review of the phylogeny of the Haptophyta. In:Coccolithophores - From Molecular Processes to Global Impact. Thierstein HR, Young JR (eds)Springer, HeidelbergSprengel C, Young JR (2000) First direct documentation of associations of Ceratolithus cristatusceratoliths, hoop-coccoliths and Neosphaera coccolithomorpha planoliths. Mar Micropaleontol39:39-41Stipp SLS, Eggelston CM, Nielsen BS (1994) Calcite surface structure observed at microtopographic andmolecular scales with atomic force microscopy (AFM). Geochim Cosmochin Acta 58:3023-3033Stipp SLS (1999) Toward a conceptual model of the calcite surface: Hydration, hydrolysis and surfacepotential. Geochim Cosmochim Acta 63:3121-3131Thierstein HR, Young JR (in press) Coccolithophores - From molecular processes to global impact,Springer, Heidelbergvan Emburg PR, de Jong EW, Daems W Th (1986) Immunochemical localization of a polysaccharide frombiomineral structures (coccoliths) of Emiliania huxleyi. J Ultrastruct Molecular Struct Res 94:246-259van der Wal P, de Jong EW, Westbroek P, de Bruijn WC, Mulder-Stapel AA (1983) Polysaccharidelocalization, coccolith formation, and Golgi dynamics in the coccolithophorid Hymenomonascarterae. J Ultrastr Res 85:139-158Westbroek P, Brown CW, van Bleijswijk J, Brownlee C, Brummer G-JA, Conte M, Egge JK, Fernandez E,Jordan RW, Knappersbusch M, Stefels J, Veldhuis MJW, van der Wal P, Young JR (1993) A modelsystem approach to biological climate forcing. The example of Emiliania huxleyi. Global PlanetaryChange 8:27-46Westbroek P, Young JR, Linschooten K (1989) Coccolith production (Biomineralization) in the marinealga Emiliania huxleyi. J Protozool 36:368-373Wilbur KM, Watabe N (1963) Experimental studies on calcification in molluscs and the alga Coccolithushuxleyi. Ann N Y Acad Sci 109:82-112Young JR (1989) Observations on heterococcolith rim structure and its relationship to developmentalprocesses. In: Nannofossils and Their Applications. Crux JA, Heck SEV (eds) Ellis Horwood,Chichester, p 1-20Young JR (1992) The description and analysis of coccolith structure. In: Nannoplankton Research.Hamrsmid B, Young JR (eds) ZPZ, Knihovnicha, p 35-71Young JR (1998) Neogene. In: Calcareous Nannofossil Biostratigraphy. Bown PR (ed) Chapman & Hall,London, p 225-265Young JR, Bown PR (1991) An ontogenetic sequence of coccoliths from the Late Jurassic KimmeridgeClay of England. Palaeontology 34:843-850Young JR, Bown PR (1997) Higher classification of calcareous nannofossils. J Nannoplankton Res 19:15-20Young JR, Davis SA, Bown PR, Mann S (1999) Coccolith ultrastructure and biomineralization. J StructBiol 126:195-215Young JR, Didymus JM, Bown PR, Prins B, Mann S (1992) Crystal assembly and phylogenetic evolutionin heterococcoliths. Nature 356:516-518Young JR, Henriksen K, Probert I (in press) Structure and morphogenesis of the coccoliths of theCODENET species. In: Coccolithophores—From Molecular Processes to Global Impact. ThiersteinHR, Young JR (eds) Springer, HeidelbergYoung JR, Jordan RW, Cros L (1998) Notes on nannoplankton systematics and life-cycles—Ceratolithuscristatus, Neosphaera coccolithomorpha and Umbilicosphaera sibogae. J Nannoplankton Res 20:89-99
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