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3 - Xanthophylls

Published online by Cambridge University Press:  05 March 2012

Edited by
Suzanne Roy ,
Carole A. Llewellyn ,
Einar Skarstad Egeland  and
Geir Johnsen
Suzanne Roy
Affiliation:
Université du Québec à Rimouski, Canada
Carole A. Llewellyn
Affiliation:
Plymouth Marine Laboratory
Einar Skarstad Egeland
Affiliation:
University of Nordland, Norway
Geir Johnsen
Affiliation:
Norwegian University of Science and Technology, Trondheim
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Summary

HPLC chromatogram of Chroomonas salina (system 1)

Type
Chapter
Information
Phytoplankton Pigments
Characterization, Chemotaxonomy and Applications in Oceanography
 , pp. 728 - 822
Publisher: Cambridge University Press
Print publication year: 2011

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References

Aakermann, T.Skulberg, O. M.Liaaen-Jensen, S. 1992 A comparison of the carotenoids of strains of and (Cyanobacteria)Biochem. Syst. Ecol 20 761CrossRefGoogle Scholar
Aasen, A. J.Liaaen-Jensen, S. 1966 The carotenoids of flexibacteria II. A new xanthophyll from Acta Chem. Scand 20 811CrossRefGoogle Scholar
Aasen, A. J.Liaaen-Jensen, S. 1966 Carotenoids of flexibacteria. IV. The carotenoids of two further pigment typesActa Chem. Scand 20 2322CrossRefGoogle ScholarPubMed
Acemoglu, M.Uebelhart, P.Rey, M.Eugster, C. H. 1988 Synthese von enantiomerenreinen Violaxanthinen und verwandten VerbindungenHelv. Chim. Acta 71 931CrossRefGoogle Scholar
Airs, R. L.Llewellyn, C. A. 2006 Improved detection and characterization of fucoxanthin-type carotenoids: novel pigments in (Prymnesiophyceae)J. Phycol 42 391CrossRefGoogle Scholar
Airs, R. L.Atkinson, J. E.Keely, B. J. 2001 Development and application of a high resolution liquid chromatographic method for the analysis of complex pigment distributionsJ. Chromatogr. A 917 167CrossRefGoogle ScholarPubMed
Arpin, N.Svec, W. A.Liaaen-Jensen, S. 1976 New fucoxanthin-related carotenoids from Phytochemistry 15 529CrossRefGoogle Scholar
Australian National Algae Culture Collectionhttp://www.cmar.csiro.au/microalgae/
Baumeler, A.Eugster, C. H. 1992 Synthese von (6,all-)-Neoxanthin und verwandten Allen-CarotinoidenHelv. Chim. Acta 75 773CrossRefGoogle Scholar
Baumeler, A.Zerbe, O.Kunz, R.Eugster, C. H. 1994 (6, 9')-Neoxanthin: Synthese, Schmelzverhalten, Spektren und KonformationsberechnungenHelv. Chim. Acta 77 909CrossRefGoogle Scholar
Bazzaz, M. B. 1981 New chlorophyll and chromophores isolated from a mutant of LNaturwissenschaften 68 94CrossRefGoogle Scholar
Bazzaz, M. B. 1981 New chlorophyll chromophores isolated from a chlorophyll-deficient mutant of maizePhotobiochem. Photobiophys 2 199Google Scholar
Bazzaz, M. B. 1982 4-Vinyl-4-desethyl chlorophyll : Characterisation of a new naturally occurring chlorophyll using fast atom bombardment, field desorption and ‘in beam’ electron impact mass spectrometryTetrahedron Lett 23 1211CrossRefGoogle Scholar
Bindl, E.Lang, W.Rau, W. 1970 Untersuchungen über die lichtabhängige Carotinoidsynthese VI. Zeitlicher Verlauf der Synthese der einzelnen Carotinoide bei Fusarium aquaeductuum unter verschiedenen InduktionsbedingungenPlanta (Berl.) 94 156CrossRefGoogle Scholar
Bjerkeng, B. 1990 Havbruksrelatert carotenoidkjemiTrondheimNorges Tekniske HøgskoleGoogle Scholar
Bjerkeng, B.Haugan, J. A.Liaaen-Jensen, S. 1991 Microalgal carotenoids and chemosystematics: updating the PrymnesiophyceaeBiol. Oceanogr 6 271Google Scholar
Bjørnland, T. 1982 Chlorophylls and carotenoids of the marine alga Phytochemistry 21 1715CrossRefGoogle Scholar
Bjørnland, T. 1990 Chromatographic separation and spectrometric characterization of native carotenoids from the marine dinoflagellate Biochem. Syst. Ecol 18 307CrossRefGoogle Scholar
Bjørnland, T.Aguilar-Martinez, M. 1976 Carotenoids in red algaePhytochemistry 15 291CrossRefGoogle Scholar
Bjørnland, T.Borch, G.Liaaen-Jensen, S. 1984 Configurational studies on red algae carotenoidsPhytochemistry 23 1711CrossRefGoogle Scholar
Bjørnland, T.Fiksdahl, A.Skjetne, T.Krane, J.Liaaen-Jensen, S. 2000 Gyroxanthin – the first allenic acetylenic carotenoidTetrahedron 56 9047CrossRefGoogle Scholar
Bjørnland, T.Guillard, R. R. L.Liaaen-Jensen, S. 1988 sp. clone 677–3 – a tropical marine planktonic prymnesiophyte with fucoxanthin and 19’-acyloxyfucoxanthins as chemosystematic carotenoid markersBiochem. Syst. Ecol 16 445CrossRefGoogle Scholar
Bjørnland, T.Liaaen-Jensen, S.Throndsen, J. 1989 Carotenoids of the marine chrysophyte Phytochemistry 28 3347CrossRefGoogle Scholar
Bjørnland, T.Pereira, C.Liaaen-Jensen, S.Guillard, R. R. L.Bidigare, R. R. 1987
Bjørnland, T.Tangen, K. 1979 Pigmentation and morphology of a marine (Dinophyceae) with a major carotenoid different from peridinin and fucoxanthinJ. Phycol 15 457CrossRefGoogle Scholar
Boardman, N. K.Thorne, S. W. 1971 Sensitive fluorescence method for the determination of chlorophyll /chlorophyll ratiosBiochim. Biophys. Acta 253 222CrossRefGoogle ScholarPubMed
Breemen, R. B. v.Canjura, F. L.Schwartz, S. J. 1991 Identification of chlorophyll derivatives by mass spectroscopyJ. Agric. Food Chem 39 1452CrossRefGoogle Scholar
Breemen, R. B. v.Schmitz, H. H.Schwartz, S. J. 1995 Fast atom bombardment tandem mass spectrometry of carotenoidsJ. Agric. Food Chem 43 384CrossRefGoogle Scholar
Brereton, R. G.Bazzaz, M. B.Santikarn, S.Williams, D. H. 1983 Positive and negative ion fast atom bombardment mass spectrometric studies on chlorophylls: structure of 4-vinyl-4-desethyl chlorophyll Tetrahedron Lett 24 5775CrossRefGoogle Scholar
Britton, G.Goodwin, T. W.Harriman, G. E.Lockley, W. J. S. 1977 Carotenoids of the ladybird beetle, Insect Biochem 7 337CrossRefGoogle Scholar
Britton, G.Liaaen-Jensen, S.Pfander, H. 2004
Buchecker, R.Liaaen-Jensen, S.Eugster, C. H. 1976 Reinvestigation of original taraxanthin samplesHelv. Chim. Acta 59 1360CrossRefGoogle Scholar
Buchecker, R.Liaaen-Jensen, S.Borch, G.Siegelman, H. W. 1976 Carotenoids of , structures of caloxanthin and nostoxanthinPhytochemistry 15 1015CrossRefGoogle Scholar
Buchwald, M.Jencks, W. P. 1968 Optical properties of astaxanthin solutions and aggregatesBiochemistry 7 834CrossRefGoogle ScholarPubMed
Chapman, D. J. 1966 Three new carotenoids isolated from algaePhytochemistry 5 1331CrossRefGoogle Scholar
Chapman, D. J.Haxo, F. T. 1963 Identity of ɛ-carotene and ɛ1-carotenePlant Cell Physiol 4 57CrossRefGoogle Scholar
Cheng, J. Y.Don-Paul, M.Antia, N. J. 1974 Isolation of an unusually stable -isomer of alloxanthin from a bleached autolysed culture of grown photoheterotrophically on glycerol. Observations on isomerization of alloxanthinJ. Protozool 21 761CrossRefGoogle ScholarPubMed
Chereskin, B. M.Wong, Y. -S.Castelfranco, P. A. 1982 synthesis of the chlorophyll isocyclic ringPlant Physiol 70 987CrossRefGoogle ScholarPubMed
Cholnoky, L.Györgyfy, K.Szabolcs, J.Weedon, B. C. L.Waigth, E. S. 1966 FoliaxanthinChem. Commun 13 404Google Scholar
Connolly, J. S.Samuel, E. B.Janzen, A. F. 1982 Effects of solvent on the fluorescence properties of bacteriochlorophyll Photochem. Photobiol 36 565CrossRefGoogle Scholar
Cooper, R. D. G.Davis, J. B.Leftwick, A. P.Price, C.Weedon, B. C. L. 1975 Carotenoids and related compounds. Part XXXII. Synthesis of astaxanthin, phoenicoxanthin, hydroxyechinenone, and the corresponding diosphenolsJ. Chem. Soc., Perkin Trans. 1 1975 2195CrossRefGoogle Scholar
Culture Collection of Algae and Protozoa, Cambridgehttp://www.ccap.ac.uk/
Davies, A. J.Khare, A.Mallams, A. K.Massy-Westropp, R. A.Moss, G. P.Weedon, B. C. L. 1984 Carotenoids and related compounds. Part 38. Synthesis of (3, 3')-alloxanthin and other acetylenesJ. Chem. Soc., Perkin Trans. 12147CrossRefGoogle Scholar
Davies, B. H. 1965 Analysis of carotenoids pigmentsChemistry and Biochemistry of Plant PigmentsGoodwin, T. W.LondonAcademic Press489Google Scholar
Davies, B. H. 1976 CarotenoidsChemistry and Biochemistry of Plant Pigments 2 Goodwin, T. W.LondonAcademic Press38Google Scholar
Davies, B. H. 1979 Solved and unsolved problems of carotenoid formationPure Appl. Chem 51 623CrossRefGoogle Scholar
Egeland, E. S. 1996 Algekarotenoider og kjemosystematikkNorwegian University of Science and TechnologyTrondheimGoogle Scholar
Egeland, E. S.Eikrem, W.Throndsen, J.Wilhelm, C.Zapata, M.Liaaen-Jensen, S.(1995). Carotenoids from further prasinophytesBiochem. Syst. Ecol 23 747 1996CrossRefGoogle Scholar
Egeland, E. S.Garrido, J. L.Zapata, M.Maestro, M. A.Liaaen-Jensen, S. 2000 Algal carotenoids. Part 64. Structure and chemistry of 4-keto-19'-hexanoyloxyfucoxanthin with a novel carotenoid end groupJ. Chem. Soc., Perkin Trans. 1 2000 1223CrossRefGoogle Scholar
Egeland, E. S.Guillard, R. R. L.Liaaen-Jensen, S. 1997 Additional carotenoid prototype representatives and a general chemosystematic evaluation of carotenoids in Prasinophyceae (Chlorophyta)Phytochemistry 44 1087CrossRefGoogle Scholar
Egeland, E. S.Johnsen, G.Eikrem, W.Throndsen, J.Liaaen-Jensen, S. 1995 Pigments of (Prasinophyceae): methodological and chemosystematic implicationsJ. Phycol 31 554CrossRefGoogle Scholar
Egeland, E. S.Liaaen-Jensen, S. 1995 Ten minor carotenoids from Prasinophyceae (Chlorophyta)Phytochemistry 40 515CrossRefGoogle Scholar
Egger, K.Nitsche, H.Kleinig, H. 1969 Diatoxanthin und Diadinoxanthin – Bestandteile des Xanthophyllgemisches von und Phytochemistry 8 1583CrossRefGoogle Scholar
Entschel, R.Karrer, P. 1958 Carotinoidsynthesen XXII. Umsetzungsprodukte des Carotins mit Bromsuccinimid. (Einführung von Äther- und Hydroxyl-Gruppen in den Kohlenwasserstoff.)Helv. Chim. Acta 41 402CrossRefGoogle Scholar
Enzell, C. R.Francis, G. W.Liaaen-Jensen, S. 1969 Mass spectrometric studies of carotenoids 2. A survey of fragmentation reactionsActa Chem. Scand 23 727CrossRefGoogle ScholarPubMed
Eugster, C. H.Karrer, P. 1955 Carotinoidsynthesen XV. Kristallisiertes ,-α-CarotinHelv. Chim. Acta 38 610CrossRefGoogle Scholar
Fawley, M. W. 1989 A new form of chlorophyll  involved in light-harvestingPlant Physiol 91 727CrossRefGoogle ScholarPubMed
Fiksdahl, A.Bjørnland, T.Liaaen-Jensen, S. 1984 Algal carotenoids with novel end groupsPhytochemistry 23 649CrossRefGoogle Scholar
Fiksdahl, A.Foss, P.Liaaen-Jensen, S.Siegelman, H. W. 1983 Carotenoids of blue-green algae – 11. Carotenoids of chromatically-adapted cyanobacteriaComp. Biochem. Physiol 76 599Google Scholar
Fiksdahl, A.Liaaen-Jensen, S. 1988 Diacetylenic carotenoids from Phytochemistry 27 1447CrossRefGoogle Scholar
Fiksdahl, A.Withers, N.Guillard, R. R. L.Liaaen-Jensen, S. 1984 Carotenoids of the Raphidophyceae – a chemosystematic contributionComp. Biochem. Physiol 78 265Google Scholar
Foss, P.Guillard, R. R. L.Liaaen-Jensen, S. 1984 Prasinoxanthin – a chemosystematic marker for algaePhytochemistry 23 1629CrossRefGoogle Scholar
Foss, P.Guillard, R. R. L.Liaaen-Jensen, S. 1986 Carotenoids from eucaryotic ultraplankton clones (Prasinophyceae)Phytochemistry 25 119CrossRefGoogle Scholar
Foss, P.Lewin, R. A.Liaaen-Jensen, S. 1987 The carotenoids of sp. (Prochlorophyta)Phycologia 26 142CrossRefGoogle Scholar
Foss, P.Skulberg, O. M.Kilaas, L.Liaaen-Jensen, S. 1986 The carbohydrate moieties bound to the carotenoids myxol and oscillol and their chemosystematic applicationsPhytochemistry 25 1127CrossRefGoogle Scholar
Francis, G. W.Halfen, L. N. 1972 Cyanophyta. Oscillatoriaceae. γ-Carotene and lycopene in Phytochemistry 11 2347CrossRefGoogle Scholar
Francis, G. W.Hertzberg, S.Andersen, K.Liaaen-Jensen, S. 1970 New carotenoid glycosides from Phytochemistry 9 629CrossRefGoogle Scholar
Ganguly, J.Krinsky, N. I.Pinckard, J. H. 1956 Isolation and nature of echinenone, a provitamin AArch. Biochem. Biophys 60 345CrossRefGoogle ScholarPubMed
Garbers, C. F.Eugster, C. H.Karrer, P. 1953 Carotinoidsynthese XIV. Synthese des γ-CarotinsHelv. Chim. Acta 36 1783CrossRefGoogle Scholar
Garrido, J. L.Otero, J.Maestro, M. A.Zapata, M. 2000 The main nonpolar chlorophyll  from (Prymnesiophyceae) is a chlorophyll 2-monogalactosyldiacylglyceride ester: a mass spectrometry studyJ. Phycol 36 497CrossRefGoogle ScholarPubMed
Garrido, J. L.Rodríguez, F.Zapata, M. 2009 Occurrence of loroxanthin, loroxanthin decenoate, and loroxanthin dodecenoate in species (Prasinophyceae, Chlorophyta)J. Phycol 45 366CrossRefGoogle Scholar
Garrido, J. L.Zapata, M.
Garrido, J. L.Zapata, M.Muñiz, S. 1995 Spectral characterization of new chlorophyll  pigments isolated from (Prymnesiophyceae) by high-performance liquid chromatographyJ. Phycol 31 761CrossRefGoogle Scholar
Gieskes, W. W.Kraay, G. W. 1983 Unknown chlorophyll  derivatives in the North Sea and the tropical Atlantic Ocean revealed by HPLC analysisLimnol. Oceanogr 28 757CrossRefGoogle Scholar
Goericke, R.Repeta, D. J. 1992 The pigments of : The presence of divinyl chlorophyll  and in a marine procaryoteLimnol. Oceanogr 37 425Google Scholar
Goericke, R.Olson, R. J.Shalapyonok, A. 2000 A novel niche for sp. in low-light suboxic environments in the Arabian Sea and the Eastern Tropical North PacificDeep-Sea Res. I 47 1183CrossRefGoogle Scholar
Goericke, R.Strom, S. L.Bell, M. A. 2000 Distribution and sources of cyclic pheophorbides in the marine environmentLimnol. Oceanogr 45 200CrossRefGoogle Scholar
Goodwin, T. W. 1980 The Biochemistry of the Carotenoids, Vol. 1, PlantsLondonChapman and HallCrossRefGoogle Scholar
Goodwin, T. W. 1984 The Biochemistry of the Carotenoids, Vol. 2, AnimalsLondonChapman and HallCrossRefGoogle Scholar
Graham, J. E.Bryant, D. A. 2009 The biosynthetic pathway for myxol-2' fucoside (myxoxanthophyll) in the cyanobacterium sp. strain PCC 7002J. Bacteriol 191 3292CrossRefGoogle ScholarPubMed
Gross, J.Ikan, R.Eckhardt, G. 1983 Carotenoids of the fruit of Phytochemistry 22 1479CrossRefGoogle Scholar
Grung, M.Metzger, P.Liaaen-Jensen, S. 1994 Algal carotenoids 53; secondary carotenoids of algae 4; secondary carotenoids in the green alga , race L, new strainBiochem. Syst. Ecol 22 25CrossRefGoogle Scholar
Hager, A.Stransky, H. 1970 Das Carotinoidmuster und die Verbretung des lichtinduzierten Xanthophyllcyclus in verschiedenen AlgenklassenArch. Mikrobiol 72 68CrossRefGoogle Scholar
Hager, A.Meyer-Bertenrath, T. 1966 Die Isolierung und quantitative Bestimmung der Carotinoide und Chlorophylle von Blättern, Algen und isolierten Chloroplasten mit Hilfe dünnschichtchromatographisher MethodenPlanta (Berl.) 69 198CrossRefGoogle Scholar
Hager, A.Meyer-Bertenrath, T. 1967 Die Identifizierung der an Dünnschichten getrennten Carotinoide grüner Blatter und AlgenPlanta (Berl.) 76 149CrossRefGoogle Scholar
Hager, A.Stransky, H. 1970 Das Carotinoidmuster und die Verbreitung des lichtinduzierten Xanthophyllcyclus in verschiedenen Algenklassen III. GrünalgenArch. Mikrobiol 72 68CrossRefGoogle Scholar
Hager, A.Stransky, H. 1970 Das Carotinoidmuster und die Verbreitung des lichtinduzierten Xanthophyllcyclus in verschiedenen Algenklassen. V. Einzelne Vertreter der Cryptophyceae, Euglenophyceae, Bacillariophyceae, Chrysophyceae und PhaeophyceaeArch. Mikrobiol 73 77CrossRefGoogle Scholar
Halfen, L. N.Francis, G. W. 1972 The influence of culture temperature on the carotenoid composition of the blue-green alga, Arch. Mikrobiol 81 25CrossRefGoogle Scholar
Haugan, J. A.Englert, G.Glinz, E.Liaaen-Jensen, S. 1992 Algal carotenoids. 48. Structural assignments of geometrical isomers of fucoxanthinActa Chem. Scand 46 389CrossRefGoogle Scholar
Haugan, J. A.Liaaen-Jensen, S. 1989 Improved isolation procedure for fucoxanthinPhytochemistry 28 2797CrossRefGoogle Scholar
Haugan, J. A.Liaaen-Jensen, S. 1994 Blue carotenoids. Part 2. The chemistry of the classical colour reaction of common carotenoid 5,6-epoxides with acidActa Chem. Scand 48 152CrossRefGoogle Scholar
Haugan, J. A.Liaaen-Jensen, S. 1994 Total synthesis of acetylenic carotenoids. 2. Synthesis of (all-)-(3,3')-diatoxanthin and (all-)-(3)-7,8-didehydrocryptoxanthinActa Chem. Scand 48 899CrossRefGoogle Scholar
Helfrich, M.Ross, A.King, Garry C.Turner, A. G.Larkum, A. W. D. 1999 Identification of [8-vinyl]-protochlorophyllide  in phototrophic procaryotes and algae: chemical and spectroscopic propertiesBiochim. Biophys. Acta 1410 262CrossRefGoogle Scholar
Hertzberg, S.Liaaen-Jensen, S. 1969 The structure of myxoxanthophyllPhytochemistry 8 1259CrossRefGoogle Scholar
Hertzberg, S.Liaaen-Jensen, S. 1969 The structure of oscillaxanthinPhytochemistry 8 1281CrossRefGoogle Scholar
Hiyama, T.Nishimura, M.Chance, B. 1969 Determination of carotenes by thin-layer chromatographyAnal. Biochem 29 339CrossRefGoogle ScholarPubMed
Holt, A. S.Morley, H. V. 1959 A proposed structure for chlorophyll Can. J. Chem 37 507CrossRefGoogle Scholar
Hynninen, P. H.Lötjönen, S. 1983 Large-scale preparation of crystalline (10)-chlorophylls  and Synthesis 9 705CrossRefGoogle Scholar
Hynninen, P. H. 1973 Chlorophylls IV. Preparation and purification of some derivatives of chlorophylls  and Acta Chem. Scand 27 1771CrossRefGoogle Scholar
Hynninen, P. H. 1991 Chemistry of chlorophylls: modificationsChlorophyllsScheer, H.Boca RatonCRC Press145Google Scholar
Hynninen, P. H.Lötjönen, S. 1980 Preparation of phorbin derivatives from chlorophyll mixture utilizing the principle of selective hydrolysisSynthesis 1980 539CrossRefGoogle Scholar
Hyvärinen, K.Hynninen, P. H. 1999 Liquid chromatographic separation and mass spectrometric identification of chlorophyll  allomersJ. Chromatogr. A 837 107CrossRefGoogle Scholar
Isler, O.Lindlar, H.Montavon, M.Rüegg, R.Zeller, P. 1956 Synthesen in der Carotinoid-Reihe. 1. Mitteilung. Die technische Synthese von β-CarotinHelv. Chim. Acta 39 249CrossRefGoogle Scholar
Jeffrey, S. W. 1969 Properties of two spectrally different components in chlorophyll  preparationsBiochim. Biophys. Acta 177 456CrossRefGoogle Scholar
Jeffrey, S. W. 1972 Preparation and some properties of crystalline chlorophyll 1 and 2 from marine algaeBiochim. Biophys. Acta 279 15CrossRefGoogle ScholarPubMed
Jeffrey, S. W.Haxo, F. T. 1968 Photosynthetic pigments of dinoflagellates (zooxanthellae) from corals and clamsBiol. Bull 135 149CrossRefGoogle Scholar
Jeffrey, S. W.Humphrey, G. F. 1975 New spectrophotometric equations for determining chlorophylls , , 1 and 2 in higher plants, algae and natural phytoplanktonBiochem. Physiol. Pflanzen 167 191CrossRefGoogle Scholar
Jeffrey, S. W.Lorenzen, C. J.Jeffrey, S. W.Mantoura, R. F. C.Bjørnland, T. 1997 Data for the identification of 47 key phytoplankton pigmentsPhytoplankton Pigments in Oceanography: Guidelines to Modern MethodsParisUNESCO Publishing449Google Scholar
Jeffrey, S. W.Mantoura, R. F. C.Bjørnland, T. 1997 Data for the identification of 47 key phytoplankton pigmentsPhytoplankton Pigments in Oceanography: Guidelines to Modern MethodsJeffrey, S. W.Mantoura, R. F. C.Wright, S. W.ParisUNESCO Publishing449Google Scholar
Jeffrey, S. W.Wright, S. W. 1987 A new spectrally distinct component in preparations of chlorophyll  from the micro-alga (Prymnesiophyceae)Biochim. Biophys. Acta 894 180CrossRefGoogle Scholar
Jensen, A.Aasmundrud, O. 1963 Paper chromatographic characterization of chlorophyllsActa Chem. Scand 17 907CrossRefGoogle Scholar
Johansen, J. E.Svec, W. A.Liaaen-Jensen, S.Haxo, F. T. 1974 Carotenoids of the DinophyceaePhytochemistry 13 2261CrossRefGoogle Scholar
Karrer, P.Eugster, C. H.Tobler, E. 1950 Synthesen von Carotinoidfarbstoffen III. Totalsynthese des LycopinsHelv. Chim. Acta 33 1349CrossRefGoogle Scholar
Karrer, P.Rutschmann, J. 1942 Auroxanthin, ein kurzwellig absorbierender CarotinfarbstoffHelv. Chim. Acta 25 1624CrossRefGoogle Scholar
Kjøsen, H.Norgård, S.Liaaen-Jensen, S.Svec, W. A.Strain, H. H.Wegfahrt, P.Rapoport, H.Haxo, F. T. 1976 Algal carotenoids. XV. Structural studies on peridinin. Part 2. Supporting evidenceActa Chem. Scand 30 157CrossRefGoogle Scholar
Kleinig, H.Nitsche, H.Egger, K. 1969 The structure of siphonaxanthinTetrahedron Lett 59 5139CrossRefGoogle Scholar
Kleinig, H.Heumann, W.Meister, W.Englert, G. 1977 Carotenoids of . I. New Carotenoids from Helv. Chim. Acta 60 254CrossRefGoogle Scholar
Krane, J.Aakermann, T.Liaaen-Jensen, S. 1992 Algal carotenoids 47 – NMR study of all--peridinin, including complete 1H and 13C NMR assignmentsMagn. Res. Chem 30 1169CrossRefGoogle Scholar
Krinsky, N. I.Goldsmith, T. H. 1960 The carotenoids of the flagellated alga, Arch. Biochem. Biophys 91 271CrossRefGoogle Scholar
Liaaen-Jensen, S. 1998 Carotenoids in biosynthesisCarotenoids, Vol. 3: BiosynthesisBritton, G.Liaaen-Jensen, S.Pfander, H.BaselBirkhäuser217Google Scholar
Lichtenthaler, H. K. 1987 Chlorophylls and carotenoids: pigments of photosynthetic biomembranesMeth. Enzymol 148 350CrossRefGoogle Scholar
Loeblich, A. R.Smith, V. E. 1968 Chloroplast pigments of the marine dinoflagellate Lipids 3 5CrossRefGoogle Scholar
Lohr, M.Wilhelm, C. 1999 Algae displaying the diadinoxanthin cycle also possess the violaxanthin cycleProc. Natl. Acad. Sci. USA 96 8784CrossRefGoogle ScholarPubMed
Lorenzen, C. J.Jeffrey, S. W. 1980
Lötjönen, S.Hynninen, P. H. 1983 An improved method for the preparation of (10)- and (10)-pheophytins  and Synthesis 1983 708CrossRefGoogle Scholar
Marchand, P. S.Rüegg, R.Schwieter, U.Siddons, P. T.Weedon, B. C. L. 1965 Cartenoids and related compounds. Part XI. Synthesis of δ-carotene and ɛ-caroteneJ. Chem. Soc 46 2019CrossRefGoogle Scholar
Märki-Fischer, F.Buchecker, R.Eugster, C. H.Englert, G.Noack, K.Vecchi, M. 1982 Absolute Konfiguration von Antheraxanthin, ‘-Antheraxanthin’ und der diastereomeren MutatoxanthineHelv. Chim. Acta 65 2198CrossRefGoogle Scholar
Mayer, H.Rüttimann, A. 1980 Synthese von optisch aktiven, natürlichen Carotinoiden und strukturell verwandten Naturprodukten IV. Synthese von (3,3',6')-LuteinHelv. Chim. Acta 63 1451CrossRefGoogle Scholar
Miyashita, H.Ikemoto, H.Kurano, N.Adachi, K.Chihara, M.Miyachi, S. 1996 Chlorophyll  as a major pigmentNature 383 402CrossRefGoogle Scholar
Nitsche, H. 1970 Reaktionen an fucoxanthin I. Überführung in diadinochrom und diatoxanthinTetrahedron Lett 11 4913CrossRefGoogle Scholar
Otsuki, A.Kaneda, Y.Hashimoto, S. 1993 Identification and significance of pyrochlorins in fecal pellets of the marine malacostracan crustaceans and Mar. Biol 115 463CrossRefGoogle Scholar
Partali, V.Olsen, Y.Foss, P.Liaaen-Jensen, S. 1985 Carotenoids in food chain studies – I. Zooplankton () response to a unialgal () carotenoid diet, to spinach, and to yeast diets supplemented with individual carotenoidsComp. Biochem. Physiol 82 767Google Scholar
Pennington, F. C.Haxo, F. T.Borch, G.Liaaen-Jensen, S. 1985 Carotenoids of CryptophyceaeBiochem. Syst. Ecol 13 215CrossRefGoogle Scholar
Pennington, F. C.Strain, H. H.Svec, W. A.Katz, J. J. 1964 Preparation and properties of pyrochlorophyll , methyl pyrochlorophyllide , pyropheophytin , and methyl pyropheophorbide  derived from chlorophyll by decarbomethoxylationJ. Am. Chem. Soc 86 1418CrossRefGoogle Scholar
Petracek, F. J.Zechmeister, L. 1956 Reaction of β-carotene with N-bromosuccinimide: The formation and conversions of some polyene ketonesJ. Am. Chem. Soc 78 1427CrossRefGoogle Scholar
Pfeifhofer, H. W.Grill, D. 1984 Carotinoide in Fichtennadeln 1. Qualitative UntersuchungenPhyton 24 283Google Scholar
Roberts, D. W. A. 1969 The quantitation of pheophorbide , pyropheophorbide , and their estersCan. J. Biochem 47 721CrossRefGoogle ScholarPubMed
Rønneberg, H.Foss, P.Ramdahl, T.Borch, G.Skulberg, O. M.Liaaen-Jensen, S. 1980 Occurrence and chirality of oscillaxanthinPhytochemistry 19 2167CrossRefGoogle Scholar
Sasa, T.Takaichi, S.Hatakeyama, N.Watanabe, M. M. 1992 A novel carotenoid ester, loroxanthin dodecenoate, from (Prasinophyceae) and a chlorarachniophycean algaPlant Cell Physiol 33 921Google Scholar
Sauer, K.Smith, J. R. L.Schultz, A. J. 1966 The dimerization of chlorophyll , chlorophyll  and bacteriochlorophyll in solutionJ. Am. Chem. Soc 88 2681CrossRefGoogle Scholar
Scheer, H. 2006 An overview of chlorophylls and bacteriochlorophylls: biochemistry, biophysics, functions and applicationsChlorophylls and bacteriochlorophylls: Biochemistry, biophysics and applicationsGrimm, B.Porra, R. J.Rüdiger, W.Scheer, H.. DordrechtSpringer1Google Scholar
Schlüter, L.Lutnaes, B. F.Liaaen-Jensen, S.Garde, K.Kaas, H.Jameson, I.Blackburn, S. 2008 Correlation of the content of hepatotoxin nodularin and glycosidic carotenoids, 4-ketomyxol-2′-fucoside and novel 1′--methyl-4-ketomyxol-2′-fucoside, in 20 strains of the cyanobacterium Biochem. Syst. Ecol 36 749CrossRefGoogle Scholar
Schwieter, U.Bolliger, H. R.Chopard-dit-Jean, I. H.Englert, G.Kofler, M.König, A.Planta, C. v.Rüegg, R.Vetter, W.Isler, O. 1965 Synthesen in der Carotinoid-Reihe. 19. Mitteilung: Physikalische Eigenschaften der CarotinoideChimia 19 294Google Scholar
Schwieter, U.Englert, G.Rigassi, N.Vetter, W. 1969 Physical organic methods in carotenoid researchPure Appl. Chem 20 365CrossRefGoogle ScholarPubMed
SCOR WG 78 data inJeffrey, S. W.Mantoura, R. F. C.Bjørnland, T. 1997 Data for the idenfication of 47 key phytoplankton pigmentsPhytoplankton Pigments in Oceanography: Guidelines to Modern MethodsJeffrey, S. W.Mantoura, R. F. C.Wright, S. W.ParisUNESCO Publishing449Google Scholar
Smallidge, R. L.Quackenbush, F. W. 1973 β,β–carotene-2,3,3'-triol: a new carotenoids in Phytochemistry 12 2481CrossRefGoogle Scholar
Smith, J. H. C.Benitez, A. 1955 Chlorophylls: Analysis in plant materialsModern Methods of Plant AnalysisPaech, K.Tracey, M. V.BerlinSpringer142Google Scholar
Strain, H. H. 1938 Leaf xanthophyllsWashington Carnegie Institution of WashingtonGoogle Scholar
Strain, H. H.Cope, B. T.Svec, W. A. 1971 Analytical procedures for the isolation, identification, estimation, and investigation of the chlorophyllsMeth. Enzymol 23 452CrossRefGoogle Scholar
Strain, H. H.Svec, W. A.Wegfahrt, P.Rapoport, H.Haxo, F. T.Norgård, S.Kjøsen, H.Liaaen-Jensen, S. 1976 Algal carotenoids. XIV. Structural studies on peridinin. Part 1. Structure elucidationActa Chem. Scand 30 B 109CrossRefGoogle Scholar
Strand, A.Kvernberg, K.Karlsen, A. M.Liaaen-Jensen, S. 2000 Geometrical / isomers of (6)- and (6)-neoxanthin and biological implicationsBiochem. Syst. Ecol 28 443CrossRefGoogle Scholar
Stransky, H.Hager, A. 1970 Das Carotinoidmuster und die Verbreitung des lichtinduzierten Xanthophyllcyclus in verschiedenen Algenklassen. II. XanthophyceaeArch. Mikrobiol 71 164CrossRefGoogle Scholar
Stransky, H.Hager, A. 1970 Das Carotinoidmuster und die Verbreitung des lichtinduzierten Xanthophyllcyclus in verschiedenen Algenklassen IV. Cyanophyceae und RhodophyceaeArch. Mikrobiol 72 84CrossRefGoogle Scholar
Strom, S. L. 1993 Production of pheopigments by marine protozoa: results of laboratory experiments analysed by HPLCDeep-Sea Res. I 40 57CrossRefGoogle Scholar
Surmatis, J. D.Walser, A.Gibas, J.Schwieter, U.Thommen, R. 1970 New methods for the synthesis of oxygenated carotenoidsHelv. Chim. Acta 53 974CrossRefGoogle ScholarPubMed
Suzuki, T.Midonoya, H.Shioi, Y. 2009 Analysis of chlorophylls and their derivatives by master-assisted laser desorption/ionization-time-of-flight mass spectrometryAnal. Biochem 390 57CrossRefGoogle Scholar
Tămaş, V.Bodea, C. 1970 TiCl4-Carotenoid complexes. VIII Cyclization of lycopene and δ-caroteneRevue Roumaine Chimie 15 819Google Scholar
Takaichi, S.Mimuro, M. 1998 Distribution and geometric isomerism of neoxanthin in oxygenic phototrophs: 9'-, a sole molecular formPlant Cell Physiol 39 968CrossRefGoogle Scholar
Takaichi, S.Mochimaru, M.Maoka, T.Katoh, H. 2005 Myxol and 4-ketomyxol 2′-fucosides, not rhamnosides, from sp. PCC 7120 and PCC 73102, and proposal for the biosynthetic pathway of carotenoidsPlant Cell Physiol 46 497CrossRefGoogle Scholar
Takaichi, S.Shimada, K. 1992 Characterization of carotenoids in photosynthetic bacteriaMeth. Enzymol 213 374CrossRefGoogle Scholar
Tomo, T.Suzuki, T.Hirano, E.Tsuchiya, T.Miyashita, H.Dohmae, N.Mimuro, M. 2006 Reversible absorption change of chlorophyll  in solutionsChem. Phys. Lett 423 282CrossRefGoogle Scholar
The microbial culture collection cataloge for National Institute for Environmental Studieshttp://mcc.nies.go.jp/localeAction.do?lang=en
The Plymouth Culture Collection of Marine Algaehttp://www.mba.ac.uk/culturecollection.php
The Provasoli-Guillard National Center for Culture of Marine Phytoplankton cataloguehttp://ccmp.bigelow.org/
Traber, B.Pfander, H. 1996 Synthesis of (all-,2,2')-oscillolHelv. Chim. Acta 79 499CrossRefGoogle Scholar
Tsuchiya, T.Takaichi, S.Misawa, N.Maoka, T.Miyashita, H.Mimuro, M. 2005 The cyanobacterium PCC 7421 uses bacterial-type phytoene desaturase in carotenoid biosynthesisFEBS Lett 579 2125CrossRefGoogle ScholarPubMed
Valadon, L. R. G.Mummery, R. S. 1967 Carotenoids of certain Compositae flowersPhytochemistry 6 983CrossRefGoogle Scholar
Walker, J. S.Keely, B. J. 2004 Distribution and significance of chlorophyll derivatives and oxidation products during the spring phytoplankton bloom in the Celtic Sea April 2002Org. Geochem 35 1289CrossRefGoogle Scholar
Walton, T. J.Britton, G.Goodwin, T. W.Diner, B.Moshier, S. 1970 The structure of siphonaxanthinPhytochemistry 9 2545CrossRefGoogle Scholar
Weigl, J. W. 1952 Concerning the absorption spectrum of bacteriochlorophyllJ. Am. Chem. Soc 75 999CrossRefGoogle Scholar
Withers, N. W.Cox, E. R.Tomas, R.Haxo, F. T. 1977 Pigments of the dinoflagellate and its photosynthetic endosymbiontJ. Phycol 13 354Google Scholar
Woolley, P. S.Moir, A. J.Hester, R. E.Keely, B. J. 1998 A comparative study of the allomerization reaction of chlorophyll  and bacteriochlorophyll J. Chem. Soc., Perkin Trans. 2 1998 1833CrossRefGoogle Scholar
Wright, S. W.Jeffrey, S. W. 1987 Fucoxanthin pigment markers of marine phytoplankton analysed by HPLC and HPTLCMar. Ecol. Prog. Ser 38 259CrossRefGoogle Scholar
Yamano, Y.Tode, C.Ito, M. 1995 Carotenoids and related polyenes. Part 3. First total synthesis of fucoxanthin and halocyntiaxanthin using oxo-metallic catalystJ. Chem. Soc., Perkin Trans. 1 1995 1895CrossRefGoogle Scholar
Yoshii, Y 2006 Diversity and evolution of photosynthetic antenna systems in green plantsPhycol. Res 54 220CrossRefGoogle Scholar
Yoshii, Y.Takaichi, S.Maoka, T.Hanada, S.Inouye, I. 2002 Characterization of two unique carotenoids fatty acid esters from (Prasinophyceae, Chlorophyta)J. Phycol 38 297CrossRefGoogle Scholar
Yoshii, Y.Takaichi, S.Maoka, T.Inouye, I. 2003 Photosynthetic pigment composition in the primitive green alga (Prasinophyceae): phylogenetic and evolutionary implicationsJ. Phycol 39 570CrossRefGoogle Scholar
Zapata, M.
Zapata, M.Garrido, J. L.Jeffrey, S. W. 2006 Chlorophyll  pigments: Current statusChlorophylls and Bacteriochlorophylls. Biochemistry, Biophysics, Functions and ApplicationsGrimm, B.Porra, R. J.Rüdiger, W.Scheer, H.DordrechtSpringer39CrossRefGoogle Scholar
Zapata, M.Jeffrey, S. W.Wright, S. W.Rodríguez, F.Garrido, J. L.Clementson, L. 2004 Photosynthetic pigments in 37 species (65 strains) of Haptophyta: implications for oceanography and chemotaxonomyMar. Ecol. Prog. Ser 270 83CrossRefGoogle Scholar
Zechmeister, L.LeRosen, A. L.Schroeder, W. A.Polgár, A.Pauling, L. 1943 Spectral characteristics and configuration of some stereoisomeric carotenoids including prolycopene and pro-γ-caroteneJ. Am. Chem. Soc 65 1940CrossRefGoogle Scholar
Zscheile, F. P.White, J. W.Beadle, B. W.Roach, J. R. 1942 The preparation and absorption spectra of five pure carotenoid pigmentsPlant Physiol 17 331CrossRefGoogle ScholarPubMed

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