Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Ostin, N. Ilic, J.D. Cohen (1999)
An In Vitro System from Maize Seedlings for Tryptophan-Independent Indole-3-Acetic Acid BiosynthesisPlant Physiol., 119
N.S. Yokoya, W.A. Stirk, J. Staden, O. Novak, V. Tureckova, A. Pencík, M. Strnad (2010)
Endogenous Cytokinins, Auxins, and Abscisic Acid in Red Algae from BrazilJ. Phycol., 46
E.R. Tarakhovskaya, Yu.I. Maslov, M.F. Shishova (2007)
Phytohormones in AlgaeRuss. J. Plant Physiol., 54
R.C. Reed, S.R. Brady, G.K. Muday (1998)
Inhibition of Auxin Movement from the Shoot into the Root Inhibits Lateral Root Development in ArabidopsisPlant Physiol., 118
W. Hartung (2010)
The Evolution of Abscisic Acid (ABA) and ABA Function in Lower Plants, Fungi and LichenFunct. Plant Biol., 37
N.S. Yokoya, W. Handro (1996)
Effects of Auxins and Cytokinins on Tissue Culture of Grateloupia dichotoma (Gigartinales, Rhodophyta)Hydrobiology, 326/327
C.A. Helliwell, P.M. Chandler, A. Poole, E.S. Dennis, W.J. Peacock (2001)
The CYP88A Cytochrome P450, ent-Kaurenoic Acid Oxidase, Catalyzes Three Steps of the Gibberellin Biosynthesis PathwayProc. Natl. Acad. Sci. USA, 98
W.A. Stirk, O. Novak, M. Strnad, J. Staden (2003)
Cytokinins in MacroalgaePlant Growth Regul., 41
Yu.V. Ershov (2005)
Methylerythritol Phosphate (Non-Mevalonate) Pathway for the Biosynthesis of IsoprenoidsUsp. Biol. Khim., 45
C. Delker, A. Raschke, M. Quint (2008)
Auxin Dynamics: The Dazzling Complexity of a Small Molecule’s MessagePlanta, 227
L. Lin, R.X. Tan (2011)
Cross-Kingdom Actions of Phytohormones: A Functional Scaffold ExplorationChem. Rev., 111
S. Spaepen, J. Vanderleyden, R. Remans (2007)
Indole-3-Acetic Acid in Microbial and Microorganism-Plant SignalingFEMS Microbiol. Rev., 31
T.P. Sun, Y. Kamiya (1994)
The Arabidopsis GA1 Locus Encodes the Cyclase ent-Kaurene Synthetase A of Gibberellin BiosynthesisPlant Cell, 6
A.K. Cowan, P.D. Rose (1991)
Abscisic Acid Metabolism in Salt-Stressed Cells of Dunaliella salina. Possible Interrelationship with β-Carotene AccumulationPlant Physiol., 97
J.D. Cohen, J.P. Slovin, A.M. Hendrickson (2003)
Two Genetically Discrete Pathways Convert Tryptophan to Auxin: More Redundancy in Auxin BiosynthesisTrends Plant Sci., 8
P.E. Jameson (1993)
Plant Hormones in the AlgaeProg. Phycol. Res, 9
V. Ördög, W.A. Stirk, J. Staden, O. Novák, M. Strnad (2004)
Endogenous Cytokinins in Three Genera of Microalgae from the ChlorophytaJ. Phycol., 40
K. Nimura, H. Mizuta (2002)
Inducible Effects of Abscisic Acid on Sporophyte Discs from Laminaria japonica Areschoug (Laminariales, Phaeophyceae)J. Appl. Phycol., 14
R.C. Jennings (1969)
Cytokinins as Endogenous Growth Regulators in the Algae Ecklonia (Phaeophyta) and Hypnea (Rhodophyta)Aust. J. Biol. Sci., 22
M.C. Mok, R.C. Martin, D.W.S. Mok (2000)
Cytokinins: Biosynthesis Metabolism and PerceptionIn Vitro Cell Dev. Biol. — Plant, 36
P. Hedden, W.M. Proebsting (1999)
Analysis of Gibberellin BiosynthesisPlant Physiol., 119
I. Baroli, K.K. Niyogi (2000)
Molecular Genetics of Xanthophyll-Dependent Photoprotection in Green Algae and PlantsPhil. Trans. R. Soc. London, 355
V.M. Sponsel (2001)
The Deoxyxylulose Phosphate Pathway for the Biosynthesis of Plastidic Isoprenoids: Early Days in Our Understanding of the Early Stages of Gibberellin BiosynthesisJ. Plant Growth Regul., 20
S. Lau, N. Shao, R. Bock, G. Jürgens, I. Smet (2009)
Auxin Signaling in Algal Lineages: Fact or Myth?Trends Plant Sci., 14
Y. Zhao (2010)
Auxin Biosynthesis and Its Role in Plant DevelopmentAnnu. Rev. Plant Biol., 61
H. Lijun (2006)
The Auxin Concentration in Sixteen Chinese Marine AlgaeChinese J. Oceanol. Limnol., 24
J. Schwender, M. Seemann, H.K. Lichtenthaler, M. Rohmers (1996)
Biosynthesis of Isoprenoids (Carotenoids, Sterols, Prenyl Side-Chains of Chlorophylls and Plastoquinone) via a Novel Pyruvate/Glyceraldehyde 3-Phosphate Nonmevalonate Pathway in the Green Alga Scenedesmus obliquusBiochem. J., 316
T.J. Cooke, D.B. Poli, A.E. Sztein, J.D. Cohen (2002)
Evolutionary Patterns in Auxin ActionPlant Mol. Biol., 49
H. Kasahara, A. Hanada, T. Kuzuyama, M. Takagi, Y. Kamiya, S. Yamaguchi (2002)
Contribution of the Mevalonate and Methylerythritol Phosphate Pathways to the Biosynthesis of Gibberellins in ArabidopsisJ. Biol. Chem., 277
S. Swaminathan, R.M. Bock (1977)
Subcellular Localization of Cytokinins in Transfer Ribonucleic AcidPlant Physiol., 59
P.M. Bradley (1991)
Plant Hormones Do Have a Role in Controlling Growth and Development of AlgaeJ. Phycol., 27
Q. Jin, P. Scherpa, K. Heimannb, K.H. Hasenstein (2008)
Auxin and Cytoskeletal Organization in AlgaeCell Biol. Int., 32
V.V. Polevoi, E.R. Tarakhovskaya, Yu.I. Maslov, A.V. Polevoi (2003)
Role of Auxin in Induction of Polarity in Fucus vesiculosus ZygotesRuss. J. Develop. Biol., 34
P. García-Jiménez, M. Rodrigo, R.R. Robaina (1998)
Influence of Plant Growth Regulators, Polyamines and Glycerol Interaction on Growth and Morphogenesis of Carposporelings of Grateloupia doryphora Cultured In VitroJ. Appl. Phycol., 10
A.J. Cutler, J.E. Krochko (1999)
Formation and Breakdown of ABATrends Plant Sci., 4
R. Benjamins, B. Scheres (2008)
Auxin: The Looping Star in Plant DevelopmentAnnu. Rev. Plant Biol., 59
H.E. Gruen (1959)
Auxins and FungiAnnu. Rev. Plant Physiol., 10
N. Tominaga, M. Takahata, H. Tominaga (1993)
Effects of NaCl and KNO3 Concentrations on the Abscisic Acid Content of Dunaliella sp. (Chlorophyta)Hydrobiology, 267
C.-M. Chen (1997)
Cytokinin Biosynthesis and InterconversionPhysiol. Plant., 101
W.P. Jacobs (1993)
A Search for Some Angiosperm Hormones and Their Metabolites in Caulerpa paspaloides (Chlorophyta)J. Phycol., 29
S. Yamaguchi, T. Saito, H. Abe, H. Yamane, N. Murofushi (1996)
Molecular Cloning and Characterization of a cDNA Encoding the Gibberellin Biosynthetic Enzyme ent-Kaurene Synthase B from Pumpkin (Cucurbita maxima L.)Plant J., 10
R.C. Jennings (1968)
Gibberellins as Endogenous Growth Regulators in Green and Brown AlgaePlanta, 80
J. Schwender, C. Gemünden, H.K. Lichtenthaler (2001)
Chlorophyta Exclusively Use the 1-Deoxyxylulose 5-Phosphate/2-C-Methylerythritol 4-Phosphate Pathway for the Biosynthesis of IsoprenoidsPlanta, 212
P. Hedden, Y. Kamiya (1997)
Gibberellin Biosynthesis: Enzymes, Genes and Their RegulationAnnu. Rev. Plant Physiol. Plant Mol. Biol., 48
E. Glawischnig, T. Adriana, W. Eisenreich, P. Spiteller, A. Bacher, A. Gierl (2000)
Auxin Biosynthesis in Maize KernelsPlant Physiol., 123
M. Seo, T. Koshiba (2002)
Complex Regulation of ABA Biosynthesis in PlantsTrends Plant Sci., 7
Y. Yamamoto, N. Kamiya, Y. Morinaka, M. Matsuoka, T. Sazuka (2007)
Auxin Biosynthesis by the YUCCA Genes in RicePlant Physiol., 143
M. Radley (1961)
Gibberellin-Like Substances in PlantsNature, 191
A. Bajguz (2009)
Brassinosteroid Enhanced the Level of Abscisic Acid in Chlorella vulgaris Subjected to Short Term Heat StressJ. Plant Physiol., 166
R. Zhang, B. Wang, J. Ouyang, J. Li, Y. Wang (2008)
Arabidopsis Indole Synthase, a Homolog of Tryptophan Synthase Alpha, Is an Enzyme Involved in the Trp-Independent Indole-Containing Metabolite BiosynthesisJ. Integr. Plant Biol., 50
K. Ljung, A.K. Hull, M. Kowalczyk, A. Marchant, J. Celenza, J.D. Cohen, G. Sandberg (2002)
Biosynthesis, Conjugation, Catabolism and Homeostasis of Indole-3-Acetic Acid in Arabidopsis thalianaPlant Mol. Biol., 49
C.A. Helliwell, J.A. Sullivan, R.M. Mould, J.C. Gray, W.J. Peacock, E.S. Dennis (2001)
A Plastid Envelope Location of Arabidopsis ent-Kaurene Oxidase Links the Plastid and Endoplasmic Reticulum Steps of the Gibberellin Biosynthesis PathwayPlant J., 28
M. Kobayashi, N. Hirai, Y. Kurimura, H. Ohigashi, Y. Tsuji (1997)
Abscisic Acid Dependent Morphogenesis in the Unicellular Green Alga Haematococcus pluvialisPlant Growth Regul., 22
B. Bartel (1997)
Auxin BiosynthesisAnnu. Rev. Plant Physiol. Plant Mol. Biol., 48
R. Tobena-Santamaria, M. Bliek, K. Ljung, G. Sandberg, E. Souer, R. Koes (2002)
FLOOZY of Petunia Is a Flavin Mono-Oxygenase-Like Protein Required for the Specification of Leaf and Flower ArchitectureGenes Dev., 16
J.W. Chandler (2009)
Local Auxin Production: A Small Contribution to a Big FieldBioEssays, 31
S. Basu, H. Sun, L. Brian, R.L. Quatrano, G.K. Muday (2002)
Early Embryo Development in Fucus distichus Is Auxin SensitivePlant Physiol., 130
Like in the case of higher plants, algal growth and development are controlled by the hormonal regulatory system. Essentially all known phytohormones were identified in various algal taxa, and the range of their physiological activities was confirmed. At the same time, our knowledge of enzymes involved in the phytohormone synthesis in algae is rather limited. Data concerning genes encoding these enzymes are still more fragmentary. Current data about proteomes of some algae allow the revealing of amino acid sequences with homology to those of the higher plant enzymes and their conserved domains.
Russian Journal of Plant Physiology – Springer Journals
Published: Aug 16, 2012
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.