Abstract
Bikaverin is a reddish pigment produced by different fungal species, most of them from the genus Fusarium, with antibiotic properties against certain protozoa and fungi. Chemically, bikaverin is a polyketide with a tetracyclic benzoxanthone structure, resulting from the activity of a specific class I multifunctional polyketide synthase and subsequent group modifications introduced by a monooxygenase and an O-methyltransferase. In some fungi, bikaverin is found with smaller amounts of a precursor molecule, called norbikaverin. Production of these metabolites by different fungal species depends on culture conditions, but it is mainly affected by nitrogen availability and pH. Regulation of the pathway has been investigated in special detail in the gibberellin-producing fungus Fusarium fujikuroi, whose genes and enzymes responsible for bikaverin production have been recently characterized. In this fungus, the synthesis is induced by nitrogen starvation and acidic pH, and it is favored by other factors, such as aeration, sulfate and phosphate starvation, or sucrose availability. Some of these inducing agents increase mRNA levels of the enzymatic genes, organized in a coregulated cluster. The biological properties of bikaverin include antitumoral activity against different cancer cell lines. The diverse biological activities and the increasing information on the biochemical and genetic basis of its production make bikaverin a metabolite of increasing biotechnological interest.
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References
Avalos J, Cerdá-Olmedo E (1987) Carotenoid mutants of Gibberella fujikuroi. Curr Genet 25:1837–1841
Balan J, Fuska J, Kuhr I, Kuhrová V (1970) Bikaverin, an antibiotic from Gibberella fujikuroi, effective against Leishmania brasiliensis. Folia Microbiol 15:479–484
Barrero AF, Sánchez JF, Oltra JE, Tamayo N, Cerdá-Olmedo E, Candau R, Avalos J (1991) Fusarin C and 8Z-Fusarin C from Gibberella fujikuroi. Phytochemistry 30:2259–2263
Bekaert A, Andrieux J, Plat M (1992) New total synthesis of bikaverin. Tetrahedron Lett 33:2805–2806
Bell AA, Wheeler MH, Liu J, Stipanovic RD, Puckhaber LS, Orta H (2003) United States Department of Agriculture-Agricultural Research Service studies on polyketide toxins of Fusarium oxysporum f sp vasinfectum: potential targets for disease control. Pest Manag Sci 59:736–747
Bertram PG, Choi JH, Carvalho J, Ai W, Zeng C, Chan TF, Zheng XF (2000) Tripartite regulation of Gln3p by TOR, Ure2p, and phosphatases. J Biol Chem 275:35727–35733
Betina V, Janstová D, Spisiaková J (1975) Effects of antibiotics on the life cycle of Neurospora crassa. Folia Microbiol 110:340–345
Brase S, Encinas A, Keck J, Nising CF (2009) Chemistry and biology of mycotoxins and related fungal metabolites. Chem Rev 109:3903–3990
Brewer D, Arsenault GP, Wright C, Vining LC (1973) Production of bikaverin by Fusarium oxysporum and its identity with lycopersin. J Antibiot 26:778–781
Brown DW, Butchko RA, Busman M, Proctor RH (2007) The Fusarium verticillioides FUM gene cluster encodes a Zn(II)2Cys6 protein that affects FUM gene expression and fumonisin production. Eukaryot Cell 6:1210–1218
Bu’lock JD, Detroy RW, Hostálek Z, Munim-al-Shakarchi A (1974) Regulation of secondary biosynthesis in Gibberella fujikuroi. Trans Br Mycol Soc 62:377–389
Candau R, Avalos J, Cerdá-Olmedo E (1992) Regulation of gibberellin biosynthesis in Gibberella fujikuroi. Plant Physiol 100:1184–1188
Chavez-Parga MC, González-Ortega O, Negrete-Rodríguez MXL, Galindo-Vallarino I, González-Alatorre G, Escamilla-Silva EM (2008) Kinetic of the gibberellic acid and bikaverin production in an airlift bioreactor. Process Biochem 43:855–860
Chelkowski J, Zajkowski P, Visconti A (1992) Bikaverin production of Fusarium species. Mycotoxin Res 8:73–76
Choi YE, Brown JA, Williams CB, Canales LL, Shim WB (2008) GAC1, a gene encoding a putative GTPase-activating protein, regulates bikaverin biosynthesis in Fusarium verticillioides. Mycologia 100:701–709
Cornforth JW, Ryback G, Robinson PM, Park D (1971) Isolation and characterization of a fungal vacuolation factor (bikaverin). J Chem Soc 16:2786–2788
Corrochano LM (2007) Fungal photoreceptors: sensory molecules for fungal development and behaviour. Photochem Photobiol Sci 6:725–736
Costa V, Moradas-Ferreira P (2001) Oxidative stress and signal transduction in Saccharomyces cerevisiae: insights into ageing, apoptosis and diseases. Mol Aspects Med 22:217–246
Cox RJ, Simpson TJ (2009) Fungal type I polyketide synthases. Methods Enzymol 459:49–78
De Boer JJ, Bright D, Dallings GTG, Hewitt TG (1971) Crystal and molecular structure of the chloroform solvate of bikaverin. J Chem Soc 16:2788–2791
Estrada AF, Avalos J (2008) The White Collar protein WcoA of Fusarium fujikuroi is not essential for photocarotenogenesis, but is involved in the regulation of secondary metabolism and conidiation. Fung Genet Biol 45:705–718
Estrada AF, Avalos J (2009) Regulation and targeted mutation of opsA, coding for the NOP-1 opsin orthologue in Fusarium fujikuroi. J Mol Biol 387:59–73
Fuska J, Proska B, Fuskova A (1975) New potential cytotoxic and antitumor substances. I. In vitro effect of bikaverin and its derivatives on cells of certain tumors. Neoplasma 22:335–338
Giordano W, Domenech CE (1999) Aeration affects acetate destination in Gibberella fujikuroi. FEMS Microbiol Lett 180:111–116
Giordano W, Avalos J, Cerdá-Olmedo E, Domenech CE (1999) Nitrogen availability and production of bikaverin and gibberellins in Gibberella fujikuroi. FEMS Microbiol Lett 173:389–393
Henderson JF, Battell ML, Zombor G, Fuska J, Nemec P (1977) Effects of bikaverin on purine nucleotide synthesis and catabolism in Ehrlich ascites tumor cells in vitro. Biochem Pharmacol 26:1973–1977
Hidaka H, Nagatsu T, Takeya K (1969) Fusaric acid, a hypotensive agent produced by fungi. J Antibiot 22:228–230
Jefferys EG (1970) The gibberellin fermentation. Adv Appl Microbiol 13:283–315
Jones A, Pharis RP (1987) Production of gibberellins and bikaverin by cells of Gibberella fujikuroi immobilized in carrageenan. J Ferment Technol 65:717–722
Kim H-Y, Choi GJ, Lee HB, Lee S-W, Lim HK, Jang KS, Son SW, Lee SO (2007) Some fungal endophytes from vegetable crops and their antioomycete activities against tomato late blight. Lett Appl Microbiol 44:332–227
Kitagawa A, Sugihara Y, Okumura M, Kawai K, Hamasaki T (1997) Reexamination of respiration-impairing effect of bikaverin on isolated mitochondria. Cereal Res Commun 25:451–452
Kjaer D, Kjaer A, Pedersen C, Bu’lock JD, Smith JR (1971) Bikaverin and norbikaverin, benzoxanthentrione pigments of Gibberella fujikuroi. J Chem Soc [Perkin 1] 16:2792–2797
Kohut G, Olah B, Adam AL, Garcia-Martinez J, Hornok L (2010) Adenylyl cyclase regulates heavy metal sensitivity, bikaverin production and plant tissue colonization in Fusarium proliferatum. J Basic Microbiol 50:59–71
Kovac L, Bohmerova E, Fuska J (1978) Inhibition of mitochondrial functions by the antibiotics bikaverin and duclauxine. J Antibiot 31:616–620
Kreitman G, Nord FF (1949) Lycopersin, pigment of Fusarium lycopersici. Arch Biochem 21:457–458
Kwon HR, Son SW, Han HR, Choi GJ, Jang KS, Choi YH, Lee S, Sung ND, Kim J-C (2007) Nematicidal activity of bikaverin and fusaric acid isolated from Fusarium oxysporum against pine wood nematode, Bursaphelenchus xylophilus. Plant Pathol J 23:318–321
Linnemannstöns P, Schulte J, Prado MM, Proctor RH, Avalos J, Tudzynski B (2002) The polyketide synthase gene pks4 from Gibberella fujikuroi encodes a key enzyme in the biosynthesis of the red pigment bikaverin. Fungal Genet Biol 37:134–148
Ma SM, Zhan J, Watanabe K, Xie X, Zhang W, Wang CC, Tang Y (2007) Enzymatic synthesis of aromatic polyketides using PKS4 from Gibberella fujikuroi. J Am Chem Soc 129:10642–10643
Marasas WFO, Wehner FC, van Rensburg SJ, van Schalkwyk DJ (1981) Mycoflora of corn produced in human esophageal cancer areas in Transkei, Southern Africa. Phytopathology 71:792–796
McInnes AG, Walter JA, Smith DG, Wright JLC, Vining LC (1976) Biosynthesis of bikaverin in Fusarium oxysporum—use of 13C nuclear magnetic resonance with homonuclear 13C decoupling to locate adjacent 13C labels. J Antibiot 29:1050–1057
Medentsev AG, Akimenko VK (1998) Naphthoquinone metabolites of the fungi. Phytochemistry 47:935–959
Medentsev AG, Arinbasarova AI, Akimenko VK (2005) Biosynthesis of naphthoquinone pigments by fungi of the genus Fusarium. Appl Biochem Microbiol 41:573–577
Norred WP, Plattner RD, Vesonder RF, Bacon CW, Voss KA (1992) Effects of selected secondary metabolites of Fusarium moniliforme on unscheduled synthesis of DNA by rat primary hepatocytes. Food Chem Toxicol 30:233–237
Osman M, Valadon LRG (1984) Fungistatic naphthoquinones of Verticillium agaricinum. Trans Br Mycol Soc 82:713–714
Park D, Robinson PM (1964) Isolation and bioassay of a fungal morphogen. Nature 203:988–989
Prado MM, Prado-Cabrero A, Fernández-Martin R, Avalos J (2004) A gene of the opsin family in the carotenoid gene cluster of Fusarium fujikuroi. Curr Genet 46:47–58
Prado-Cabrero A, Estrada AF, Al-Babili S, Avalos J (2007) Identification and biochemical characterization of a novel carotenoid oxygenase: elucidation of the cleavage step in the Fusarium carotenoid pathway. Mol Microbiol 64:448–460
Richard JL (2007) Some major mycotoxins and their mycotoxicoses—an overview. Int J Food Microbiol 119:3–10
Robinson PM (1972) Isolation and characterization of a branching factor produced by Fusarium oxysporum. Trans Br Mycol Soc 59:320–322
Rodríguez-Ortiz R, Limón MC, Avalos J (2009) Regulation of carotenogenesis and secondary metabolism by nitrogen in wild-type Fusarium fujikuroi and carotenoid-overproducing mutants. Appl Environ Microbiol 75:405–413
Rodríguez-Ortiz R, Mehta BJ, Avalos J, Limón MC (2010) Stimulation of bikaverin production by sucrose and by salt starvation in Fusarium fujikuroi. Appl Microbiol Biotechnol 85:1991–2000
Ruiz-Roldán MC, Garre V, Guarro J, Mariné M, Roncero MI (2008) Role of the white collar 1 photoreceptor in carotenogenesis, UV resistance, hydrophobicity, and virulence of Fusarium oxysporum. Eukaryot Cell 7:1227–1230
Sánchez-Fernández R, Avalos J, Cerdá-Olmedo E (1997) Inhibition of gibberellin biosynthesis by nitrate in Gibberella fujikuroi. FEBS Lett 413:35–39
Schönig B, Brown DW, Oeser B, Tudzynski B (2008) Cross-species hybridization with Fusarium verticillioides microarrays reveals new insights into Fusarium fujikuroi nitrogen regulation and the role of AreA and NMR. Eukaryot Cell 7:1831–1846
Shukla R, Chand S, Srivastava AK (2005) Improvement of gibberellic acid production using a model based fed-batch cultivation of Gibberella fujikuroi. Process Biochem 40:2045–2050
Son SW, Kim HY, Choi GJ, Lim HK, Jang KS, Lee SO, Lee S, Sung ND, Kim JC (2008) Bikaverin and fusaric acid from Fusarium oxysporum show antioomycete activity against Phytophthora infestans. J Appl Microbiol 104:692–698
Suzuki T, Kitawaga A, Kawai K, Hamasaki T (1998) Reexamination of respiratory-impairing effect on isolated mitochondria. Mycotoxin Res 14:19–27
Teichert S, Rutherford JC, Wottawa M, Heitman J, Tudzynski B (2008) Impact of ammonium permeases mepA, mepB, and mepC on nitrogen-regulated secondary metabolism in Fusarium fujikuroi. Eukaryot Cell 7:187–201
Teichert S, Schonig B, Richter S, Tudzynski B (2004) Deletion of the Gibberella fujikuroi glutamine synthetase gene has significant impact on transcriptional control of primary and secondary metabolism. Mol Microbiol 53:1661–1675
Teichert S, Wottawa M, Schonig B, Tudzynski B (2006) Role of the Fusarium fujikuroi TOR kinase in nitrogen regulation and secondary metabolism. Eukaryot Cell 5:1807–1819
Terashima N, Ishida M, Hamasaki T, Hatsuda Y (1972) Isolation of bikaverin from Mycogone jaapii. Phytochemistry 11:2880
Tudzynski B (2005) Gibberellin biosynthesis in fungi: genes, enzymes, evolution, and impact on biotechnology. Appl Microbiol Biotechnol 66:597–611
Valadon LRG, Chapman DJ (1983) The naphthoquinones (fungal vacuolation factor) of Verticillium agaricinum. Microbios Lett 24:115–119
Wiemann P, Willmann A, Straeten M, Kleigrewe K, Beyer M, Humpf HU, Tudzynski B (2009) Biosynthesis of the red pigment bikaverin in Fusarium fujikuroi: genes, their function and regulation. Mol Microbiol 72:931–946
Yu JH, Butchko RA, Fernandes M, Keller NP, Leonard TJ, Adams TH (1996) Conservation of structure and function of the aflatoxin regulatory gene aflR from Aspergillus nidulans and Aspergillus flavus. Curr Genet 29:549–555
Zhan J, Burns AM, Liu MX, Faeth SH, Gunatilaka AA (2007) Search for cell motility and angiogenesis inhibitors with potential anticancer activity: beauvericin and other constituents of two endophytic strains of Fusarium oxysporum. J Nat Prod 70:227–232
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Limón, M.C., Rodríguez-Ortiz, R. & Avalos, J. Bikaverin production and applications. Appl Microbiol Biotechnol 87, 21–29 (2010). https://doi.org/10.1007/s00253-010-2551-1
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DOI: https://doi.org/10.1007/s00253-010-2551-1