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Review Article

Phoma Saccardo: Distribution, secondary metabolite production and biotechnological applications

Mahendra RaiDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, IndiaCorrespondence[email protected] [email protected]
,
Prajakta DeshmukhDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, India
,
Aniket GadeDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, India
,
Avinash IngleDepartment of Biotechnology, SGB Amravati University, Amravati, Maharashtra, India
,
György J. KövicsDebrecen University, Faculty of Agriculture, Department of Plant Protection, Debrecen, Hungary
&
László IrinyiDebrecen University, Faculty of Agriculture, Department of Plant Protection, Debrecen, Hungary
Pages 182-196 | Received 26 Jul 2008, Accepted 17 Apr 2009, Published online: 22 Jul 2009

References

  • Aa, HA, van der Noordeloos, ME, and Gruyter, J de 1990, Species concepts in some genera of the Coelomycetes Studies Mycol 32, 3–19.
  • Abbas, HK, and Duke, SO 1995, Phytotoxins from plant pathogens as potential herbicides J Toxicol Toxin Review 14, 523–543.
  • Abbas, HK, and Duke, SO 1997, Plant pathogens and their phytotoxins as herbicides In: Toxins in Plant Diseases Development and Evolving Biotechnology Upadhyay RK & Mukherjee KG (Eds), 1–20 Oxford and IBH Publishing Co Pvt Ltd, New Delhi.
  • Arie, T, Kobayashi, Y, Okada, G, Kono, Y, and Yamaguchi, I 1998, Control of soil borne clubroot disease of cruciferous plants by epoxydon from Phoma glomerata Plant Pathol 47, 743–748.
  • Arie, T, Kobayashi, Y, Kono, Y, Okada, G, and Yamaguchi, I 1999, Control of clubroot of cruciferous by Phoma glomerata and its product epoxydon Pestic Sci 55, 602–604.
  • Bailey, KL, and Derby, J 2001, Fungal isolates and biological control compositions for the control of weeds US Patent Application Serial No 60/294,475, Field May 20, 2001.
  • Baxter, A, Fitzgerald, BJ, Hutson, JL, McCarthy, AD, Motteram, JM, Ross, BC, Sapra, M, Snowden, MA, and Watson, NS 1992, Squalestatin 1, a potent inhibitor of squalene synthase, which lowers serum cholesterol in vivo J Biol Chem 267(17), 11705–11708.
  • Baxter, CJ, Magan, N, Lane, B, and Wildman, HG 1998, Influence of water activity and temperature on in vitro growth of surface cultures of a Phoma sp, and production of the pharmaceutical metabolites, squalestatin S1 and S2 Appl Microbiol Biotechnol 3, 28–332.
  • Betina, V 1992, Biological effects of the antibiotic brefeldin A (Decumbin, cyanein, ascotoxin, synergisidin): A retrospective Folia Microbiol 37, 3–11.
  • Bhowmik, TP, and Singh, A 1976, Occurrence of Phoma exigua Desm on sunflower Curr Sci 45, 776–777.
  • Bick, IRC, and Rhee, C 1966, Anthraquinone pigments from Phoma foveata Foister Biochemical 98, 112–116.
  • Binder, M, and Tamm, C 1973a, Deoxyphomin des Erste (13)-Cytochalasan, ein möglicher biogenetischer Vorlaufer der 24-Oxa-(14) Cytochalasane Helv Chem Acta 56, 966–977.
  • Binder, M, and Tamm, C 1973b. Proxiphomin und Protophomin, zwei neue Cytochalasane Helv Chem Acta 56, 2387–2396.
  • Birch, AJ, Butler, DN, and Rickards, RW 1964, The structure of the aza-anthraquinone phomazarin Tetrahedron Lett 28, 1853–1858.
  • Boerema, GH 1964, Phoma herbarum Westend, type-species of the form-genus Phoma Sacc Persoonia 3, 9–16.
  • Boerema, GH 1976, The Phoma species studied in culture by Dr RWG Dennis Trans Br Mycol Soc 67, 289–319.
  • Boerema, GH 1984, Mycologisch-taxonomisch onderzoek Echte Ascochyta-sorten (met hyaliene conidien) die pathogeen zijn voor Papilionaceae Ascochyta`s met lichtbruine conidien die pathogeen zijn voor Chenopodiaceae Versl Meded Plziektenk Dienst Wageningen 162, 23–34.
  • Boerema, GH 1985, Mycologisch-taxonomisch onderzoek Bodem-Phoma`s Versl Meded Plziektenk Dienst Wageningen 163, 34–40.
  • Boerema, GH 1986, Mycologisch-taxonomisch onderzoek Een subtropische bodemschimmel die zich ook thuis voelt in onze kassen Versl Meded Plziektenk Dienst Wageningen 164, 28–32.
  • Boerema, GH 1993, Contributions towards a monograph of Phoma (Coelomycetes)—II Section Peyronellaea Persoonia 15, 197–221.
  • Boerema, GH 1997, Contributions towards a monograph of Phoma (Coelomycetes)—V Subdivision of the genus in sections Mycotaxon 64, 321–333.
  • Boerema, GH, and Bollen, GJ 1975, Conidiogenesis and conidial septation as differentiating criteria between Phoma and Ascochyta Persoonia 8, 111–144.
  • Boerema, GH, and Dorenbosch, MMJ 1970, On Phoma macrostomum mont, a ubiquitous species on woody plants Persoonia 6, 49–58.
  • Boerema, GH, and Dorenbosch, MMJ 1973, The Phoma and Ascochyta species described by Wollenweber and Hochapfel in their study on fruit-rotting Studies Mycol 3, 1–50.
  • Boerema, GH, and Gruyter, J de 1998, Contributions towards a monograph of Phoma (Coelomycetes)—VII Section Sclerophomella: Taxa with thick-walled pseudoparenchymatous pycnidia Persoonia 17, 81–95.
  • Boerema, GH, and Gruyter, J de 1999, Contributions towards a monograph of Phoma (Coelomycetes) III—Supplement Additional species of section Plenodomus Persoonia 17, 273–280.
  • Boerema, GH, and Höweler, LH 1967, Phoma exigua Desm, and its varieties Persoonia 5, 15–28.
  • Boerema, GH, and Loerakker, WM 1981, Phoma piskorzii (Petrak) comb nov the anamorph of Leptosphaeria acuta (Fuckel) P Karst Persoonia 11, 311–315.
  • Boerema, GH, and Loerakker, WM 1985, Notes on Phoma 2 Trans Br Mycol Soc 84, 289–302.
  • Boerema, GH, and van Kesteren, HA 1964, The nomenclature of two fungi parasiting Brassica Persoonia 3, 17–28.
  • Boerema, GH, and van Kesteren, HA 1981, Nomenclatural notes on some species of Phoma sect Plenodomus Persoonia 11, 317–331.
  • Boerema, GH, Dorenbosch, MMJ, and van Kesteren, HA 1965, Remarks on species of Phoma referred to Peyronellaea Persoonia 4, 47–68.
  • Boerema, GH, Dorenbosch, MMJ, and van Kesteren, HA 1968, Remarks on species of Phoma referred to Peyronellaea II Persoonia 5, 201–205.
  • Boerema, GH, Dorenbosch, MMJ, and van Kesteren, HA 1971, Remarks on species of Phoma referred to Peyronellaea III Persoonia 6, 171–177.
  • Boerema, GH, Dorenbosch, MMJ, and van Kesteren, HA 1973, Remarks on species of Phoma referred to Peyronellaea IV Persoonia 7, 131–139.
  • Boerema, GH, Dorenbosch, MMJ, and van Kesteren, HA 1977, Remarks on species of Phoma referred to Peyronellaea V Kew Bull 31, 533–544.
  • Boerema, GH, Cruger, G, Gerlach, M, and Nirenberg, H 1981, Phoma exigua var diversispora and related fungi on Phaseolus beans J Plant Dis Prot 88, 597–607.
  • Boerema, GH, Gruyter, J de, and Kesteren, HA van 1994, Contributions towards a monograph of Phoma (Coelomycetes)—III 1 Section Plenodomus: Taxa often with a Leptosphaeria teleomorph Persoonia 15, 431–487.
  • Boerema, GH, Loerakker, WM, and Hamers, MEC 1996, Contributions towards a monograph of Phoma (Coelomycetes)—III 2 Misapplications of type species name and the generic synonyms of section Plenodomus (Excluded species) Persoonia 16, 141–190.
  • Boerema, GH, Gruyter, J de and Noordeloos, ME 1997, Contributions towards a monograph of Phoma (Coelomycetes)—IV Section Heterospora: Taxa with large sized conidial dimorphs, in vivo sometimes as Stagonosporopsis synanamorphs Persoonia 16, 335–371.
  • Boerema, GH, Gruyter, J de, and Graaf, P van de 1999, Contributions towards a monograph of Phoma (Coelomycetes) IV—Supplement An addition to section Heterospora: Phoma schneiderae spec nov, syn anamorph Stagonosporopsis lupini (Boerema and R Schneid) comb nov Persoonia 17, 281–285.
  • Boerema, GH, Gruyter, J de, Noordeloos, ME, and Hamers, MEC 2004, Phoma Identification Manual Differentiation of Species and Infra-Specific Taxa in Culture CABI Publishing, CAB International Wallingford, Oxfordshire, UK.
  • Borges, WS de and Pupo, MT 2006, Novel anthraquinone derivatives produced by Phoma sorghina, an endophyte found in association with the medicinal plant Tithonia diversifolia (Asteraceae) J Braz Chem Soc 17(5), 929–934.
  • Boudart G. 1989. Antibacterial activity of Sirodesmin PL phytotoxin: application to the selection of phytotoxin deficient mutants. Appl Env Microbiol, 55, 1555–1559.
  • Bousquet, JF, and Barbier, M 1972, Sur l’activite’ phytotoxique de trois souches de Phoma exigua presence de la cytochalasine B (ou phomine) dans leur milieu de culture Phytopathologische Zeitschrift 75, 365–367.
  • Boyette, CD, and Abbas, HK 1995, Weed control with mycoherbicide and phytotoxins: A nontraditional applications of allelopathy In: Allelopathy organisms, processes and applications Inderjit K, Dakhini MM & Einhelling FA (Eds), 280–299 ACS Symp Ser No 582, Washington DC.
  • Brewer, JG, and Boerema, GH 1965, Electron microscope observations on the development of pycnidiospores in Phoma and Ascochyta spp Proc K Ned Akad (Wet C) 68, 86–97.
  • Capasso, R, Evidente, A, and Vurro, M 1991a, Cytochalasins from Phoma exigua var heteromorpha Phytochemistry 30(12), 3945–3950.
  • Capasso, R, Evidente, A, Randazzo, G, Vurro, M, and Bottalico, A 1991b, Analysis of cytochalasins in culture of Ascochyta spp, and in infected plants by high performance liquid and thin layer chromatography Phytochem Anal 2, 87–92.
  • Charudattan, R 1996, Recent development in the field of microbial herbicides In: Proc Agri Bio SympBiopesticides for crop protection Park KH (Ed), 63–84 Seoul National University Sewon, South Korea.
  • Che, Y, Gloer, JB, and Wicklow, DT 2001, Phomadecalins A–D and Phomapentenone A: New bioactive metabolites from Phoma sp NRRL 25697, a fungal colonist of hypoxylon stromata, J Nat Prods, 3–9.
  • Chiba, S, Tsuyoshi, N, Fudou, R, Ojika, M, Murakami, Y, Ogoma, Y, Oguchi, M, and Yamanaka, S 2006, Magenta pigment produced by fungus J Gen Appl Microbiol 52, 201–207.
  • Cimmino, A, Andolfi, A, Berestetskiy, A, and Evidente, A 2008, Production of phytotoxins by Phoma exigua var exigua, a potential mycoherbicide against perennial thistles J Agric Food Chem, 56, 630–634.
  • Cole, L, Danielle, D, Geoffrey, JH, and Anne, EA 2000, Brefeldin A affects growth, endoplasmic reticulum, golgi bodies, tubular vacuole system, and secretory pathway in Pisolithus tinctorius Fungal Genet Biol 29 (2), 95–106.
  • Curtis, PJ, Greatbanks, D, Hesp, B, Forbes, CA, and Freer, AA 1977, Sirodesmins A, B, C, and G antiviral epipolythiopiperazine-2, 5-diones of fungal origin: X-ray analysis of Sirodesmin A diacetate J Chem Soc Perkin Trans 1, 180–189.
  • Dawson, MJ, Farthing, JE, Marshall, PS, Middleton, RF, O’Neill, MJ, Shuttleworth, A, Stylli, C, Tait, RM, Taylor, PM, Wildman, HG, Buss, AD, Langley, D, and Hayes, MV 1992, The squalestatins, novel inhibitors of squalene synthase produced by a species of Phoma I Taxonomy, fermentation, isolation, physico-chemical properties and biological activity J Antibiot 45, 639–647.
  • Deshmukh, P, Rai, MK, Kövics, GJ, Irinyi, L, and Sándor, E 2006, Phoma: Can these fungi be used as biocontrol agents and source of secondary metabolites? In: Recent Developments of IPM Kovics GJ & David I (Eds), 224–232 Debrecen University, Centre for Agriculture Science, Faculty of Agriculture, Debrecen, Hungary.
  • Devys, M, Férézou, JP, Topgi, RS, Barbier, M, Bousquet, JF, and Kollmann, A 1984, Structure and biosynthesis of phomenoic acid, an antifungal compound isolated from Phoma lingam Tode J ChemSocperkin Trans 1, 2133–2137.
  • Devys, M, Topgi, RS, Férézou, JP, Quaino, LM, Bousquet, JF, Kollmann, A, and Barbier, M 1986, Phomenolactone, an antifungal substance from Phoma lingam Tode Phytochemistry 25, 531–532.
  • Dorenbosch, MMJ 1970, Key to nine ubiquitous soil-borne Phoma-like fungi Persoonia 6, 1–14.
  • Evidente, A, Lanzetta, R, Capasso, R, Vurro, M, and Bottalico, A 1992, Cytochalasins U and V, two new cytochalasanes form Phoma exigua var heteromorpha Teterahedron 48, 317–324.
  • Ferezou, JP, Riche, C, Quesneau-Thierry, A, Pascard-Billy, C, Barbier, M, Bousquetand, JF, and Boudart, G 1977, Structures de deux toines ioslees des cultures du champignon Phoma lingam Tode: la sirodesmine PL et al desacetylsirodesmine PL Nouv J Chim 1, 327–324.
  • Ferezou, JP, Quesneau-Thierry, A, Barbier, M, Kollmann, A, and Bousquetand, JF 1980a, Structure and synthesis of phomamide, a new piperazine-2,5-dione related to the sirodesmins, isolated from the culture medium of Phoma lingam Tode J Chem Soc Perkin Trans 1, 113–115.
  • Ferezou JP, Quesneau-Thierry A, Servy C, Zissmann, E, and Barbier, M 1980b, Sirodesmin PL biosynthesis in Phoma lingam Tode J Chem Soc Perkins Trans 1, 1739–1746.
  • Fogliano, V, Marchese, A, Scaloni, A, Ritieni, A, Visconti, AG, Randazzo, G, and Graniti, A 1998, Characterization of a 60 kDa phytotoxic glycoprotein produced by Phoma tracheiphila and its relation to malseccin Physiol Mol Plant Pathol 53(3), 149–161.
  • Gallo, MBC, Fernanda, OC, Marília, OA, Cláudia, CM, Bruno, CC, Francisco, WAB, Manoel, O de Moraes, Letícia, VC, Cláudia, P, Jairo, KB, and Mônica, T Pupo 2008, Endophytic fungi found in association with Smallanthus sonchifolius (Asteraceae) as resourceful producers of cytotoxic bioactive natural products, J Basic Microbiol 48, 1–10.
  • Gruyter, J de, and Noordeloos, ME 1992, Contributions towards a monograph of Phoma (Coelomycetes)—I 1 Section Phoma: Taxa with very small conidia in vitro Persoonia 15, 71–92.
  • Gruyter, J de, Noordeloos, ME, and Boerema, GH 1993, Contributions towards a monograph of Phoma (Coelomycetes)—I 2 Section Phoma: Additional taxa with very small conidia and taxa with conidia up to 7 μm long Persoonia 15, 369–400.
  • Gruyter, J de, Noordeloos, ME, and Boerema, GH 1998, Contributions towards a monograph of Phoma (Coelomycetes)—I 3 Section Phoma: Taxa with conidia longer than 7 μm Persoonia 16, 471–490.
  • Hasija, SK, Rajak, RC, and Pandey, AK 1994, Microbes in the management of obnoxious weeds In: Vistas in Seed Biology Singh T Trivedi PC (Eds), 82–104 Print Well, Jaipur, India.
  • Hazuda, D, Blau, CU, Felock, P, Hastings, J, Pramanik, B, Wolfe, A, Bushman, F, Farnet, C, Goetz, M, Williams, M, Silverman, Z, Lingham, R, and Singh, S 1999, Isolation and characterization of novel human immunodeficiency virus integrase inhibitors from fungal metabolites Antiviral Chem Chemother 10(2), 63–70.
  • Heiny, DK 1990, Phoma probocis sp non pathogenic on Convoulus arvensis Mycotaxon 36, 457–471.
  • Heiny, DK 1994, Field survival of Phoma proboscis and synergism with herbicides for control of field bindweed Plant Disease 78, 1156–1164.
  • Heiny, DK, and Templeton, GE 1991, Effects of spore concentration, temperature and dew period on disease of field bindwind caused by Phoma proboscis Phytopathology 81, 905–909.
  • Hoagland, RE 1990, Microbes and microbial products as herbicides: An overview Amer Chem Symp Ser No 439 2-52 American Chemical Society, Washington, DC.
  • Hoagland, RE 1999, Plant pathogens and microbial products as agents for biological weed control In: Advances in Microbial Biotechnology Tiwari JP, Lakhanpal TN, Singh J, Gupta R & Chamda BP (Eds), 214–255 APH Publishing Corporation, New Delhi, India.
  • Hoagland, RE 2001, The genus Streptomyces: A rich source of novel phytotoxins In: Ecology of Desert Environments I Parkash (Ed), 139–169 Scientific Publishers, Jodhpur, India.
  • Hobson, DK, Edwards, RL, and Wales, DS 1997 Cynodontin: A secondary metabolite and dyestuff intermediate J Chem Tech Biotechnol 70, 343–348.
  • Ichihara, A, Oikawa, H, Hayashi, K, Hashimoto, M, Sakamura, S, and Sakai, R 1984, 3-Deoxyaphidicolin and aphidiocolin analogues as phytotoxins from Phoma betae Agric Biol Chem 48, 1687–1689.
  • Jamaluddin, M, Tandon, P, and Tandon, RN 1975, A fruit rot of aonla (Phyllanthus emblica L) caused by Phoma sp Proc Nat Acad Sci India 45(B), 75–76.
  • Kakeya, H, Morishita, M, Onozawa, C, Usami, R, Horikoshi, K, Kimura, K, Yoshihama, M, and Osada, H 1997, RKS-1778, its preparation, a cell cycle inhibitor and an antitumour agent produced by Phoma sp J Nat Prod 60(7), 669–672.
  • Kamal, S and Singh, S 1979, Fungi of Gorakhpur IX Indian Phytopath 29, 188.
  • Khanna, KK, and Chandra, S 1977, Some new leaf spot disease II Proc Nat Acad Sci India 47(B), 251–253.
  • Kövics, GJ, and Gruyter, J de 1995, A szóján előforduló néhány Phoma faj észteráz izoenzim mintázatának összehasonlító vizsgálata (Comparison of esterase isozyme patterns of some Phoma species occur on soybean) DATE Tudományos Közleményei (Bulletin of Debrecen Agricultural University) 31, 191–207.
  • Kövics, GJ, Gruyter, J de, and Aa, HA van der 1999, Phoma sojicola comb nov, and other hyaline-spored coelomycetes pathogenic on soybean Mycol Res 103(8), 1065–1070.
  • Koyama, N, Nagahiro, T, Yamaguchi, Y, Ohshiro, T, Masuma, R, Tomoda, H, and Omura S 2005, Spylidone, a novel inhibitor of lipid droplet accumulation in mouse macrophages produced by Phoma sp FKI-1840 J Antibiot 58(5), 338–345.
  • Krohn K, Farooq U, Florke U, Schulz B, Draeger S, Pescitelli G, Salvadori P, Antus S, Kurtan T. 2007. Secondary metabolites isolated from an endophytic Phoma sp-absolute configuration of tetrahydropyrenophorol using solid state TDDFT CD methodology. Euro J Org Chem, 19, 3206–3211.
  • Kruse, T, and Verreet, JA 2005, Epidemiological studies on winter oilseed rape (Brassica napus L var napus) infected by Phoma lingam (teleomorph Leptosphaeria maculans) and the effects of different fungicide applications with Folicur (tebuconazole) Zeitschrift für Pflanzenkrankheiten und Pflanzenschutz J Plant Dis Prot 112(1), 17–41.
  • Lin, F, Morifumi, H, and Kodama, O 2003, purification and identification of antimicrobial sesquiterpene lactones from Yacon (Smallanthus sonchifolius) leaves BiosciBiotechnol Biochem 67, 2154–2159.
  • Logan, C, and Khan, AA 1969, Comparative studies of Phoma sp associated with potato gangrene in Northern Ireland Trans Br Mycol Soc 52, 9–17.
  • Mathur, PN, and Thirumalachar, MJ 1959, Studies on some Indian soil fungi I Some new or noteworthy Sphaeropsidales Sydowia 13, 143–147.
  • Mabuni, CT, Garlaschelli, L, Elliso, RA, and Hutchinson, CR 1979, Biosynthesis of the C15 macrolide antibiotics. 1. Biochemical origin of the four oxygen atoms in brefeldin A J Am Chem Soc 101, 707–714.
  • Montel, E, Bridge, PD, and Sutton, BC 1991, An integrated approach to Phoma systematics Mycopathologia 115, 89–103.
  • Morgan-Jones, G, and Burch, KB 1988, Studies on the genus Phoma X concerning Phoma eupyrena, a ubiquitous, soilborne species Mycotaxon 31, 427–434.
  • Nagai, K, Kamigiri, K, Matsumoto, H, Kawano, Y, Yamaoka, M, Shimoi, H, Watanabe, M, and Suzuki, K 2002, YM-202204, a new antifungal antibiotic produced by marine fungus Phoma sp J Antibiot (Tokyo) 55(12), 1036–1041.
  • Narendra, DV, and Rao, VJ 1974, A new entomogenous species of Phoma Mycopath Mycol Appl 54, 135–140.
  • Noordeloos, ME, Gruyter, J de, Eijk, GW van, and Roeijmans, HJ 1993, Production of dendritic crystals in pure cultures of Phoma and Ascochyta and its value as a taxonomic character relative to morphology, pathology and cultural characteristics Mycol Res 97, 1343–1350.
  • Ohtsu, Y, Sasamura, H, Tanaka, M, Tsurumi, Y, Yoshimura, S, Takase, S, Shibata, T, Hino, M, and Nakajima, H 2005, The novel gluconeogenesis inhibitor FR225654 that originates from Phoma sp No 00144 J Antibiot 58(7), 447–451.
  • Oikawa, H, Toshima, H, Ohashi, S, König, WA, Kenmoku, H, and Sassa, T 2001, Diversity of diterpene hydrocarbons in fungus Phoma betae Tetrahedron Lett 42, 2329–2332.
  • Ondeyka, JG, Zink, DL, Young, K, Painter, R, Kodali, S, Galgoci, A, Collado, J, Tormo, JR, Basilio, A, Vicente, F, Wang, J, and Singh, SB 2006, Discovery of bacterial fatty acid synthase inhibitors from a Phoma species as antimicrobial agents using a new antisense-based strategy J Nat Prod 69, 377–380.
  • Padmbai, L 1976, Fungi in the root region of Parthenium hysterophorus L Curr Sci 45, 631–632.
  • Pandey, AK 1999, Herbicidal potential of microorganism: Present status and future prospects In: Microbial Biotechnology for Sustainable Developments and Productivity Rajak RC (Ed), 87–105 Scientific Publisher, Jodhpur, Rajasthan, India.
  • Pandey, AK 2000, Microorganism associated with weeds: Opportunities and challenges for their exploitation as herbicides Int J Mendel 17(1–2), 59–62.
  • Pandey, A 2002, Screening and characterization of mycoherbicides for management of Hyptis suaveolens (L) Poit, PhD Thesis, Rani Durgawati University, Jabalpur, India.
  • Pandey, AK, Luka, RS, Hasija, SK, and Rajak, RC 1991, Pathogenicity of some fungi to Parthenium and obnoxious weed in Madhya Pardesh J Biol Control 5, 113–115.
  • Pandey, AK, Mishra, J, Rajak, RC, and Hasija, SK 1996a, Potential of indigenous strains of Sclerotium rolfsii Sacc for the management of Parthenium hysterophorus L: A serious threat to biodiversity in India In: Herbal Medicines, Biodiversity and Conservation Strategies Rajak RC & Rai MK (Eds), 104–138 International Book Distributors, Dehra Dun, India.
  • Pandey, AK, Gaythri, S, Rajak, RC, and Hasija, SK 1996b, Possibilities, problems and prospects of microbial management of Parthenium hysterophorus L in India In: Perspectives in Biological Science Rai V, Naik, ML & Manoharachary C (Eds), 253–269 Dazale Offset Printers, Raipur, India.
  • Pandey, AK, Rajak, RC, and Hasija, SK 1997, Potential of indigenous Colletotrichum species for the management of weeds in India In: Achievements and Prospects in Mycology and Plant Pathology Chahal SS, Parashar IB, Randhawa HS & Aryam S (Eds), 59–85 International Book Distributors, Dehra Dun, India.
  • Pandey, AK, Rajak, RC, and Hasija, SK 2001, Biotechnological development of ecofriendly mycoherbicides In: Innovative Approaches in Microbiology Maheshwari DK & Dube RC (Eds), 1–21 Bisen singh Mahendra pal singh, Dehra Dun, India.
  • Pandey, AK, Chandla, P, and Rajak, RC 2002, Herbicidal potential of secondary metabolites of some fungi against Lantana camara L J Mycol Pl Pathol 32(1), 100–102.
  • Pandey, S, and Pandey, AK 2000, Mycoherbicidal potential of some fungi against Lantana camara L: A preliminary observation J Tropical Forestry 16, 28–32.
  • Pandey, SK 2000, Mycoherbicidal potential of some fungal pathogens for the management of Lantana camara L, PhD Thesis (unpublished), submitted to Rani Durgawati University, Jabalpur, MP, India.
  • Pathak, PD, and Chauhan, RKS 1976, Two new leaf spot disease of Crotalaria juncea L caused by Pleospora infectoria Fuckel and Phoma glomerata Corda Curr Sci 45, 206.
  • Pearce, C 1997, Biologically active fungal metabolites Adv Appl Microbiol 44, 1–80.
  • Pedras, M 1996 The chemistry of cyclohexenediones produced by the blackleg fungus Can J Chem 74, 1597–1601.
  • Pedras, M, Soledade, C, Taylor, JL, and Nakashima, TT 1973, A novel chemical signal from the blackleg fungus: Beyond phytotoxins and phytoalexins J Org Chem 58, 4778–4780.
  • Pedras, M, Soledade, C, Morales, VM, and Taylor, JL 1994, Phomapyrones: Three metabolites from the blackleg fungus Phytochemistry 36, 1315–1318.
  • Pedras, M, Soledade, C, Taylor, JL, and Morales, VM 1995, Phomaligin A and other yellow pigments in Phoma lingam and P wasabiae Phytochemistry 38(5), 1215–1222.
  • Pedras, M, Soledade, C, and Biesenthal, CJ 1998, Production of the host-selective toxin phomalide by isolates of Leptoshaeria maculans and its correlation with sirodesmin PL production Can J Microbiol 44, 547–553.
  • Pedras, M, Soledade, C, Erosa-Lopez, GC, Quail, JW, and Taylor, JL 1999, Phomalairdenone: A new host-selective phytotoxin from a virulent type of the blackleg fungus Phoma lingam Bioorg Med Chem Lett 9, 3291–3294.
  • Pedras, M, Soledade, C, and Biesenthal, CJ 2000, HPLC analyses of cultures of Phoma spp: Differentiation among groups and species through secondary metabolite profiles Can J Microbiol 46, 685–691.
  • Pedras, M, Soledade, C, and Yang Yu 2008, Structural and biological activity of maculansin A, a phytotoxin from the phytopathogenic fungus Leptosphaeria maculans Phytochemistry 69, 2966–2971.
  • Rai, JN, and Misra, JK 1981, A new species of Phoma from Indian alkaline soil Curr Sci 50, 377.
  • Rai, MK 1985, Taxonomic studies of species of Phoma isolated from air J Econ Taxon Bot 7(3), 645–647.
  • Rai, MK 1986a, Two new diseases of Albizzia lebbek and Jasminum sambac Acta Bot Indica 14, 238–239.
  • Rai, MK 1986b, A new report of Phoma pomorum Thum from India Geo-bios New Reports 5, 157.
  • Rai, MK 1987, A first report of Phoma herbarum from tank water of Pune Geo-bios New Reports 6, 66–67.
  • Rai, MK 1989, Phoma sorghina infection in human beings Mycopathologia 105, 167–170.
  • Rai, MK 2003, Diversity and biotechnological applications of Indian species of Phoma spp In: Frontiers of Fungal Diversity in India Rao GP, Manoharachari C, Bhat DJ, Rajak RC & Lakhanpal TN (Eds), 79–204 International Book Distributing Co, Lucknow, India.
  • Rai, MK, and Rajak, RC 1982a, A new leaf-spot disease of Ailanthus excelsa Curr Sci 51(2), 98–99.
  • Rai, MK, and Rajak, RC 1982b, A report of leaf-spot disease of Holoptelea integrefolia Planch caused by Phoma sorghina Indian J Mycol Plant Pathol 12(2), 342.
  • Rai, MK, and Rajak, RC 1983a, Studies on two species of Phoma from aquatic environment Geo-bios New Reports 2(28), 135.
  • Rai, MK, and Rajak, RC 1983b, A first report of two species of Phoma from tank water Geo-bios New Reports 2(28), 136–137.
  • Rai, MK, and Rajak, RC 1986a, Phoma multirostrata on three new hosts J Econ Taxon Bot 8(1), 229–230.
  • Rai, MK, and Rajak, RC 1986b, A new disease of Citrus medica and the identity of its causal organism Phoma exigua var foevata (Foister) Boerema Indian J Mycol Plant Pathol 17(3), 320–321.
  • Rai, MK, and Rajak, RC 1993, Distinguishing characteristics of selected Phoma species Mycotaxon 40(8), 389–414.
  • Rajak, RC, and Rai, MK 1982, Species of Phoma from legumes Indian Phytopath 35(4), 609–611.
  • Rajak, RC, and Rai, MK 1983a, Effect of different factors on the morphology and cultural characters of 18 species and 5 varieties of Phoma I Effect of different media Bibl Mycol 91, 301–317.
  • Rajak, RC, and Rai, MK 1983b, Cholesterol content in twenty species of Phoma Nat Acad Sci Lett 6(4), 113–114.
  • Rajak, RC, and Rai, MK 1984, Effect of different factors on the morphology and cultural characters of Phoma II Effect of different hydrogen-ion-concentrations Nova Hedwigia 40, 299–311.
  • Rajak, RC, and Rai, MK 1985, A key to the identification of species of Phoma in pure culture J Econ Taxon Bot 7(3), 588–590.
  • Rajak, RC, Farkya, S, Hasija, SK, and Pandey, AK 1990, Fungi associated with congress weed (Parthenium hysterophorus L) Proc Nat Acad Sci India 60, 165–168.
  • Rao, S, and Thirumalachar, U 1981, Phoma exigua infecting brinjal leaves Indian Phytopath 34, 37.
  • Raut, JG 1977, Phoma leaf blight of sunflower Indian Phytopath 30, 269–270.
  • Rivero-Cruz, JF, Aguirre, GG, Rojas, CMCG, and Mata, R 2000, Conformational behaviour and absolute stereostructure of two phytotoxic nonenolides from the fungus Phoma herbarum Tetrahedron 56, 5337–5344.
  • Rothweiler, WC, and Tomm, C 1966, Isolation and structure of Phomin Experentia 22, 750–752.
  • Rothweiler, WC, and Tomm, C 1970, Isolierung und Struktur der Antibiotica Phomin und S Dehydrophomin Helv Chim Acta 53, 696–724.
  • Saxena, S, and Pandey, AK 2000, Preliminary evaluation of fungal metabolites as natural herbicides for the management of Lantana camara Indian Phytopath 53(4), 490–491.
  • Saxena, S, and Pandey, AK 2001, Microbial metabolites as ecofriendly agrochemical for the next millennium Appl Microbiol Biotechnol 55, 395–403.
  • Sciaky, N, Presley, J, Smith, C, Zaal, KJM, Cole, N, Moreira, JE, Terasaki, M, Siggia, E, and Lippincott-Schwartz, J 1997, Golgi tubule traffic and the effects of brefeldin A visualized in living cells J Cell Biol 139, 1137–1155.
  • Scott, PM, Harwig, J, Chen, YK, and Kennedy, BPC 1975, Cytochalasins A and B from strains of Phoma exigua var exigua and formation of cytochalasin B in potato gangrene J Gen Microbiol 87, 177–180.
  • Shibazaki, M, Taniguchi, M, Yokoi, T, Nagai, K, Watanabe, M, Suzuki, K, and Yamamoto, T 2004, YM-215343, a novel antifungal compound from Phoma sp QNO4621 J Antibiot 57 (6), 379–382.
  • Shoemaker, RA, and Brun, H 2001, The teleomorph of the weakly aggressive segregate of Leptosphaeria maculans Can J Plant Pathol 20, 206–209.
  • Sidebottom, PJ, Highcock, RM, Lane, SJ, Procopion, PA, and Watson, NS 1992, The squalestatins, novel inhibitors of squalene synthase produced by a species of Phoma II Structural elucidation J Antibiot 45, 648–658.
  • Sigg, HP 1964, Die Konstitution von Brefeldin A Helv Chim Acta 47, 1401–1415.
  • Singh, SB, Ball, RG, Zink, DL, Monaghan, RL, Polishook, JD, Sanchez, M, Pelaez, F, Silverman, KC, and Lingham, RB 1997, Fusidienol-A: A novel Ras farnesyl-protein-transferase inhibitor from Phoma sp J Org Chem 62(21), 7485–7488.
  • Singh, SB, Zink, DL, Goetz, MA, Dombrowski, AW, Polishook, JD, and Hazuda, DJS 1998, Equisetin and a novel opposite stereochemical homolog phomasetin, two fungal metabolites as inhibitors of HIV-1 integrase, Tetrahedron Lett 39(16), 2243–2246.
  • Singh, SM, and Agarwal, GP 1973, On some foliicolous Sphaeropsidales Proc Natl Acad Sci India 43(B), 73–80.
  • Singh, SM, and Agarwal, GP 1974, Some Sphaeropsidales new to India Indian Phytopath 27, 244–246.
  • Sponga, F, Cavaletti, L, Lazzarini, A, Borghi, A, Ciciliato, I, Losi, D, and Marinelli, F 1999, Biodiversity and potentials of marine-derived microorganisms J Biotechnol 70(1–3), 65–69.
  • Stoessl, A 1981, Structure and biogenetic relations: Fungal non-host specific In: Toxins in Plant diseases Durbin RO (Ed), 109–220 Academic Press Inc, New York.
  • Steyn, PS, and Rabie, CJ 1976, Characterization of magnesium and calcium tenuazonate from Phoma sorghina Phytochemistry 15, 1978–1979.
  • Strange, RN 1997, Phytotoxin associated with Ascochyta species In: Toxin in Plant Disease Development and Evolving Biotechnology Upadhyay RK & Mukherjee KG (Eds), 167–181 Oxford and IBH Publishing Co Pvt Ltd, New Delhi, India.
  • Sugano, M, Sato, A, Lijima, Y, Oshima, T, Furuya, K, Kuwano, H, Hata, T, and Hanzawa, H 1991, Phomactin A: A novel PAF antagonist from a marine fungus Phoma sp J Am Chem Soc 113(14), 5463–5464.
  • Sugawara, F, and Strobel, G 1986, Zinniol, a phytotoxin produced by Phoma macdonaldii Plant Sci 43, 19–23.
  • Sullivan, RF, and White, JF (Jr) 2000, Phoma glomerata as a mycoparasite of powdery mildew Appl Environ Microbiol 66, 425–427.
  • Suzuki, Y, Tanaka, H, Aoki, H, and Tamura, T 1970, A scotoxin (decumbin), a metabolite of Ascochyta imperfecta Peck Agric Biol Chem 34, 395–413.
  • Tichelaar, GM 1974, The use of thiophanate-methyl for distinguishing between the two Phoma varieties causing gangrene of potatoes Neth J Plant Pathol 80, 169–170.
  • Topgi, RS, Devys, M, Bousquet, JF, Kollmann, A, and Barbier, M 1987, Phomenoic acid and phomenolactone, antifungal substances from Phoma lingam (Tode) Desm: Kinetics of their biosynthesis with an optimization of the isolation procedures Appl Environ Microbiol 53(5), 966–968.
  • Venkatasubbaiah, P, Van Dyke, CG, and Chilton, WS 1992, Phytotoxic metabolites of Phoma sorghina a new foliar blight pathogen pokeweed Mycologia 84, 19–23.
  • Vikrant, P 2002, Management of Parthenium employing secondary metabolites of Phoma herbarum FGCC# 75 Dissertation Work, Rani Durgawati University, Jabalpur, India.
  • Vikrant P, Verma KK, Rajak RC, Pandey AK. 2006. Characterization of phytotoxin from Phoma herbarum for management of Parthenium hysterophorus L. J Phytopathol, 154, 461–468.
  • Vining, LC 1990, Functions of secondary metabolites Annu Rev Microbiol 44, 395–427.
  • Vining, LC, and Wright, JLC 1977, Biosynthesis of oligopeptides Biosynthesis 5, 240–305.
  • Vurro, M, Bottalico, A, Capasso, R, and Evidente, A 1997, Cytochalasin from phytopathogenic Asochyta and Phoma In: Toxin in Plant Disease Development and Evolving Biotechnology Upadhyay RK & Mukherjee KG (Eds), 127–147 Oxford and IBH Publishing Co Pvt Ltd, New Delhi, India.
  • Wakui, F, Mikoshiba, H, and Tachibana, K 1999, Light-stable agrochemical microbicide preparation Biotechnological Abstr No 99-06952.
  • Weber, HP, Hauser, D, and Sigg, HP 1971, Structure of Brefeldin A Helv Chim Acta 54, 2763–2766.
  • Yamaguchi, Y, Masuma, R, Uchida, R, Arai, M, Tomoda, H, and Ōmura, S 2002 Phoma sp FOM-8108, a producer of gentisylquinones, isolated from sea sand Mycoscience 43(2), 127–133.
  • Yano, T, Aoyagi, A, Kozuma, S, Kawamura, Y, Tanaka, I, Suzuki, Y, Takamatsu, Y, Takatsu, T, and Inukai, M 2007, Pleofungins, novel inositol phosphorylceramide synthase inhibitors from Phoma sp SANK 13899 J Antibiot 60(2), 136–142.
  • Zaitz, C, Heins, EM, de Freitas, RS, Arriagada, GL, Ruiz, L, Totoli, SA, Marques, AC, Rezze, GG, Muller, H, Valente, NS, and Lacaz, CD 1997, Subcutaneous phaeohyphomycosis caused by Phoma cava Report of a case and review of the literature Rev Inst Med Trop Sao Paulo 39(1), 43–48.
  • Zhang, W, Krohn, K, Egold, H, Draeger, S, and Schulz, B 2008, Diversity of antimicrobial pyrenophorol derivatives from an endophytic fungus, Phoma sp Eur J Org Chem 4320–4328.
  • Zhou, B, and Qiang, S 2008, Environmental, genetic and cellular toxicity of tenuazonic acid isolated from Alternaria alternata African J Biotechnol 7, 1151–1156.
  • Zhou, L, Bailey, KL, and Derby, J 2004, Plant colonization and environmental fate of the biocontrol fungus Phoma macrostoma Biological Control 30, 634–644.
  • Zhou, L, Bailey, KL, Chen, CY, and Keri, M 2005, Molecular and genetic analyses of geographic variation in isolates of Phoma macrostoma used for biological weed control Mycologia 97(3), 612–620.

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