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Original Articles

Revision of Aspergillus section Flavipedes: seven new species and proposal of section Jani sect. nov.

Vit Hubka Department of Botany, Faculty of Science, Charles University in Prague, Benátská 2, 128 01 Prague 2, Czech RepublicInstitute of Microbiology AS CR, v.v.i, Vídeňská 1083, 142 20 Prague 4, Czech RepublicCorrespondence[email protected]
,
Alena Nováková Institute of Microbiology AS CR, v.v.i, Vídeňská 1083, 142 20 Prague 4, Czech Republic, and Institute of Soil Biology, Biology Centre AS CR, v.v.i., Na Sádkách 7, 370 05 České Budějovice, Czech Republic
,
Miroslav Kolařík Department of Botany, Faculty of Science, Charles University in Prague, Benátská 2, 128 01 Prague 2, Czech Republic, and Institute of Microbiology AS CR, v.v.i, Vídeňská 1083, 142 20 Prague 4, Czech Republic
,
Željko Jurjević EMSL Analytical Inc., 200 Route 130 North, Cinnaminson, New Jersey 08077
&
Stephen W. Peterson Bacterial Foodborne Pathogens and Mycology Research Unit, National Center for Agricultural Utilization Research, 1815 N. University Street, Peoria, Illinois 61604
Pages 169-208 | Received 06 Mar 2014, Accepted 28 Aug 2014, Published online: 20 Jan 2017

Literature cited

  • AinleyRSmithB. 1965. Fungal flora of the conjunctival sac in healthy and diseased eyes. Br J Ophthalmol 49:505–515, doi:10.1136/bjo.49.10.505
  • AnithaDVijayaTPragathiDReddyNVMouliKCVenkateswaruluNBhargavDS. 2013. Isolation and characterization of endophytic fungi from endemic medicinal plants of Tirumala hills. Int J Life Sc Bt Pharm Res 2:367–373.
  • AsanA. 2004. Aspergillus, Penicillium, and related species reported from Turkey. Mycotaxon 89:155–157.
  • AsgariBZareRZamanizadehHRRezaeeS. 2012. Systematics of Aspergillus species of subgenus Nidulantes in Iran. Rostaniha 13:126–151.
  • AubergerJLass-FlörlCClausenJBellmannRBuzinaWGastlGNachbaurD. 2008. First case of breakthrough pulmonary Aspergillus niveus infection in a patient after allogeneic hematopoietic stem cell transplantation. Diagn Microbiol Infect Dis 62:336–339, doi:10.1016/j.diagmicrobio.2008.06.012
  • AzazADPekelO. 2002. Comparison of soil fungi flora in burnt and unburnt forest soils in the vicinity of Karicak (Alanya, Turkey). Turk J Bot 26:409–416.
  • BainierGSartoryA. 1911. Etude d’une espèce nouvelle de Stérigmatocytis. Sterigmatocystis flavipes (n. sp.). Bull Soc Mycol Fr 27:90–97.
  • BalajeeSA. 2009. Aspergillus terreus complex. Med Mycol 47: S42–S46, doi:10.1080/13693780802562092
  • BarrowCJSunHH. 1994. Spiroquinazoline, a novel substance P inhibitor with a new carbon skeleton, isolated from Aspergillus flavipes. J Nat Prod 57:471–476, doi:10.1021/np50106a005
  • BarsonWRuymannF. 1986. Palmar aspergillosis in immunocompromised children. J Pediatr Infect Dis 5: 264–268, doi:10.1097/00006454-198603000-00021
  • BlochwitzA. 1934. Die Gattung Aspergillus. III. Neue Spezies, Varianten und Mutanten der Konidienfarbe, Synonyme und interessante Standorte. Ann Mycol 32: 83–89.
  • BluntFLBakerGE. 1968. Antimycotic activity of fungi isolated from Hawaiian soils. Mycologia 60:559–570, doi:10.2307/3757423
  • BogomolovaEKirtsideliI. 2009. Airborne fungi in four stations of the St. Petersburg underground railway system. Int Biodeterior Biodegrad 63:156–160, doi:10.1016/j.ibiod.2008.05.008
  • BräseSEncinasAKeckJNisingCF. 2009. Chemistry and biology of mycotoxins and related fungal metabolites. Chem Rev 109:3903–3990, doi:10.1021/cr050001f
  • BukovskáPJelínkováMHršelováHSýkorováZGryndlerM. 2010. Terminal restriction fragment length measurement errors are affected mainly by fragment length, G+C nucleotide content and secondary structure melting point. J Microbiol Methods 82:223–228, doi:10.1016/j.mimet.2010.06.007
  • BurroughEDeitzKKinyonJAndreasenCFranaTSuttonDThompsonEFuJWickesBHostetterJ. 2012. Disseminated aspergillosis in a dog due to Aspergillus alabamensis. Med Mycol Case Rep 1:1–4, doi:10.1016/j.mmcr.2012.02.002
  • ButinarLFrisvadJCGunde-CimermanN. 2011. Hypersaline waters – a potential source of foodborne toxigenic aspergilli and penicillia. FEMS Microbiol Ecol 77:186–199, doi:10.1111/j.1574-6941.2011.01108.x
  • CantrellSACasillas-MartínezLMolinaM. 2006. Characterization of fungi from hypersaline environments of solar salterns using morphological and molecular techniques. Mycol Res 110:962–970, doi:10.1016/j.mycres.2006.06.005
  • CasinoviCGGrandoliniGMercantiniROddoNOlivieriRTonoloA. 1968. A new antibiotic produced by a strain of Aspergillus flavipes. Tetrahedron Lett 9:3175–3178, doi:10.1016/S0040-4039(00)89581-7
  • CasinoviCGGrandoliniGMercantiniROddoNOlivieriRTonoloA. 1969. Glutamycin: a new antibiotic produced by a strain of Aspergillus flavipes. Ann Ist Super Sanita 5:523–535.
  • CastilloMGonzálezHMartínezEPacinAResnikS. 2004. Mycoflora and potential for mycotoxin production of freshly harvested black bean from the Argentinean main production area. Mycopathologia 158:107–112, doi:10.1023/B:MYCO.0000038426.05215.89
  • ClarkAHuffordCRobertsonL. 1976. Two metabolites from Aspergillus flavipes. Lloydia 40:146–151.
  • CookeWFoterM. 1958. Fungi in used bedding materials. Appl Microbiol 6:169–173.
  • DaynesCNZhangNSaleebaJAMcGeePA. 2012. Soil aggregates formed in vitro by saprotrophic Trichocomaceae have transient water-stability. Soil Biol Biochem 48:151–161, doi:10.1016/j.soilbio.2012.01.010
  • De SantiMSistiMBarbieriEPiccoliGBrandiGStocchiV. 2010. A combined morphologic and molecular approach for characterizing fungal microflora from a traditional Italian cheese (Fossa cheese). Int Dairy J 20: 465–471, doi:10.1016/j.idairyj.2010.02.004
  • De ScottB. 1965. Toxigenic fungi isolated from cereal and legume products. Mycopathol Mycol Appl 25:213–222, doi:10.1007/BF02049914
  • DeakENelsonMHernández-RodríguezYGadeLBaddleyJMomanyMSteeleCBalajeeSA. 2011. Aspergillus terreus accessory conidia are multinucleated, hyperpolarizing structures that display differential dectin staining and can induce heightened inflammatory responses in a pulmonary model of aspergillosis. Virulence 2:200–207, doi:10.4161/viru.2.3.15799
  • DeakEWilsonSDWhiteECarrJHBalajeeSA. 2009. Aspergillus terreus accessory conidia are unique in surface architecture, cell wall composition and germination kinetics. PLoS One 4:e7673, doi:10.1371/journal.pone.0007673
  • DelmottePDelmotte-PlaqueJBastinR. 1956. Chlorine containing antibiotic related to geodine. J Pharm Belg 11:200–205.
  • DomschKHGamsWAndersonTH. 2007. Compendium of soil fungi, 2nd Ed. Eching: IHW-Verlag. 672 p.
  • El-AyoutyYSalamaA. 2012. Purification and characterization of a keratinase from the feather-degrading cultures of Aspergillus flavipes. Afr J Biotechnol 11:2313–2319.
  • El-ElimatTRajaHAGrafTNFaethSHCechNBOberliesNH. 2014. Flavonolignans from Aspergillus iizukae, a fungal endophyte of milk thistle (Silybum marianum). J Nat Prod 72:193–199, doi:10.1021/np400955q
  • El-SayedASShindiaAA. 2011. Characterization and immobilization of purified Aspergillus flavipes L-methioninase: Continuous production of methanethiol. J Appl Microbiol 111:54–69, doi:10.1111/j.1365-2672.2011.05027.x
  • FarooqA. 2000. Mycoflora associated with blue pine seed. Pak J For 50:25–31.
  • FassatiováO. 1969. Bodenmikromyceten im Gebirge Ždánický les (Steinitzer Wald) und in der Steppe bei Pouzdřany (Pausram). Czech Mycol 23:243–252.
  • FelixSSandjoLPOpatzTErkelG. 2013. SF002-96-1, a new drimane sesquiterpene lactone from an Aspergillus species, inhibits survivin expression. Beilstein J Org Chem 9:2866–2876, doi:10.3762/bjoc.9.323
  • FrisvadJCLarsenTODe VriesRMeijerMHoubrakenJCabañesFJEhrlichKSamsonRA. 2007. Secondary metabolite profiling, growth profiles and other tools for species recognition and important Aspergillus mycotoxins. Stud Mycol 59:31–37, doi:10.3114/sim.2007.59.04
  • FrisvadJCSamsonRA. 1991. Mycotoxins produced by species of Penicillium and Aspergillus occurring in cereals. In: ChełkowskiJ, ed. Cereal grain: mycotoxins, fungi and quality in drying and storage. Amsterdam: Elsevier. p 441–476.
  • FrisvadJCSamsonRA. 2004. Polyphasic taxonomy of Penicillium subgenus Penicillium: A guide to identification of food and air-borne terverticillate Penicillia and their mycotoxins. Stud Mycol 49:1–173.
  • FrolovaGMSil’chenkoASPivkinMVMikhailovVV. 2002. Amylases of the fungus Aspergillus flavipes associated with Fucus evanescens. Appl Biochem Microbiol 38:134–138, doi:10.1023/A:1014354431672
  • GamsWChristensenMOnionsAHPittJISamsonRA. 1985. Infrageneric taxa of Aspergillus. In: SamsonRAPittJI, eds. Advances in Penicillium and Aspergillus Systematics. New York: Plenum Press. p 55–62.
  • GehlotPPurohitDSinghS. 2011. Molecular diagnostics of human pathogenic Aspergillus species. Indian J Biotechnol 10:207–211.
  • GomesDCavalcantiMFernandesMLimaDPassavanteJ. 2008. Filamentous fungi isolated from sand and water of “Bairro Novo” and “Casa Caiada” beaches, Olinda, Pernambuco, Brazil. Braz J Biol 68:577–582, doi:10.1590/S1519-69842008000300016
  • Gorst-AllmanCPSteynPS. 1979. Screening methods for the detection of thirteen common mycotoxins. J Chrom 175:325–331, doi:10.1016/S0021-9673(00)89439-X
  • GreenhillABlaneyBShiptonWFrisvadJCPueAWarnerJ. 2008. Mycotoxins and toxigenic fungi in sago starch from Papua New Guinea. Lett Appl Microbiol 47:342–347, doi:10.1111/j.1472-765X.2008.02439.x
  • GrishkanINevoEWasserSP. 2003. Soil micromycete diversity in the hypersaline Dead Sea coastal area, Israel. Mycol Prog 2:19–28, doi:10.1007/s11557-006-0040-9
  • GrishkanINevoEWasserSP. 2004. Micromycetes from the saline arubotaim cave: Mount Sedom, the dead sea southwestern shore, Israel. J Arid Environ 57:431–443, doi:10.1016/S0140-1963(03)00119-8
  • HodgesCS. 1962. Fungi isolated from southern forest tree nursery soils. Mycologia 54:221–229, doi:10.2307/3756411
  • HongSBLeeMKimDHMeijerMMajoorEvanKuykPASamsonRA. 2012. Aspergillus cibarius sp. nov., from traditional meju in Korea. J Microbiol 50:712–714, doi:10.1007/s12275-012-2347-3
  • HornBW. 2006. Relationship between soil densities of Aspergillus species and colonization of wounded peanut seeds. Can J Microbiol 52:951–960, doi:10.1139/w06-050
  • HubkaVKolaříkM. 2012. β-tubulin paralogue tubC is frequently misidentified as the benA gene in Aspergillus section Nigri taxonomy: primer specificity testing and taxonomic consequences. Persoonia 29:1–10, doi:10.3767/003158512X658123
  • HubkaVKolaříkMKubátováAPetersonSW. 2013a. Taxonomical revision of Eurotium and transfer of species to Aspergillus. Mycologia 105:912–937, doi:10.3852/12-151
  • HubkaVKubatovaAMallatovaNSedlacekPMelicharJSkorepovaMMenclKLyskovaPSramkovaBChudickovaMHamalPKolarikM. 2012. Rare and new aetiological agents revealed among 178 clinical Aspergillus strains obtained from Czech patients and characterised by molecular sequencing. Med Mycol 50: 601–610, doi:10.3109/13693786.2012.667578
  • HubkaVLyskovaPFrisvadJPetersonSWSkorepovaMKolarikM. 2014. Aspergillus pragensis sp. nov. discovered during molecular re-identification of clinical isolates belonging to Aspergillus section Candidi. Med Mycol 52:565–576, doi:10.1093/mmy/myu022
  • HubkaVPetersonSWFrisvadJCYaguchiTKubátováAKolaříkM. 2013b. Aspergillus waksmanii sp. nov. and Aspergillus marvanovae sp. nov., two closely related species in section Fumigati. Int J Syst Evol Microbiol 63: 783–789, doi:10.1099/ijs.0.047076-0
  • JiangTLiTLiJFuHZPeiYHLinWH. 2004. Cerebroside analogues from marine-derived fungus Aspergillus flavipes. J Asian Nat Prod Res 6:249–257, doi:10.1080/1028602031000147384
  • JurjevicZPetersonSWHornBW. 2012. Aspergillus section Versicolores: nine new species and multilocus DNA sequence based phylogeny. IMA Fungus 3:59–79, doi:10.5598/imafungus.2012.03.01.07
  • KaraltiIÇolakoğluGT. 2012. Isolation and identification of Aspergillus spp. during one year in the hospitals. J Life Sci 6:1220–1224.
  • KaufmanDBlakeJ. 1970. Degradation of atrazine by soil fungi. Soil Biol Biochem 2:73–80, doi:10.1016/0038-0717(70)90010-6
  • KaufmanDDKearneyPCSheetsTJ. 1963. Simazine: degradation by soil microorganisms. Science 142:405–406, doi:10.1126/science.142.3590.405
  • KellyKL. 1964. Inter-society color council – National bureau of standards color name charts illustrated with centroid colors. Washington: US Government Printing Office. 36 p.
  • KlichMA. 2002. Biogeography of Aspergillus species in soil and litter. Mycologia 94:21–27, doi:10.2307/3761842
  • KohnoJNonakaNNishioMOhnukiTKawanoKOkudaTKomatsubaraS. 1999. TMC-169, a new antibiotic of the aspochalasin group produced by Aspergillus flavipes. J Antibiot 52:575–577, doi:10.7164/antibiotics.52.575
  • KwonYJSohnMJKimCJKoshinoHKimWG. 2012. Flavimycins A and B, dimeric 1,3-dihydroisobenzofurans with peptide deformylase inhibitory activity from Aspergillus flavipes. J Nat Prod 75:271–274, doi:10.1021/np200720v
  • KwonYJZhengCJKimWG. 2009. Isolation and identification of FR198248, a hydroxylated 1,3-dihydroisobenzofuran, from Aspergillus flavipes as an inhibitor of peptide deformylase. Biosci Biotechnol Biochem 74: 390–393, doi:10.1271/bbb.90565
  • LaskinALechevalierH. 1973. CRC Handbook of Microbiology, vol. 3: Microbial Products. Cleveland: CRC press. 1143 p.
  • LeeBBakerG. 1972. An ecological study of the soil microfungi in a Hawaiian mangrove swamp. Pac Sci 26: 1–10.
  • LiSZhouRZhongY. 2001. The effect of metal irons on the production of antifungal antibiotics terretic acid 179M of Aspergillus flavipes. Wei Sheng Wu Xue Tong Bao 29:20–24.
  • LilabatiHViswanathW. 2000. Changes in the microbial population during storage of the smoked fish, Amhlypharyngodon mola of Manipur. Indian J Fish 47:349–354.
  • Locquin-LinardM. 1990. Fennellia monodii, nouvelle espece d’Ascomycete coprophile de zones arides Africaines. Mycotaxon 39:9–15.
  • Maciá-VicenteJGFerraroVBurruanoSLopez-LlorcaLV. 2012. Fungal assemblages associated with roots of halophytic and non-halophytic plant species vary differentially along a salinity gradient. Microb Ecol 64:668–679, doi:10.1007/s00248-012-0066-2
  • Martín-MazuelosEPemánJValverdeAChavesMSerranoMCCantónE. 2003. Comparison of the Sensititre YeastOne colorimetric antifungal panel and Etest with the NCCLS M38-A method to determine the activity of amphotericin B and itraconazole against clinical isolates of Aspergillus spp. J Antimicrob Chemother 52:365–370, doi:10.1093/jac/dkg384
  • Martínez-TrujilloAArreguín-RangelLGarcía-RiveroMAguilar-OsorioG. 2011. Use of fruit residues for pectinase production by Aspergillus flavipes FP-500 and Aspergillus terreus FP-370. Lett Appl Microbiol 53: 202–209, doi:10.1111/j.1472-765X.2011.03096.x
  • McDonaldD. 1970. Fungal infection of groundnut fruit before harvest. Trans Br Mycol Soc 54:453–460, doi:10.1016/S0007-1536(70)80160-7
  • McNeillJBarrieFRBuckWRDemoulinVGreuterWHawksworthDLHerendeenPSKnappSMarholdKPradoJ. 2012. International Code of Nomenclature for algae, fungi, and plants (Melbourne Code) adopted by the Eighteenth International Botanical Congress Melbourne, Australia, July 2011. Königstein: Regnum Vegetabile 154, Koeltz Scientific Books. 240 p.
  • MehrotraBRKakkarR. 1972. Rhizosphere soil fungi of some vegetable plants. Mycopathol Mycol Appl 46:379–385, doi:10.1007/BF02052135
  • MigahedFF. 2003. Distribution of fungi in the sandy soil of Egyptian beaches. Mycobiology 31:61–67, doi:10.4489/MYCO.2003.31.2.061
  • MillerJHGiddensJEFosterA. 1957. A survey of the fungi of forest and cultivated soils of Georgia. Mycologia 49: 779–808, doi:10.2307/3755802
  • MirzaJBajwaR. 2005. New records of Fungi Imperfecti from Pakistan. Res Bull 1st Fung Cult Bank Pak No. 1. p 1–15.
  • MoraesAMLde FigueiredoARJunqueiraACVda CostaGLAguiarRKde OliveiraPC. 2001. Fungal flora of the digestive tract of Panstrongylus megistus (Reduviidae) used for experimental xenodiagnosis of Trypanosoma (Schizotripanum) cruzi Chagas, 1909. Rev Iberoam Micol 18:79–82.
  • MorquerREnjalbertL. 1957. Étude morphologique et physiologique d’une Aspergillus nouvellement isolé au cors d’un affection pulmonaire de l’homme. C R Soc Biol Paris 244:1405–1408.
  • MoustafaA. 1975. Osmophilous fungi in the salt marshes of Kuwait. Can J Microbiol 21:1573–1580, doi:10.1139/m75-230
  • MoustafaAAl-MusallamA. 1975. Contribution to the fungal flora of Kuwait. Trans Br Mycol Soc 65:547–553, doi:10.1016/S0007-1536(75)80061-1
  • Muntanjola-CvetkovićMVukićVV. 1972. Influence of light on hülle cell and aleuriospore formation in Aspergillus. Trans Br Mycol Soc 58:67–72, doi:10.1016/S0007-1536(72)80072-X
  • NagiaMMEl-MetwallyMMShaabanMEl-ZalabaniSMHannaAG. 2012. Four butyrolactones and diverse bioactive secondary metabolites from terrestrial Aspergillus flavipes MM2: isolation and structure determination. Org Med Chem Lett 2:9, doi:10.1186/2191-2858-2-9
  • NakashimaRHaraHShigemasaYUedaNKimuraYHamazakiT. 1983. Structure and synthesis of asjanin, a metabolite from Aspergillus janus. Tottori Daigaku Kogakubu Kenkyo Hokuku 14:179–184.
  • NarcisoJParishM. 1997. Endogenous mycoflora of gable — top carton paperboard used for packaging fruit juice. J Food Sci 62:1223–1239, doi:10.1111/j.1365-2621.1997.tb12249.x
  • NeffSALeeSUAsamiYAhnJSOhHBaltrusaitisJGloerJBWicklowDT. 2012. Aflaquinolones A-G: secondary metabolites from marine and fungicolous isolates of Aspergillus spp. J Nat Prod 75:464–472, doi:10.1021/np200958r
  • NovákováAHubkaVDudováZMatsuzawaTKubátováAYaguchiTKolaříkM. 2014. New species in Aspergillus section Fumigati from reclamation sites in Wyoming (USA) and revision of A. viridinutans complex. Fungal Divers 64:253–274, doi:10.1007/s13225-013-0262-5
  • NovákováAHubkaVSaiz-JimenezCKolarikM. 2012a. Aspergillus baeticus sp. nov. and Aspergillus thesauricus sp. nov.: two species in section Usti originating from Spanish caves. Int J Syst Evol Microbiol 62:2778–2785, doi:10.1099/ijs.0.041004-0
  • NovákováAŠimonovičováAKubátováA. 2012b. List of cultivable microfungi recorded from soils, soil related substrates and underground environment of the Czech and Slovak Republics. Mycotaxon 119:1–186, doi:10.5248/119.1
  • OrputPCurtisJ. 1957. Soil micro fungi in relation to the Prairie continuum in Wisconsin. Ecology 38:628–637, doi:10.2307/1943129
  • OzsoyNBerkkanH. 2003. Production and characterization of α-galactosidase from Aspergillus flavipes. Cell Biochem Funct 21:387–389, doi:10.1002/cbf.1041
  • PanwarK. 1970. Rhizosphere and non-rhizosphere mycoflora of sand dunes of western Rajasthan. Sci Cult 36: 661–662.
  • PawarVThirumalacharM. 1966. Studies on halophilic soil fungi from Bombay. Nova Hedwigia 12:497–508.
  • PažoutováSHamplovaIAndersonMDenningD. 1999. Use of the 6-methylsalicylic-acid-synthase gene as a discriminating marker between Aspergillus terreus and Aspergillus flavipes. Folia Microbiol 44:503–509, doi:10.1007/BF02816250
  • PetersonSW. 2000. Phylogenetic relationships in Aspergillus based on rDNA sequence analysis. In: SamsonRAPittJI, eds. Integration of modern taxonomic methods for Penicillium and Aspergillus classification. Amsterdam: Harwood Academic Publishers. p 163–178.
  • PetersonSW. 2008. Phylogenetic analysis of Aspergillus species using DNA sequences from four loci. Mycologia 100: 205–226, doi:10.3852/mycologia.100.2.205
  • PetersonSW. 2012. Aspergillus and Penicillium identification using DNA sequences: barcode or MLST? Appl Microbiol Biotechnol 95:339–344, doi:10.1007/s00253-012-4165-2
  • PiccoliBAssiniRGambaroSPastoniFD’OrsoMFranceschinSZampolloFDe VitoG. 2001. Microbiological pollution and ocular infection in CAD operators: an on-site investigation. Ergonomics 44: 658–667, doi:10.1080/00140130117916
  • PittJIHockingAD. 2009. Aspergillus and related teleomorphs. In: PittJHockingA, eds. Fungi and Food Spoilage. London: Springer. p 275–337.
  • PittJISamsonRA. 1993. Species names in current use in the Trichocomaceae (Fungi, Eurotiales). In: GreuterW, ed. NCU-2: Names in Current Use in the Families Trichocomaceae, Cladoniaceae, Pinaceae, and Lemnaceae. Königstein: Koeltz Scientific Books. p 13–57.
  • PittJISamsonRA. 2000. Types of Aspergillus and Penicillium and their teleomorphs in current use. In: SamsonRAPittJI, eds. Integration of modern taxonomic methods for Penicillium and Aspergillus classification. Amsterdam: Harwood Academic Publishers. p 51–79.
  • PittJISamsonRAFrisvadJC. 2000. List of accepted species and their teleomorphs in the family Trichocomaceae. Integration of modern taxonomic methods for Penicillium and Aspergillus. Amsterdam: Harwood Academic Publishers. p 9–47.
  • PoreRLarshH. 1967. Aleuriospore formation in four related Aspergillus species. Mycologia 59:318–325, doi:10.2307/3756805
  • PoreRLarshH. 1968. Experimental pathology of Aspergillus terreus-flavipes group species. Med Mycol 6:89–93, doi:10.1080/00362176885190171
  • PoreRPyleCLarshHWSkvarlaJJ. 1969. Aspergillus carneus aleuriospore cell wall ultrastructure. Mycologia 61:418–422, doi:10.2307/3757142
  • PowellJ. 1971. Fungi and bacteria associated with Cronartium comandrae on lodgepole pine in Alberta. Phytoprotection 52:45–51.
  • RaistrickHRudmanP. 1956. Studies in the biochemistry of micro-organisms. 97. Flavipin, a crystalline metabolite of Aspergillus flavipes (Bainier & Sartory) Thom & Church and Aspergillus terreus Thom. Biochem J 63: 395–406.
  • RakemanJLBuiULaFeKChenYCHoneycuttRJCooksonBT. 2005. Multilocus DNA sequence comparisons rapidly identify pathogenic molds. J Clin Microbiol 43:3324–3333, doi:10.1128/JCM.43.7.3324-3333.2005
  • RaperKBFennellDI. 1965. The genus Aspergillus. Baltimore: Williams & Wilkins Co. 686 p.
  • RaperKBThomC. 1944. New Aspergilli from soil. Mycologia 36:555–575, doi:10.2307/3754836
  • RochfortSFordJOvendenSWanSSGeorgeSWildmanHTaitRMMeurer-GrimesBCoxSCoatesJRhodesD. 2005. A novel aspochalasin with HIV-1 integrase inhibitory activity from Aspergillus flavipes. J Antibiot 58:279–283, doi:10.1038/ja.2005.34
  • RoselleGABairdIM. 1979. Aspergillus flavipes group osteomyelitis. Arch Intern Med 139:590–592, doi:10.1001/archinte.1979.03630420076025
  • SainiKNareshASurekhaMReddyS. 2012. Seasonal variation in mycoflora of unmilled rice in relation to mycotoxins contamination. Pak J Phytopathol 24:90–96.
  • SamsonRA. 1979. A compilation of the Aspergilli described since 1965. Stud Mycol 18:1–40.
  • SamsonRAGamsW. 1985. Typification of the species of Aspergillus and associated teleomorphs. In: SamsonRAGamsW, eds. Advances in Penicillium and Aspergillus Systematics. New York: Plenum Press. p 31–54.
  • SamsonRAHoubrakenJSummerbellRFlanniganBMillerJ. 2001. Common and important species of fungi and actinomycetes in indoor environments. In: FlanniganBSamsonRMillerJ, eds. Microorganisms in home and indoor work environments. Boca Raton: CRC Press. p 287–474.
  • SamsonRANoonimPMeijerMHoubrakenJFrisvadJCVargaJ. 2007. Diagnostic tools to identify black aspergilli. Stud Mycol 59:129–145, doi:10.3114/sim.2007.59.13
  • SamsonRAPetersonSWFrisvadJCVargaJ. 2011a. New species in Aspergillus section Terrei. Stud Mycol 69:39–55, doi:10.3114/sim.2011.69.04
  • SamsonRAVargaJMeijerMFrisvadJC. 2011b. New taxa in Aspergillus section Usti. Stud Mycol 69:81–97, doi:10.3114/sim.2011.69.06
  • SchultzRJohnsonEWisnerEBrownNByrneBSykesJ. 2008. Clinicopathologic and diagnostic imaging characteristics of systemic aspergillosis in 30 dogs. J Vet Intern Med 22:851–859, doi:10.1111/j.1939-1676.2008.0125.x
  • ShanTSunWLouJGaoSMouYZhouL. 2012. Antibacterial activity of the endophytic fungi from medicinal herb, Macleaya cordata. Afr J Biotechnol 11: 4354–4359.
  • SilesJAGonzález-MenéndezVPlatasGSampedroIGarcía-RomeraIBillsGF. 2014. Effects of dry olive residue transformed by Coriolopsis floccosa (Polyporaceae) on the distribution and dynamic of a culturable fungal soil community. Microb Ecol 67:648–658, doi:10.1007/s00248-013-0353-6
  • SinghASinghAB. 1999. Aspergillus spp. as an important occupational risk factor among susceptible individuals. Aerobiologia 15:233–240, doi:10.1023/A:1007614925794
  • SolísSLoezaJSeguraGTelloJReyesNLappePGuitérrezLRíosFHuitrónC. 2009. Hydrolysis of orange peel by a pectin lyase-overproducing hybrid obtained by protoplast fusion between mutant pectinolytic Aspergillus flavipes and Aspergillus niveus CH-Y-1043. Enzyme Microb Technol 44:123–128, doi:10.1016/j.enzmictec.2008.11.003
  • SprogøeKMannicheSLarsenTOChristophersenC. 2005. Janoxepin and brevicompanine B: antiplasmodial metabolites from the fungus Aspergillus janus. Tetrahedron 61:8718–8721, doi:10.1016/j.tet.2005.06.086
  • StuartEBlankF. 1955. Aspergillosis of the ear: a report of twenty-nine cases. Can Med Assoc J 72:334–337.
  • TamuraKPetersonDPetersonNStecherGNeiMKumarS. 2011. MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 28:2731–2739, doi:10.1093/molbev/msr121
  • ThomCChurchMB. 1926. The Aspergilli. Baltimore: Williams & Wilkins. 272 p.
  • TracySLMcGinnisMRPeacockJEJr 1983. Disseminated infection by Aspergillus terreus. Am J Clin Pathol 80: 728–733.
  • TresnerHHayesJA. 1971. Sodium chloride tolerance of terrestrial fungi. Appl Microbiol 22:210–213.
  • TuomiTReijulaKJohnssonTHemminkiKHintikkaELLindroosOKalsoSKoukila-KähköläPMussalo-RauhamaaHHaahtelaT. 2000. Mycotoxins in crude building materials from water-damaged buildings. Appl Environ Microbiol 66:1899–1904, doi:10.1128/AEM.66.5.1899-1904.2000
  • ValeraHRGomesJLakshmiSGururajaRSuryanarayanSKumarD. 2005. Lovastatin production by solid state fermentation using Aspergillus flavipes. Enzyme Microb Technol 37:521–526, doi:10.1016/j.enzmictec.2005.03.009
  • VanderwolfKJMallochDMcAlpineDFForbesGJ. 2013. A world review of fungi, yeasts, and slime molds in caves. Int J Speleol 42:77–96, doi:10.5038/1827-806X.42.1.9
  • VargaJTóthBKocsubéSFarkasBSzakácsGTérenJKozakiewiczZ. 2005. Evolutionary relationships among Aspergillus terreus isolates and their relatives. Antonie Leeuwenhoek 88:141–150, doi:10.1007/s10482-005-3870-6
  • VaughanMJMaierRMPryorBM. 2011. Fungal communities on speleothem surfaces in Kartchner Caverns, Arizona, USA. Int J Speleol 40:65–77, doi:10.5038/1827-806X.40.1.8
  • VennewaldISchönlebeJKlemmE. 2003. Mycological and histological investigations in humans with middle ear infections. Mycoses 46:12–18, doi:10.1046/j.1439-0507.2003.00835.x
  • WadhwaniKSrivastavaA. 1984. Fungi from otitis media of agricultural field workers. Mycopathologia 88:155–159, doi:10.1007/BF00436447
  • WalshTJPetraitisVPetraitieneRField-RidleyASuttonDGhannoumMSeinTSchaufeleRPeterJBacherJCaslerHArmstrongDEspinel-IngroffARinaldiMGLymanCA. 2003. Experimental pulmonary aspergillosis due to Aspergillus terreus: pathogenesis and treatment of an emerging fungal pathogen resistant to amphotericin B. J Infect Dis 188:305–319, doi:10.1086/377210
  • WieseJOhlendorfBBlümelMSchmaljohannRImhoffJF. 2011. Phylogenetic identification of fungi isolated from the marine sponge Tethya aurantium and identification of their secondary metabolites. Mar Drugs 9:561–585, doi:10.3390/md9040561
  • WileyBSimmonsE. 1973. New species and a new genus of Plectomycetes with Aspergillus states. Mycologia 65: 934–938, doi:10.2307/3758529
  • YaguchiTSomeyaAUdagawaS. 1994. Fennellia flavipes and Neosartorya stramenia, two new records from Japan. Mycoscience 35:175–178, doi:10.1007/BF02318496
  • YuanZLRaoLBChenYCZhangCLWuYG. 2011. From pattern to process: species and functional diversity in fungal endophytes of Abies beshanzuensis. Fungal Biol 115:197–213, doi:10.1016/j.funbio.2010.11.002
  • ZhouGXWijeratneEMKBigelowDPiersonLSVanEttenHDGunatilakaAAL. 2004. Aspochalasins I, J, and K: three new cytotoxic cytochalasans of Aspergillus flavipes from the rhizosphere of Ericameria laricifolia of the Sonoran desert. J Nat Prod 67:328–332, doi:10.1021/np030353m
  • ZukalH. 1893. Mykologische Mittheilungen. Osterr Bot Z 43:160–166, doi:10.1007/BF01701291
  • Zuluaga-MonteroAToledo-HernándezCRodríguezJASabatAMBaymanP. 2010. Spatial variation in fungal communities isolated from healthy and diseased sea fans Gorgonia ventalina and seawater. Aquat Biol 8: 151–160, doi:10.3354/ab00218

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