References
- Flannigan B, Samson RA, Miller JD (eds). Microorganisms in Home and Indoor Work Environments, Diversity, Health Impacts, Investigation and Control. Taylor and Francis, London. 2002.
- Scott J. 2002. http://www.sporometrics.com/Thesis/Title.htm.
- Hawksworth DL. The fungal dimension of biodiversity: magnitude, significance, and conservation. Mycol Res 1991; 95: 641–655
- McGinnis MR. Pathogenesis of indoor fungal diseases. Med Mycol 2004; 42: 107–117
- Gervais P, Molin P, Grajek W, Bensoussan M. Influence of the water activity of a solid substrate on the growth rate and sporogenesis of filamentous fungi. Biotech Bioeng 1988; 31: 457–463
- Andersen B, Frisvad JC. Characterization of Alternaria and Penicillium species from similar substrata based on growth at different temperature, pH and water activity. Syst Appl Microbiol 2002; 25: 162–172
- Grant C, Hunter CA, Flannigan B, Bravery AF. The moisture requirements of moulds isolated from domestic dwellings. Int Biodeterior 1989; 25: 259–284
- Park D. Phylloplane fungi: tolerance of hyphal tips to drying. Trans Br Mycol 1982; 79: 174–178
- Wosten HA. Hydrophobins: multipurpose proteins. Annu Rev Microbiol 2001; 55: 625–646
- Osherov N, May GS. The molecular mechanisms of conidial germination. FEMS Microbiol Lett 2001; 199: 153–160
- Armolik N, Dickson JG. Minimum humidity requirements for germination of conidia of fungi associated with storage of grain. Phytopathology 1956; 46: 462–465
- Das MKL, Prasad JS, Ahmad SK. Endoglucanase production by paper-degrading mycoflora. Lett Appl Microbiol 1997; 25: 313–315
- Hirvonen M, Papageorgiou AC. Crystal structure of a family 45 endoglucanase from Melanocarpus albomyces : mechanistic implications based on the free and cellobiose-bound forms. J Mol Biol 2003; 329: 403–410
- Mouyna I, Sarfati J, Recco P, et al. Molecular characterization of a cell wall-associated beta[1–3] endoglucanase of Aspergillus fumigatus. Med Mycol 2002; 40: 455–464
- Wessels JGH. Hydrophobins: Proteins that change the nature of the fungal surface. Adv Microb Physiol 1997; 38: 1–45
- Money NP, Caesar-Ton That TC, Frederick B, Henson JM. Melanin synthesis is associated with changes in hyphopodial turgor, permeability, and wall rigidity in Gaeumannomyces graminis var. graminis. Fungal Genet Biol 1998; 24: 240–251
- Langfelder K, Streibel M, Jahn B, Brakhage AA. Biosynthesis of fungal melanins and their importance for human pathogenic fungi. Fungal Genet Biol 2003; 38: 143–158
- Butler MJ, Day AW. Fungal melanins: a review. Can J Microbiol 1998; 44: 1115–1136
- Jacobson ES. Pathogenic roles for fungal melanins. Clin Microbiol Rev 2000; 13: 708–717
- Fogarty RV, Tobin JM. Fungal melanins and their interactions with metals. Enzyme Microb Technol 1996; 19: 311–317
- Molin P, Gervais P, Lemiere JP, Davet T. Direction of hyphal growth: a relevant parameter in the development of filamentous fungi. Res Microbiol 1992; 143: 777–784
- Boswell GP, Jacobs H, Davidson FA, Gadd GM, Ritz K. Functional consequences of nutrient translocation in mycelial fungi. J Theor Biol 2002; 217: 459–477
- Kershaw MJ, Talbot NJ. Hydrophobins and repellents: proteins with fundamental roles in fungal morphogenesis. Fungal Genet Biol 1998; 23: 18–33
- Wosten HA, de Vocht ML. Hydrophobins, the fungal coat unraveled. Biochim Biophys Acta 2000; 1469: 79–86
- Wosten HA, Schuren FH, Wessels JG. Interfacial self-assembly of a hydrophobin into an amphipathic protein membrane mediates fungal attachment to hydrophobic surfaces. EMBO J 1994; 13: 5848–5854
- Wosten HA, van Wetter MA, Lugones LG., et al. How a fungus escapes the water to grow into the air. Curr Biol 1999; 9: 85–88
- Talbot NJ. Fungal biology: Growing into the air. Curr Biol 1997; 7: R78–R81
- Gorny RL. Filamentous microorganisms and their fragments in indoor air – a review. Ann Agric Environ Med 2004; 11: 185–197
- Lacey J. The aerobiology of conidial fungi. In Cole GT, Kendrick B (eds). Biology of Conidial Fungi. Vol. 1. New York: Academic Press, 1981; pp. 373–415.
- Lacey J. Aggregation of spores and its effect on aerodynamic behaviour. Grana 1991; 30: 437–445
- Karlsson K, Malmberg P. Characterization of exposure to molds and actinomycetes in agricultural dusts by scanning electron microscopy, fluorescence microscopy and the culture method. Scand J Work Environ Health 1989; 15: 353–359
- Gorny RL, Reponen T, Willeke K, et al. Fungal fragments as indoor biocontaminants. Appl Environ Microbiol 2002; 68: 3522–3531
- Sorenson WG, Frazer DG, Jarvis BB, Simpson J, Robinson VA. Trichothecene mycotoxins in aerosolized conidia of Stachybotrys atra. Appl Environ Microbiol 1987; 53: 1370–1375
- Webster J. Spore projection in the hyphomycete Nigrospora sphaerica. New Phytol 1952; 51: 229–235
- Davis RR. Detachment of conidia by cloud droplets. Nature 1959; 183: 1695
- Davis RR. Wet ability and the capture, carriage and deposition of particles by raindrops. Nature 1961; 191: 616–617
- Meredith DS. Violent spore release in Helminthosporium turcicum. Phytopathology 1965; 55: 1099–1102
- Meredith DS. Spore dispersal in Alternaria porri (Ellis) Neerg. on onions in Nebraska. Ann Appl Biol 1966; 57: 67–73
- Pinckard JA. The mechanism of spore dispersal in Pernospora tabacina and certain other downy mildew fungi. Phytopathology 1942; 32: 505–511
- Webster J. Spore projection in Epicoccum and Arthrinium. Trans Br Mycol Soc 1966; 49: 339–343
- Gregory PH, Hirst JM, Last FT. Concentrations of basidiospores of the dry rot fungus (Merulius lacrymans) in the air of buildings. Acta Allergol 1953; 6: 168–174
- Jones EBC. Fungal adhesion. Mycol Res 1994; 98: 961–981
- Brasier CM. Mites and reproduction in Ceratocystis ulmi and other fungi. Trans Br Mycol Soc 1978; 70: 81–89
- Marin S, Sanchis V, Ramos AJ, et al. Environmental factors, in vitro interactions, and niche overlay between Fusarium moniliforme, F. proliferatum, and F. graminearum, Aspergillus and Penicillium species from maize grain. Mycol Res 1998; 102: 831–837
- Vujanovic V, Smoragiewicz W, Krzysztyniak K. Airborne fungal ecological niche determination as one of the possibilities for indirect mycotoxin risk assessment in indoor air. Environ Toxicol 2001; 16: 1–8
- Rayner ADM, Watkins ZR, Beeching JR. Self-regulation – an emerging concept from the fungal mycelium. The Fungal Colony, NAR Gow, GD Robson, GM Gadd. Cambridge University Press, Cambridge 1999; 1–24
- Christensen B, Thykaer J, Nielsen J. Metabolic characterization of high- and low-yielding strains of Penicillium chrysogenum. Appl Microbiol Biotechnol 2000; 54: 212–217
- Jarvis BB, Zhou Y, Wang S, et al. Toxigenic molds in water-damaged buildings: Dechlorogriseofulvins from Memnoniella echinata. J Nat Prod 1996; 59: 553–554
- Larsen TO. Volatiles in fungal taxonomy. Chemical Fungal Taxonomy, JC Frisvad, PD Bridge, DK Arora. Marcel Dekker, New York 1998; 263–287
- Pohland AE. Mycotoxins in review. Food Addit Contamin 1993; 10: 17–28
- Wheatley RE. The consequences of volatile organic compound mediated bacterial and fungal interactions. Antonie van Leeuwenhoek 2002; 81: 357–364
- Humphris SN, Bruce A, Buultjens E, Wheatley RE. The effects of volatile microbial secondary metabolites on protein synthesis in Serpula lacrymans. FEMS Microbiol Lett 2002; 210: 215–211
- Wheatley RE, Hackett C, Bruce A, Kundzewicz A. Effect of substrate composition on production of volatile organic compounds from Trichoderma spp. inhibitory to wood decay fungi. Int Biodeterior Biodegrad 1997; 39: 199–205
- Keshri G, Magan N. Detection and differentiation between mycotoxigenic and non-mycotoxigenic strains of two Fusarium spp. using volatile production profiles and hydrolytic enzymes. J Appl Microbiol 2000; 89: 825–833
- Demyttenaere JC, Morina RM, Sandra P. Monitoring and fast detection of mycotoxin-producing fungi based on headspace solid-phase microextraction and headspace sorptive extraction of the volatile metabolites. J Chromatogr A 2003; 985: 127–135
- Mackie A, Wheatley RE. Effects and incidence of volatile organic compound interactions between soil bacterial and fungal isolates. Soil Biol Biochem 1998; 31: 375–386
- McAfee BJ, Taylor A. A review of the volatile metabolites of fungi found on wood substrates. Nat Toxins 1999; 7: 283–303
- Schnurer J, Olsson J, Borjesson T. Fungal volatiles as indicators of food and feeds spoilage. Fungal Genet Biol 1999; 27: 209–217
- Fischer G, Dott W. Relevance of airborne fungi and their secondary metabolites for environmental, occupational and indoor hygiene. Arch Microbiol 2003; 179: 75–82
- Taylor G, Jabaji-Hare S, Charest PM, Khan W. Purification and characterization of an extracellular exochitinase, beta-N-acetylhexosaminidase, from the fungal mycoparasite Stachybotrys elegans. Can J Microbiol 2002; 48: 311–319
- Lorito M, Mach RL, Sposato P, et al. Mycoparasitic interaction relieves binding of the Cre1 carbon catabolite repressor protein to promoter sequences of the ech42 (endochitinase-encoding) gene in Trichoderma harzianum. Proc Nat Acad Sci 1996; 93: 14868–14872
- Fogliano V, Ballio A, Gallo M, et al. Pseudomonas lipodepsipeptides and fungal cell wall-degrading enzymes act synergistically in biological control. Mol Plant Microbe Interact 2002; 15: 323–333
- Woo S, Fogliano V, Scala F, Lorito M. Synergism between fungal enzymes and bacterial antibiotics may enhance biocontrol. Antonie van Leeuwenhoek 2002; 81: 353–356