Aspergillus Bibliography

This bibliography attempts to cover genetical and biochemical publications on Aspergillus nidulans and also includes selected references to related species and topics. I would be grateful for publication lists and reprints, especially for papers in books and less readily available periodicals. Entries have been checked as far as possible, but please tell me of any errors. Authors are kindly requested to send a copy of each article to the FGSC for its reprint collection.

John Clutterbuck. Institute of Biomedical and Life Sciences, Anderson College, University of Glasgow, Glasgow G11 6NU, Scotland, UK. Email: j.clutterbuck@bio.gla.ac.uk

Corrections to Fungal Genetics Newsletter 48

43. De Lucas, J.R., Martínez, O., Pérez, P., López, I., Valenciano, S. & Laborda, F. 2001 The Aspergillus nidulans carnitine carrier encoded by the acuH gene is exclusively located in mitochondria. FEMS Microbiol. Lett 201: 193-198

210. Zhou, R., Rasooly, R. & Linz, J.E. 2000 Isolation and analysis of fluP, a gene associated with hyphal growth and sporulation in Aspergillus parasiticus. Mol. Gen. Genet. 264: 514-520

New References

1. Adamama-Moraitou, K.K., Paitaki, C.G., Rallis, T.S. & Tontis, D. 2001 Aspergillus species cystitis in a cat. J. Feline Med. Surg. 3: 31-34

2. Adams, B., Lowe, D.J., Smith, A.T., Scazzocchio, C., Demais, S. & Bray, R.C. 2002 Expression of Drosophila melanogaster xanthine dehydrogenase in Aspergillus nidulans and some properties of the recombinant enzyme. Biochem. J. 362: 223-229

3. Adams, I.P., Dack, S., Dickinson, F.M. & Ratledge, C. 2002 The distinctiveness of ATP:citrate lyase from Aspergillus nidulans. Biochim. Biophys. Acta 1597: 36-41

4. Agger, T., Petersen, J.B., O'Connor, S.M., Murphy, R.L., Kelly, J.M. & Nielsen, J. 2001 Physiological characterisation of recombinant Aspergillus nidulans strains with different creA genotypes expressing A. oryzae α-amylase. J. Biotechnol. 92: 279-285

5. Amillis, S., Koukaki, M. & Diallinas, G. 2001 Substitution F569S converts UapA, a specific uric acid-xanthine transporter, into a broad specificity transporter for purine-related solutes. J. Mol. Biol. 313: 765-774

6. Anantharaman, V & Aravind, L. 2002 MOSC domains: ancient, predicted sulfur-carrier domains, present in diverse metal-sulfur cluster biosynthesis proteins including molybdenum cofactor sulfurases. FEMS Microbiol. Lett. 207: 55-61

7. Balter, M. 2002 France. Biologist wins battle over bureaucratic fungus. Science. 295: 2355.

8. Bañuelos, O., Casqueiro, J., Steidl, S., Gutiérrez, S., Brakhage, A. & Martín, J.F. 2002 Subcellular localization of the homocitrate synthase in Penicillium chrysogenum. Molec. Genet. Genomics 266: 711-719

9. Bibbins, M., Crepin, V.F., Cummings, N.J., Mizote, T., Baker, K., Mellits, K.H. & Connerton, I.F. 2002 A regulator gene for acetate utilisation from Neurospora crassa. Mol. Genet. Genomics 267: 498-505

10. Borneman, A.R., Hynes, M.J. & Andrianopoulos, A. 2002 A basic helix-loop-helix protein with similarity to the fungal morphological regulators, Phd1p, Efg1p and StuA, controls conidiation but not dimorphic growth in Penicillium marneffei. Mol. Microbiol. 44: 621-631

11. Bozsik, A., Szilagyi, Z., Benko, Z. & Sipiczki, M. 2002 Marker construction and cloning of a cut1-like sequence with ARS activity in the fission yeast Schizosaccharomyces japonicus. Yeast 19: 485-498

12. Bradshaw, R.E., Bird, D.M., Brown, S., Gardiner, R.E. & Hirst, P. 2001 Cytochrome c is not essential for viability of the fungus Aspergillus nidulans. Mol. Genet. Genomics 266: 48-55

13. Brandhorst, T., Dowd, P.F. & Kenealy, W.R. 2001 The effect of fungal ribosome inactivating proteins upon feeding choice in C. freemani, and indications of a mutualistic relationship with A. restrictus. Environmental mycology. Mycopathologia 152: 155-158

14. Brosch, G., Dangl, M., Graessle, S., Loidl, A., Trojer, P., Brandtner, E.-M., Mair, K., Walton, J.D., Baidyaroy, D. & Loidl, P. 2001 An inhibitor-resistant histone deacetylase in the plant pathogenic fungus Cochliobolus carbonum. Biochem. 40: 12855-12863

15. Bruno, K.S., Morrell, J.L., Hamer, J.E. & Staiger, C.J. 2001 SEPH, a Cdc7p orthologue from Aspergillus nidulans, functions upstream of actin ring formation during cytokinesis. Mol. Microbiol. 42: 3-12

16. Bruno-Bárcena, J.M., Lucca, M.E., Siñeriz, F. & Ramón, D. 2002 pH regulation of enzyme production in Aspergillus nidulans growing in aerobic batch fermenter. Biotechnol. Lett. 24: 567-572

17. Burghoorn, H.P., Soteropoulos, P., Paderu, P., Kashiwazaki, R. & Perlin, D.S. 2002 Molecular evaluation of the plasma membrane proton pump from Aspergillus fumigatus. Antimicrob. Agents Chemother. 46: 615-624

18. Cahuzac, B., Cerdan, R., Felenbok, B. & Guittet, E. 2001 The solution structure of an AlcR-DNA complex sheds light onto the unique tight and monomeric DNA binding of a Zn₂Cys₆ protein. Structure 9: 827-836

19. Calvo, A.M., Gardner, H.W. & Keller, N.P. 2001 Genetic connection between fatty acid metabolism and sporulation in Aspergillus nidulans. J. Biol. Chem. 276: 25766-25774

20. Cheng, J., Park, T.-S., Fischl, A.S. & Ye, X.S. 2001 Cell cycle progression and cell polarity require sphingolipid biosynthesis in Aspergillus nidulans. Mol. Cell. Biol. 21: 6198-6209

21. Chiou, C.-H., Miller, M., Wilson, D.L., Trail, F. & Loinz, J.E. 2002 Chromosomal location plays a role in regulation of aflatoxin gene expression in Aspergillus parasiticus. Appl. Env. Microbiol. 68: 306-315

22. Conesa, A., Jeenes, D., Archer, D.B., van den Hondel, C.A.M.J.J. & Punt, P.J. 2002 Calnexin overexpression increases manganese peroxidase production in Aspergillus niger. Appl. Env. Microbiol. 68: 846-851

23. Conesa, A., Punt, P.J., van Luijk, N. & van den Hondel, C.A.M.J.J. 2001 The secretion pathway in filamentous fungi: a biotechnological view. Fungal Genet. Biol. 33: 155-171

24. Coppin, E. 2002 The fle1 gene encoding a C2H2 zinc finger protein co-ordinates male and female sexual differentiation in Podospora anserina. Mol. Microbiol. 43: 1255-1268

25. Costa, M.A., Silva, N.C.G. & Castro-Prado, M.A.A. 2001 Genetic and cytological characterization of a developmental mutant of Aspergillus nidulans induced by 5-azacytidine. Biol. Res. 34: 91-98

26. Cuadros, S.C., Brito, A.G., Martinez-Rossi, N.M. & Rossi, A. 2001 The Aspergillus nidulans phsB4 mutation alters colonial growth and development of the mould at acidic pH. World J. Microbiol. Biotechnol. 17: 779-782

27. da Silva, M.C., Bertolini, M.C. & Ernandes, J.R. 2001 Biomass production and secretion of hydrolytic enzymes are influenced by the structural complexity of the nitrogen source in Fusarium oxysporum and Aspergillus nidulans. J. Basic Microbiol. 41: 269-280

28. Das, P., Ram, G.C., Dutta, T.K., Paul, A. & Singh, V.P. 2001 Use of agar gel double-diffusion test in detecting serum precipitating antibodies in livestock with systemic aspergillosis. Ind. J. Animal Sci. 71: 768-770

29. Dawe, A.L., Caldwell, K.A., Harris, P.M., Morris, N.R. & Caldwell, G.A. 2001 Evolutionarily conserved nuclear migration genes required for early embryonic development in Caenorhabditis elegans. Dev. Genes Evol. 211: 434-441

30. De Lucas, J.R., Domínguez, A.I., Higuero, Y., Martínez, O., Romero, B., Mendoza, A., Garcia-Bustos, J.F. & Laborda, F. 2001 Development of a homologous transformation system for the opportunistic human pathogen Aspergillus fumigatus based on the sC gene encoding ATP sulfurylase. Arch. Microbiol. 176: 106-113

31. de Vries, R.P., Benen, J.A.E., de Graaff, L.H. & Visser, J. 2002 Plant cell wall degrading enzymes produced by Aspergillus. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 263-279

32. Derkx P.M.F. & Madrid, S.M. 2001 The Aspergillus niger cypA gene encodes a cyclophilin that mediates sensitivity to the immunosuppressant cyclosporin A. Mol. Genet. Genomics 266: 527-536

33. Derkx P.M.F. & Madrid, S.M. 2001 The foldase CYPB is a component of the secretory pathway of Aspergillus niger and contains endoplasmic reticulum signal HEEL. Mol. Genet. Genomics 266: 537-545

34. Dezotti, N.O.C.R. & Zucchi, M.A.D. 2001 Identification of Aspergillus nidulans genes essential for the accumulation of sterigmatocystin. Fungal Genet. Biol. 34: 93-105

35. Diez, E., Álvaro, J., Espeso, E.A., Rainbow, L., Suárez, T., Tilburn, J., Arst, H.N.Jr., Peñalva, M.A. 2002 Activation of the Aspergillus PacC zinc finger transcription factor requires two proteolytic steps. EMBO J. 21: 1350-1359

37. Empel, J., Sitkiewicz, A., Andrukiewixz, A., Lasocki, K., Borsuk, P. & Weglenski, P. 2001 arcA, the regulatory gene for arginine catabolic pathway in Aspergillus nidulans. Mol. Genet. Genomics 266: 591-597

38. Fillinger, S., Chaveroche, M.-K., Shimizu, K., Keller, N. & d'Enfert, C. 2002 cAMP and ras signalling independently control spore germination in the filamentous fungus Aspergillus nidulans. Mol. Microbiol. 44: 1001-1016

39. Fillinger, S., Chaveroche, M.-K., van Dijck, P., de Vries, R., Ruijter, G., Thevelein, J. & d'Enfert, C. 2001 Trehalose is required for the acquisition of tolerance to a variety of stresses in the filamentous fungus Aspergillus nidulans. Microbiol. 147: 1851-1862

40. Flipphi, M., Kocialkowska, J. & Felenbok, B. 2002 Characteristics of physiological inducers of the ethanol

utilization (alc) pathway in Aspergillus nidulans. Biochem. J. 364: 25-31

41. Flory, M.R., Morphew, M., Joseph, J.D., Means, A.R. & Davis, T.N. 2002 Pcp1p, an Spc110p-related calmodulin target at the centrosome of the fission yeast Schizosaccharomyces pombe. Cell Growth Differentiation. 13: 47-58

42. Fraser, J.A., Davis, M.A. & Hynes, M.J. 2002 The genes gmdA, encoding an amidase, and bzuA, encoding a cytochrome P450, are required for benzamide utilization in Aspergillus nidulans. Fungal Genet. Biol. 35: 135-146

43. Fraser, J.A., Davis, M.A. & Hynes, M.J. 2002 A gene from Aspergillus nidulans with similarity to URE2 of Saccharomyces cerevisiae encodes a glutathione S-transferase which contributes to heavy metal and xenobiotic resistance. Appl. Env. Microbiol. 68: 2802-2808

44. Geiβenhöner, A., Sievers, N., Brock, M. & Fischer, R. 2001 Aspergillus nidulans DigA, a potential homolog of Saccharomyces cerevisiae Pep3 (Vps18), is required for nuclear migration, mitochondrial morphology and polarized growth. Mol. Genet. Genomics 226: 672-685

45. Gil, J.V. & Vallés, S. 2001 Effect of macerating enzymes on red wine aroma at laboratory scale: Exogenous addition or expression by transgenic wine yeasts. J. Agr. Food Chem. 49: 5515-5523

46. Goldman, G.H., McGuire, S.L. & Harris, S.D. 2002 The DNA damage response in filamentous fungi. Fungal Genet. Biol. 35: 183-195

47. Gómez, D., Cubero, B., Cecchetto, G. & Scazzocchio, C. 2002 PrnA, a Zn₂Cys₆ activator with a unique DNA recognition mode, requires inducer for in vivo binding. Mol. Microbiol. 44: 585-597

48. Gowher, H., Ehrlich, K.C. & Jeltsch, A. 2001 DNA from Aspergillus flavus contains 5-methylcytosine. FEMS Microbiol. Lett. 205: 151-155

49. Greene, V., Cao, H., Schanne, F.A.X. & Bartelt, D.C. 2002 Oxidative stress-induced calcium signalling in Aspergillus nidulans. Cell. Signalling 14: 437-443

50. Grynberg, M., Piotrowska, M., Pizzinini, E., Turner, G. & Paszewski A. 2001 The Aspergillus nidulans metE gene is regulated by a second system independent from sulphur metabolite repression. Biochim. Biophys. Acta. 1519: 78-84

51. Gundersen, G.G. 2002 Evolutionary conservation of microtubule-capture mechanisms. Nature Rev. Mol. Cell Biol. 3: 296-304

52. Gupta, G.D. & Heath, B. 2002 Predicting the distribution. Conservation, and functions of SNAREs and related proteins in fungi. Fungal Genet. Biol. 36: 1-21

53. Han, K.H. & Prade, R.A. 2002 Osmotic stress-coupled maintenance of polar growth in Aspergillus nidulans. Mol. Microbiol. 43: 1065-1078

54. Han, S. & Adams, T.H. 2001 Complex control of the developmental regulatory locus brlA in Aspergillus nidulans. Mol. Genet. Genomics 266: 260-270

55. Harris, S.D. 2001 Septum formation in Aspergillus nidulans. Curr. Opin. Microbiol. 4: 736-739

56. Hartmeier, W. & Reiss, M. 2000 Production of beer and wine. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 49-65

57. Heck, I.S., Schrag, J.D., Sloan, J., Millar, L.J., Kanan, G., Kinghorn, J.R. & Unkles, S.E. 2002 Mutational analysis of the gephyrin-related molybdenum cofactor biosynthetic gene cnxE from the lower eukaryote Aspergillus nidulans. Genetics 161: 623-632

58. Helmstaedt, K., Heinrich, G., Lipscomb, W.N. & Braus, G.H. 2002 Refined molecular hinge between allosteric and catalytic domain determines allosteric regulation and stability of fungal chorismate mutase. Proc. Nat. Acad. Sci. USA 99: 6631-6636

59. Hino, M., Fujie, A., Iwamoto, T., Hori, Y., Hashimoto, M., Tsurumi, Y., Sakamoto, K., Takase, S. & Hashimoto, S. 2001 Chemical diversity in lipopeptide antifungal antibiotics. J. Indust. Microbiol. Biotechnol. 27: 157-162

60. Hoffmann, B., Valerius, O., Andermann, M. Braus, G.H. 2001 Transcriptional autoregulation and inhibition of mRNA translation of amino acid regulator gene cpcA of filamentous fungus Aspergillus nidulans. Mol. Biol. Cell 12: 2846-2857

61. Hoffmann, B., Zuo, W., Liu, A. & Morris, N.R. 2001 The LIS1-related protein NUDF of Aspergillus nidulans and its interaction partner NUDE bind directly to specific subunits of dynein and dynactin and to α- and γ-tubulin. J. Biol. Chem. 276: 38877-38884

62. Hofmann, A.F. & Harris, S.D. 2001 The Aspergillus nidulans musN gene encodes a RecQ helicase that interacts with the PI-3K-related kinase UVSB. Genetics 159: 1595-1604

63. Holzmann, K., Schreiner, E. & Schwab, H. 2002 A Penicillium chrysogenum gene (aox) identified by specific induction upon shifting pH encodes for a protein which shows high homology to fungal alcohol oxidases. Curr. Genet. 40: 339-344

 64. Hynes, M.J., Draht, O.W. & Davis, M.A. 2002 Regulation of the acuF gene, encoding phosphoenolpyruvate carboxykinase in the filamentous fungus Aspergillus nidulans. J. Bacteriol. 184: 183-190

65. Ichinomiya, M., Motoyama, T., Fujiwara, M., Takagi, M., Horiuchi, H. & Ohta, A. 2002 Repression of chsB expression reveals the functional importance of class IV chitin synthase

gene chsD in hyphal growth and conidiation of Aspergillus nidulans. Microbiol. 148: 1335-1347

66. Inagaki, Y., Blouin, C., Doolittle, W.F. & Roger, A.J. 2002 Convergence and constraint in eukaryotic release factor 1 (eRF1) domain 1: the evolution of stop codon specificity. Nucleic Acids Res. 30: 532-544

67. Jalving, R., Bron, P., Kester, H.C.M., Visser, J. & Schaap, P.J. 2002 Cloning of a prolidase gene from Aspergillus nidulans and characterisation of its product. Mol. Genetic. Genomics 267: 218-222

68. Joseph, J.D. & Means, A.R. 2002 Calcium binding is required for calmodulin function in Aspergillus nidulans. Euk. Cell 1: 119-125

69. Jung, M.K., Prigozhina, N., Oakley, C.E., Nogales, E. & Oakley, B.R. 2001 Alanine-scanning mutagenesis of Aspergillus γ-tubulin yields diverse and novel phenotypes. Mol. Biol. Cell 12: 2119-2136

70. Juvvadi, P.R., Arioka, M., Nakajima, H. & Kitamoto, K. 2001 Cloning and sequence analysis of cnaA gene encoding the catalytic subunit of calcineurin from Aspergillus oryzae. FEMS Microbiol. Lett. 204: 169-174

71. Kato, M., Naruse, F., Kobayashi, T. & Tsukagoshi, N. 2001 No factors except for the Hap complex increase the Taka-amylase A gene expression by binding to the CCAAT sequence in the promoter region. Biosci. Biotechnol. Biochem. 65: 2340-2342

72. Kato, M., Tateyama, Y., Hayashi, K., Naruse, F., Oonishi, R., Tanoue, S., Tanaka, A., Kobayashi, T. & Tsukagoshi, N. 2002 A quantity control mechanism regulating levels of the HapE subunit of the Hap complex in Aspergillus nidulans: No accumulation of HapE in hapC deletion mutants. FEBS Lett. 512: 227-229

73. Kato, N., Suyama, S., Shirokane, M., Kato, M., Kobayashi, T. & Tsukagoshi, N. 2002 Novel α-glucosidase from Aspergillus nidulans with strong transglycosylation activity. Appl. Env. Microbiol. 68: 1250-1256

74. Kellner, E.M. & Adams, T.H. 2002 Mutations in sfdA and sfdB suppress multiple developmental mutations in Aspergillus nidulans. Genetics 160: 159-168

75. Kessler, M.M., Willins, D.A., Zeng, Q., Del Mastro, R.G., Cook, R., Doucette-Stamm, L., Lee, H., Caron, A., McClanahan, T.K., Wang, L., Greene, J., Hare, R.S., Cottarel, G. & Shimer, G.H.Jr. 2002 The use of direct cDNA selection to rapidly and effectively identify genes in the fungus Aspergillus fumigatus. Fungal Genet. biol. 36: 59-70

76. Klich, M., Mendoza, C., Mullaney, E., Keller, N. & Bennett, J. W. 2001 A new sterigmatocystin-producing Emericella variant from agricultural desert soils. System. Appl. Microbiol. 24: 131-138

77. Kraus, P.R. & Harris, S.D. 2001 The Aspergillus nidulans snt genes are required for the regulation of septum formation and cell cycle checkpoints. Genetics 159: 557-569

78. Kraus, P.R., Hofmann, A.F. & Harris, S.D. 2002 Characterization of the Aspergillus nidulans 14-3-3 homologue, ArtA. FEMS Microbiol. Lett. 210: 61-66

79. Kubodera, T., Yamashita, N. & Nishimura, A. 2002 Transformation of Aspergillus sp. and Trichoderma reesei using the pyrithiamine resistance gene (ptr) of Aspergillus oryzae. Biosci, Biotechnol. Biochem. 66: 404-406

80. Kunová, Z. & Piecková, E. 2002 Isolation of fluconazole-tolerant micromycetes onto different cultivation media. Folia Microbiol. 47: 113-117

81. Kuroki, Y., Juvvadi, P.R., Arioka, M., Nakajima, H. & Kitamoto, K. 2002 Cloning and characterization of vmaA, the gene encoding a 69-kDa catalytic subunit of the vacuolar H⁺-ATPase during alkaline pH mediated growth of Aspergillus oryzae. FEMS Microbiol. Lett. 209: 277-282

82. Kwon, B.K., Han, K.H., Han, K.Y., Ju, S.M., Hwang, S.G., Jeon, B.H., Han, D.M. & Kim, W.S. 2001 Molecular cloning of kpcA gene encoding a Kex2p-like endoprotease from Aspergillus nidulans. Mol. Cells 12: 142-147

83. Laich, F., Fierro, F. & Martín, J.F. 2002 Production of penicillin by fungi growing on food products: identification of a complete penicillin gene cluster in Penicillium griseofulvum and a truncated cluster in Penicillium verrucosum. Appl. Env. Microbiol. 68: 1211-1219

84. Lee, H.-H., Park, J.-S., Chae, S.K., Maeng, P.J. & Park, H.-M. 2002 Aspergillus nidulans sod^VIC1 mutation causes defects in cell wall biogenesis and protein secretion. FEMS Microbiol. Lett. 208: 253-257

85. Leonardo, A.L. & Castro-Prado, M.A.A. 2001 Avaliação do potencial recombinogênico do antibiótico danofloxacina em células diplóides de Aspergillus nidulans. (Evaluation of the recombinogenic activity of danofloxacin in diploid cells of Aspergillus nidulans.- ENGLISH ABSTRACT) Arq. Bras. Med. Vet. Zootec. 53: 130-135

86. Lenouvel, F., Fraissinet-Tachet, L., van de Vondervoort, P.J.I. & Visser, J. 2001 Isolation of UV-induced mutations in the areA nitrogen regulatory gene of Aspergillus niger, and construction of a disruption mutant. Mol. Genet. Genomics 266: 42-47

87. Liu, X., Osherov, N., Yamashita, R., Brzeska, H., Korn, E.D. & May, G.S. 2001 Myosin I mutants with only 1% of wild-type actin-activated MgATPase activity retain essential in vivo function(s). Proc. Natl. Acad. Sci. USA 98:9122-9127

88. Lockington, R.A. & Kelly, J.M. 2002 The WD40-repeat protein CreC interacts with and stabilizes the deubiquitinating enzyme CreB in vivo in Aspergillus nidulans. Mol. Microbiol. 43: 1173-1182

89. Loke, P. & Sim, T.-S. 2001 Site-directed mutagenesis of proline-285 to leucine in Cephalosporium acremonium isopenicillin N-synthase affects catalysis and increases soluble expression at higher temperatures. Z. Naturforsch. 56c: 413-415

90. MacCabe, A.P. & Ramón, D. 2001 Expression of the Aspergillus nidulans xlnC gene encoding the X₃₄ endo-xylanase is subject to carbon catabolite repression and pH control. World J. Microbiol, Biotechnol. 17: 57-60

91. Machado, M.de F.P.S. & Castro-Prado, M.A.A. 2001 Differential esterase expression in developmental mutants of Aspergillus nidulans. Biochem. Genet. 39: 357-368

92. Margelis, S., D'Souza, C., Small, A.J., Hynes, M.J., Adams, T.H. & Davis, M.A. 2001 Role of glutamine synthetase in nitrogen metabolite repression in Aspergillus nidulans. J. Bacteriol. 183: 5826-5833

93. Marui, J., Tanaka, A., Mimura, S., de Graaff, L.H., Visser, J., Kitamoto, N., Kato, M., Kobayashi, T. & Tsukagoshi, N. 2002 A transcriptional activator, AoXlnR, controls the expression of genes encoding xylanolytic enzymes in Aspergillus oryzae. Fungal Genet. Biol. 35: 157-169

94. Maruyama, J.-i., Nakajima, H., Kitamoto, K. 2001 Visualization of nuclei in Aspergillus oryzae with EGFP and analysis of the number of nuclei in each conidium by FACS. Biosci. Biotechnol. Biochem. 65: 1504-1510

95. Maruyama, J.-i., Nakajima, H. & Kitamoto, K. 2002 Observation of EGFP-visualized nuclei and distribution of vacuoles in Aspergillus oryzae arpA null mutant. FEMS Microbiol. Lett. 206: 57-61

96. Meletiadis, J., Mouton, J.W., Meis, J.F.G.M., Bouman, B.A., Donnelly, J.P., Verweij, P.E. & Eurofung Network 2001 Colorimetric assay for antifungal susceptibility testing of Aspergillus species. J. Clin. Microbiol. 39: 3402-3408

97. Meletiadis, J., Mouton, J.W., Meis, J.F.G.M., Bouman, B.A., Donnelly, P.J., Verweij, P.E. & Eurofung Network 2001 Comparison of spectrophotometric and visual readings of NCCLS method and evaluation of a colorimetric method based on reduction of a soluble tetrazolium salt, 2,3-bis {2-methoxy-4-nitro-5-[(sulfenylamino) carbonyl]-2H- tetrazolium-hydroxide}, for antifungal susceptibility testing of Aspergillus species. J. Clin. Microbiol. 39: 4256-4263

98. Mellado, E., Diaz-Guerra, T.M., Cuenca-Estrella, M. & Rodriguez-Tudela, J.L. 2001 Identification of two different 14-α sterol demethylase-related genes (cyp51A and cyp51B) in Aspergillus fumigatus and other Aspergillus species. J. Clin. Microbiol. 39: 2431-2438

99. Meyer, V., Weddle, M. & Stahl, U. 2002 Transcriptional regulation of the antifungal protein in Aspergillus giganteus. Molec. Genet. Genomics 266: 747-757

100. Millar, L.J., Heck, I.S., Sloan, J., Kana'n, G.J.M., Kinghorn, J.R. & Unkles, S.E. 2001 Deletion of the cnxE gene encoding the gephyrin-like protein involved in the final stages of molybdenum cofactor biosynthesis in Aspergillus nidulans. Mol. Genet. Genomics 266: 445-453

101. Momany, M., Richardson, E.A., Van Sickle, C. & Jedd, G. 2002 Mapping Woronin body position in Aspergillus nidulans. Mycologia 94: 260-266

102. Monahan, B.J., Fraser, J.A., Hynes, M.J. & Davis, M.A. 2002 Isolation and characterization of two ammonium permease genes, meaA and mepA, from Aspergillus nidulans. Euk. Cell 1: 85-94

103. Monahan, B.J., Unkles, S.E., I, T.T., Kinghorn, J.R., Hynes, M.J. & Davies, M.A. 2002 Mutation and functional analysis of the Aspergillus nidulans ammonium permease MeaA and evidence for interaction with itself and MepA. Fungal Genet. Biol. 36: 35-46

104. Moraes, A.M.L., Corrado, M., Holanda, V.L., Costa, G.L., Ziccardi, M., Lourenço-de-Oliveira, R.de & Oliveira, P.C. 2001 Aspergillus from Brazilian mosquitoes: I. Genera Aedes and Culex from Rio de Janeiro State. Mycotaxon 78: 413-422

105. Moralejo, F.J., Watson, A.J., Jeenes, D.J., Archer, D.B. & Martín, J.F. 2001 A defined level of protein disulphide isomerase expression is required for optimal secretion of thaumatin by Aspergillus awamori. Mol. Genet. Genomics 266: 246-253

106. Morozov, I.Y., Galbis-Martinez, M., Jones, M.G. & Caddick, M.X. 2001 Characterization of nitrogen metabolite signalling in Aspergillus via the regulated degradation of areA mRNA. Mol. Microbiol. 42: 269-277

107. Mueller, E., Bailey, A., Corran, A., Michael, A.J. & Bowyer, P. 2001 Ornithine decarboxylase knockout in Tapesia yallundae abolishes infection plaque formation in vitro but does not reduce virulence toward wheat. Mol. Plant-Microbe Interact. 14: 1303-1311

108. Müller, C., McIntyre, M., Hansen, K. & Nielsen, J. 2002 Metabolic engineering of Aspergillus oryzae by altering chitin synthesis. Appl. Env. Microbiol. 68: 1827-1836

109. Nakaune, R., Hamamoto, H., Imada, J., Akutsu, K. & Hibi, T. 2002 A novel ABC transporter gene, PMR5, is involved in multidrug resistance in the phytopathogenic fungus Penicillium digitatum. Mol. Genet. Genomics 267: 179-185

110. Naranjo. L., Martin de Valmaseda, E., Bañuelos, O., Lopez, P., Riaño, J., Casqueiro, J. & Martin, J.F. 2001 Conversion of pipecolic acid into lysine in Penicillium chrysogenum requires pipecolate oxidase and saccharopine reductase: characterization of the lys7 gene encoding saccharopine reductase. J. Bacteriol. 183: 7165-7172

111. Narendja, F., Goller, S.P., Wolschek, M. & Strauss, J. 2002 Nitrate and the GATA factor AreA are necessary for in vivo binding of NirA, the pathway-specific transcriptional activator of Aspergillus nidulans. Mol. Microbiol. 44: 573-583

112. Nichols, C.E., Cocklin, S., Dodds, A., Ren, J., Lamb, H., Hawkins, A.R. & Stammers, D.K. 2001 Expression, purification and crystallization of Aspergillus nidulans NmrA, a negative regulatory protein involved in nitrogen-metabolite repression. Acta Crystallographica D-Biol. Crystallography 57: 1722-1725

113. Nigam, S., Sarma P.V.G.K., Ghosh, P.C. & Sarma, P.U. 2001 Characterization of Aspergillus fumigatus protein disulphide isomerase family gene. Gene 281: 143-150

114. Nout, M.J. & Aidoo, K.E. 2000 Asian fungal food fermentation. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 23-47

115. Oberegger, K., Schoeser, M., Zadra, I., Abt, B. & Haas, H. 2001 SREA is involved in regulation of siderophore biosynthesis, utilization and uptake in Aspergillus nidulans. Mol. Microbiol.

41: 1077-1089116. Ohsumi, K., Arioka. M., Nakajima, H. & Kitamoto, K. 2002 Cloning and characterization of a gene (avaA) from Aspergillus nidulans encoding a small GTPase involved in vacuolar biogenesis. Gene 291: 77-84

117. Ohsumi, K., Matsuda, Y., Nakajima, H. & Kitamoto, K. 2001 Cloning and characterization of the cpyA gene encoding intracellular carboxypeptidase from Aspergillus nidulans. Biosci. Biotechnol. Biochem. 65: 1175-1180

118. Osherov, N., Kontoyiannis, D.P., Romans, A. & May, G.S. 2001 Resistance to itraconazole in Aspergillus nidulans and Aspergillus fumigatus is conferred by extra copies of the A. nidulans P-450 14α-demethylase gene, pdmA. J. Antimicrob. Chemother. 48: 75-81

119. Park, S.-M. 2001 Improved transformation of the filamentous fungus Aspergillus niger using Agrobacterium tumefaciens. Mycobiol. 29: 132-134

120. Peñalva, M.A. 2001 A fungal perspective on human inborn errors of metabolism: alkaptonuria and beyond. Fungal Genet. Biol. 34: 1-10

121. Prigozhina, N.L., Walker, R.A., Oakley, C.E. & Oakley, B.R. 2001 γ-tubulin and the C-terminal motor domain kinesin-like protein, KLPA, function in the establishment of spindle bipolarity in Aspergillus nidulans. Mol. Biol. Cell 12: 3161-3174

122. Quaglia, M.G., Donati, E., Desideri, N., Fanali, S., D'Auria, F.D. & Tecca, M. 2002 Chiral discrimination by HPLC and CE and antifungal activity of racemic fenticonazole and its enantiomers. Chirality 14: 449-454

123. Rath, P.-M. 2001 Phenotypic and genotypic characterization of reference strains of the genus Aspergillus. Mycoses 44: 65-72

124. Requena, N., Alberti-Segui, C., Winzenburg, E., Horn, C., Schliwa, M., Philippsen, P., Liese, R. & Fischer, R. 2001 Genetic evidence for a microtubule-destabilizing effect of conventional kinesin and analysis of its consequences for the control of nuclear distribution in Aspergillus nidulans. Mol. Microbiol. 42: 121-132

125. Ribard, C., Scazzocchio, C. & Oestreicher, N. 2001 The oxpA5 mutation of Aspergillus nidulans is an allele of adB, the gene encoding adenylosuccinate synthetase. Mol. Genet. Genomics 266: 701-710

126. Rodriguez-Sáiz, M., Barredo, J.L., Moreno, M.A.,

Fernández-Cañón, J.M., Peñalva, M.A. & Díez, B. 2001 Reduced function of a phenylacetate-oxidizing cytochrome P450 caused strong genetic improvement in early phylogeny of penicillin-producing strains. J. Bacteriol. 183: 5465-5471

127. Rodríguez-Trelles, F., Tarrío, R. & Ayala, F.J. 2001 Xanthine dehydrogenase (XDH): episodic evolution of a "neutral" protein. J. Mol. Evol. 53: 485-495

128. Rohde, M., Shwienbacher, M., Nikolaus, T., Heesemann, J. & Ebel, F. 2002 Detection of early phase specific surface appendages during germination of Aspergillus fumigatus conidia. FEMS Microbiol. Lett. 206: 99-105

129. Roslan, H.A., Salter, M.G., Wood, C.D., White, M.R.H., Croft, K.P., Robson, F., Coupland, G., Doonan, J., Laufs, P., Tomsett, A.B. & Caddick, M.X. 2001 Characterization of the ethanol-inducible alc gene-expression system in Arabidopsis thaliana. Plant J. 28: 225-235

130. Ruijter, G.J.G., Kubicek, C.P. & Visser, J. 2002 Production of organic acids by fungi. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 213-230

131. Sandhu, S.S., Kinghorn, J.R., Rajak, R.C. & Unkles, S.E. 2001 Transformation system of Beauveria bassiana and Metarhizium anisopliae using nitrate reductase gene of Aspergillus nidulans. Ind. J. Exp. Biol. 39: 650-653

132. Santos, M., Rebordinos, L., Gutiérrez, S., Cardoza, R.-E., Martín, J.-F. & Cantoral, J.-M. 2001 Characterization of the gdhA gene from the phytopathogen Botrytis cinerea. Fungal Genet. Biol. 34: 193-206

133. Schmidt, F.R. 2000 Beta-lactam antibiotics. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 69-91

134. Schuren, J.H.F. 2000 Heterologous protein production. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 389-403

135. Semighini, C.P., Marins, M., Goldman, M.H.S. & Goldman, G.H. 2002 Quantitative analysis of the relative transcript levels of ABC transporter atr genes in Aspergillus nidulans by real-time reverse transcription-PCR assay. Appl. Env. Microbiol. 68: 1351-1357

136. Shanmugam, K., Subrahmanyam, S., Tarakad, S.V., Kodandapani, N. & Stanly, D'S.F. 2001 2,4-Toluene diamines-their carcinogenicity, biodegradation, analytical techniques and an approach towards development of biosensors. Analyt. Sci. 17: 1369-1374

137. Sharpless, K.E. & Harris, S.D. 2002 Functional characterization and localization of the Aspergillus nidulans formin SEPA. Mol. Biol. Cell 13: 469-479

138. Shaw, B.D., Momany, C. & Momany, M. 2002 Aspergillus nidulans swoF encodes an N-myristoyl transferase. Euk. Cell 1: 241-248

139. Solem, A., Chatterjee, P. & Caprara, M.G. 2002 A novel mechanism for protein-assisted group I intron splicing. RNA (New York) 8: 412-425

140. Stahmann, K.-P., Arst, H.N.Jr., Althöfer, H., Revuelta, J.L., Monschau, N., Schlüpen, C., Gätgens, C., Wiesenburg, A. & Schlösser, T. 2001 Riboflavin, overproduced during sporulation of Ashbya gossypii, protects its hyaline spores against ultraviolet light. Env. Microbiol. 3: 545-550

 141. Strittmatter, A.W., Irniger, S. & Braus, G.H. 2001 Induction of jlbA mRNA synthesis for a putative bZIP protein of Aspergillus nidulans by amino acid starvation. Curr. Genet. 39: 327-334

142. Swart, K., Debets, A.J.M., Bos, C.J., Slakhorst, M., Holub, E.F. & Hoekstra, R.F. 2001 Genetic analysis in the asexual fungus Aspergillus niger. Acta Biol. Hung. 52: 335-343

143. Szewczyk, E., Andrianopoulos, A., Davis, M.A. & Hynes, M.J. 2001 A single gene produces mitochondrial, cytoplasmic, and peroxisomal NADP-dependent isocitrate dehydrogenase in Aspergillus nidulans. J. Biol. Chem. 276: 37722-37729

144. Tanaka, A., Kato, M., Nagase, T., Kobayashi, T. & Tsukagoshi, N. 2002 Isolation of genes encoding novel transcription factors which interact with the Hap complex from Aspergillus species. Biochim. Biophys. Acta 1576: 176-182

145. Tani, S., Itoh, T., Kato, M., Kobayashi, T. & Tsukagoshi, N. 2001 In vivo and in vitro analyses of the AmyR binding site of the Aspergillus nidulans agdA promoter; requirement of the CGG direct repeat for induction and high affinity binding of AmyR.

Biosci. Biotechnol. Biochem. 65: 1568-1574

146. Thammarongtham, C., Turner, G., Moir, A.J., Tanticharoen, M. & Cheevadhanarak, S. 2001 A new class of glutaminase from Aspergillus oryzae. J. Mol. Microbiol. Biotechnol. 3: 611-617

147. Toda, T., Sano, M., Honda, M., Rimoldi, O.J., Yang, Y., Yamamoto, M., Takase, K., Hirozumi, K., Kitamoto, K., Minetoki, T., Gomi, K. & Machida, M. 2001 Deletion analysis of the enolase (enoA) promoter from the filamentous fungus Aspergillus oryzae. Curr. Genet. 40: 260-267

148. Unkles, S.E., Zhou, D., Siddiqi, M.Y., Kinghorn, J.R. & Glass, A.D.M. 2001 Apparent genetic redundancy facilitates ecological plasticity for nitrate transport. EMBO J. 20: 6246-6255

149. Vitale, R.G., Mouton, J.W., Afeltra, J., Meis, J.F.G.M. & Verweij, P.E. 2002 Method for measuring postantifungal effect in Aspergillus species. Antimicrob. Agents Chemother. 46: 1960-1965

150. Vujanovic, V., Smoragiewicz, W. & Krzysztyniak, K. 2001 Airborne fungal ecological niche determination as one of the possibilities for indirect mycotoxin risk assessment in indoor air. Environ. Toxicol. 16:1-8

151. Waalwijk, C., Mendes, O., Verstappen, E.C.P., de Waard, M.A. & Kema, G.H.J. 2002 Isolation and characterization of the mating-type idiomorphs from the wheat septoria leaf blotch fungus Mycosphaerella graminicola. Fungal Genet. Biol. 35: 277-286

152. Wasylnka, J.A., Simmer, M.I. & Moore, M.M. 2001 Differences in sialic acid density in pathogenic and non-pathogenic Aspergillus species. Microbiology 147: 869-877

153. Watanabe, A. & Ebizuka, Y. 2002 A novel hexaketide naphthalene synthesized by a chimeric polyketide synthase composed of fungal pentaketide and heptaketide synthases. Tetrahedron Lett. 43: 843-846

154. Wei, H., Scherer, M., Singh, A., Liese, R. & Fischer, R. 2001 Aspergillus nidulans α-1,3 glucanase (mutanase), mutA, is expressed during sexual development and mobilizes mutan. Fungal Genet. Biol. 34: 217-227

155. Wendland, J. 2001 Comparison of morphogenetic networks of filamentous fungi and yeasts. Fungal Genet. Biol. 34: 63-82

156. Westermann, B. & Prokisch, H. 2002 Mitochondrial dynamics in filamentous fungi. Fungal Genet. Biol. 36: 91-97

157. Westfall, P.J. & Momany, M. 2002 Aspergillus nidulans septin AspB plays pre- and postmitotic roles in septum, branch, and conidiophore development. Mol. Biol. Cell 13: 110-118

158. Yoon, J.H., Seong, K.Y., Chae, S.-K. & Kang, H.S. 2001 UVSC of Aspergillus nidulans is a functional homolog of RAD51 in yeast. J. Biochem. Mol. Biol. 34: 428-433

 159. Zeilinger, S., Ebner, A., Marosits, T., Mach, R. & Kubicek, C.P. 2001 The Hypocrea jecorina HAP 2/3/5 protein complex binds to the inverted CCAAT-box (ATTGG) within the cbh2 (cellobiohydrolase II-gene) activating element. Mol. Genet. Genomics 266: 56-63

160. Zhang, J., Han, G. & Xiang, X. 2002 Cytoplasmic dynein intermediate chain and heavy chain are dependent upon each other for microtubule end localization in Aspergillus nidulans. Mol. Microbiol. 44: 381-392

161. Zhao, J., Kong, F., Li, R., Wang, X., Wan, Z. & Wang, D. 2001 Identification of Aspergillus fumigatus and related species by nested PCR targeting ribosomal DNA internal transcribed spacer regions. J. Clin. Microbiol. 39: 2261-2266

162. Zimmermann, M. & Wolf, K. 2000 Biosorption of metals. The Mycota, vol X. Industrial applications, ed. Esser, K. & Bennett, J.W., Springer-Verlag, Berlin, pp. 355-364

163. Ziogas, B.N. & Kalamarakis, A.E. 2001 Phenylpyrrole fungicides: Mitotic instability in Aspergillus nidulans and resistance in Botrytis cinerea. J. Phytopathol. (Berlin) 149: 301-308

164. Zuber, S., Hynes, M.J. & Andrianopoulos, A. 2002 G-protein signaling mediates asexual development at 25°C but has no effect on yeast-like growth at 37°C in the dimorphic fungus Penicillium marneffei. Euk. Cell 1: 440-447

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Abt, B. 115

Adamama-Moraitou, K.K. 1

Adams, B. 2

Adams, I.P. 3

Adams, T.H. 54 74 92

Afeltra, J. 149

Agger, T. 4

Aidoo, K.E. 114

Akutsu, K. 109

Alberti-Segui, C. 124

Althöfer, H. 140

Álvaro, J. 35

Amillis, S. 5

Anantharaman, V. 6

Andermann, M. 60

Andrianopoulos, A. 10 143 164

Andrukiewixz, A. 37

Aravind, L. 6

Archer, D.B. 22 105

Arioka, M. 70 81 116

Arst, H.N.Jr. 35 140

Ayala, F.J. 127

Baidyaroy, D. 14

Bailey, A. 107

Baker, K. 9

Balter, M. 7

Bañuelos, O. 8 110

Barredo, J.L. 126

Bartelt, D.C. 49

Benen, J.A.E. 31

Benko, Z. 11

Bennett, J. W. 76

Bertolini, M.C. 27

Bibbins, M. 9

Bird, D.M. 12

Blouin, C. 66

Borneman, A.R. 10

Borsuk, P. 37

Bos, C.J. 142

Bouman, B.A. 96 97

Bowyer, P. 107

Bozsik, A. 11

Bradshaw, R.E. 12

Brakhage, A. 8

Brandhorst, T. 13

Brandtner, E.-M. 14

Braus, G.H. 58 60 141

Bray, R.C. 2

Brito, A.G. 26

Brock, M. 44

Bron, P. 67

Brosch, G. 14

Brown, S. 12

Bruno, K.S. 15

Bruno-Bárcena, J.M. 16

Brzeska, H. 87

Burghoorn, H.P. 17

Caddick, M.X. 106 129

Cahuzac, B. 18

Caldwell, G.A. 29

Caldwell, K.A. 29

Calvo, A.M. 19

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Cao, H. 49

Caprara, M.G. 139

Cardoza, R.-E. 132

Caron, A. 75

Casqueiro, J. 8 110

Castro-Prado, M.A.A. 25 85 91

Cecchetto, G. 47

Cerdan, R. 18

Chae, S.-K. 158

Chae, S.K. 84

Chatterjee, P. 139

Chaveroche, M.-K. 38 39

Cheevadhanarak, S. 146

Cheng, J. 20

Chiou, C.-H. 21

Cocklin, S. 112

Conesa, A. 22 23

Connerton, I.F. 9

Cook, R. 75

Coppin, E. 24

Corrado, M. 104

Corran, A. 107

Costa, G.L. 104

Costa, M.A. 25

Cottarel, G. 75

Coupland, G. 129

Crepin, V.F. 9

Croft, K.P. 129

Cuadros, S.C. 26

Cubero, B. 47

Cuenca-Estrella, M. 98

Cummings, N.J. 9

D'Auria, F.D. 122

d'Enfert, C. 38 39

D'Souza, C. 92

da Silva, M.C. 27

Dack, S. 3

Dangl, M. 14

Das, P. 28

Davis, M.A. 42 43 64 92 102 103 143

Davis, T.N. 41

Dawe, A.L. 29

De Lucas, J.R. 30

de Graaff, L.H. 31 93

de Vries, R. 39

de Vries, R.P. 31

de Waard, M.A. 151

Debets, A.J.M. 142

Del Mastro, R.G. 75

Demais, S. 2

Derkx P.M.F. 32 33

Desideri, N. 122

Dezotti, N.O.C.R. 34

Diallinas, G. 5

Diaz-Guerra, T.M. 98

Dickinson, F.M. 3

Diez, E. 35

Díez, B. 126

Dodds, A. 112

Domínguez, A.I. 30

Donati, E. 122

Donnelly, J.P. 96

Donnelly, P.J. 97

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Doonan, J. 129

Doucette-Stamm, L. 75

Dowd, P.F. 13

Draht, O.W. 64

Du, C. 36

Dutta, T.K. 28

Ebel, F. 128

Ebizuka, Y. 153

Ebner, A. 159

Ehrlich, K.C. 48

Empel, J. 37

Ernandes, J.R. 27

Espeso, E.A. 35

Eurofung Network 96 97

Fanali, S. 122

Felenbok, B. 18 40

Fernández-Cañón, J.M. 126

Fierro, F. 83

Fillinger, S. 38 39

Fischer, R. 44 124 154

Fischl, A.S. 20

Flipphi, M. 40

Flory, M.R. 41

Fraissinet-Tachet, L. 86

Fraser, J.A. 42 43 102

Fujie, A. 59

Fujiwara, M. 65

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Garcia-Bustos, J.F. 30

Gardiner, R.E. 12

Gardner, H.W. 19

Gätgens, C. 140

Geiβenhöner, A. 44

Ghosh, P.C. 113

Gil, J.V. 45

Glass, A.D.M. 148

Goldman, G.H. 46 135

Goldman, M.H.S. 135

Goller, S.P. 111

Gómez, D. 47

Gomi, K. 147

Gowher, H. 48

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Greene, V. 49

Grynberg, M. 50

Guittet, E. 18

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Gupta, G.D. 52

Gutiérrez, S. 8 132

Haas, H. 115

Hamamoto, H. 109

Hamer, J.E. 15

Han, D.M. 82

Han, G. 160

Han, K.H. 53 82

Han, K.Y. 82

Han, S. 54

Hansen, K. 108

Hare, R.S. 75

Harris, P.M. 29

Harris, S.D. 46 55 62 77 78 137

Hartmeier, W. 56

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Hashimoto, S. 59

Hawkins, A.R. 112

Hayashi, K. 72

Heath, B. 52

Heck, I.S. 57 100

Heesemann, J. 128

Heinrich, G. 58

Helmstaedt, K. 58

Hibi, T. 109

Higuero, Y. 30

Hino, M. 59

Hirozumi, K. 147

Hirst, P. 12

Hoekstra, R.F. 142

Hoffmann, B. 60 61

Hofmann, A.F. 62 78

Holanda, V.L. 104

Holub, E.F. 142

Holzmann, K. 63

Honda, M. 147

Hori, Y. 59

Horiuchi, H. 65

Horn, C. 124

Hwang, S.G. 82

Hynes, M.J. 10 42 43 64 92 102 103 143 164

I, T.T. 103

Ichinomiya, M. 65

Imada, J. 109

Inagaki, Y. 66

Irniger, S. 141

Itoh, T. 145

Iwamoto, T. 59

Jalving, R. 67

Jedd, G. 101

Jeenes, D. 22

Jeenes, D.J. 105

Jeltsch, A. 48

Jeon, B.H. 82

Jones, M.G. 106

Joseph, J.D. 41 68

Ju, S.M. 82

Jung, M.K. 69

Juvvadi, P.R. 70 81

Kalamarakis, A.E. 163

Kana'n, G.J.M. 100

Kanan, G. 57

Kang, H.S. 158

Kashiwazaki, R. 17

Kato, M. 71 72 73 93 144 145

Kato, N. 73

Keller, N. 38 76

Keller, N.P. 19

Kellner, E.M. 74

Kelly, J.M. 4 88

Kema, G.H.J. 151

Kenealy, W.R. 13

Kessler, M.M. 75

Kester, H.C.M. 67

Kim, W.S. 82

Kinghorn, J.R. 57 100 103 131 148

Kitamoto, K. 70 81 94 95 116 117 147

Kitamoto, N. 93

Klich, M. 76

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Kocialkowska, J. 40

Kodandapani, N. 136

Kong, F. 161

Kontoyiannis, D.P. 118

Korn, E.D. 87

Koukaki, M. 5

Kraus, P.R. 77 78

Krzysztyniak, K. 150

Kubicek, C.P. 130 159

Kubodera, T. 79

Kunová, Z. 80

Kuroki, Y. 81

Kwon, B.K. 82

Laborda, F. 30

Laich, F. 83

Lamb, H. 112

Lasocki, K. 37

Laufs, P. 129

Lee, H. 75

Lee, H.-H. 84

Lenouvel, F. 86

Leonardo, A.L. 85

Li, R. 36 161

Liese, R. 124 154

Lipscomb, W.N. 58

Liu, A. 61

Liu, X. 87

Lockington, R.A. 88

Loidl, A. 14

Loidl, P. 14

Loinz, J.E. 21

Loke, P. 89

Lopez, P. 110

Lourenço-de-Oliveira, R.de 104

Lowe, D.J. 2

Lucca, M.E. 16

Ma, S. 36

MacCabe, A.P. 90

Mach, R. 159

Machado, M.de F.P.S. 91

Machida, M. 147

Madrid, S.M. 32 33

Maeng, P.J. 84

Mair, K. 14

Margelis, S. 92

Marins, M. 135

Marosits, T. 159

Martin de Valmaseda, E. 110

Martín, J.F. 8 83 105 110 132

Martínez, O. 30

Martinez-Rossi, N.M. 26

Marui, J. 93

Maruyama, J.-i. 94 95

Matsuda, Y. 117

May, G.S. 87 118

McClanahan, T.K. 75

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McIntyre, M. 108

Means, A.R. 41 68

Meis, J.F.G.M. 96 97 149

Meletiadis, J. 96 97

Mellado, E. 98

Mellits, K.H. 9

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Mendoza, A. 30

Mendoza, C. 76

Meyer, V. 99

Michael, A.J. 107

Millar, L.J. 57 100

Miller, M. 21

Mimura, S. 93

Minetoki, T. 147

Mizote, T. 9

Moir, A.J. 146

Momany, C. 138

Momany, M. 101 138 157

Monahan, B.J. 102 103

Monschau, N. 140

Moore, M.M. 152

Moraes, A.M.L. 104

Moralejo, F.J. 105

Moreno, M.A. 126

Morozov, I.Y. 106

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Morrell, J.L. 15

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Motoyama, T. 65

Mouton, J.W. 96 97 149

Mueller, E. 107

Mullaney, E. 76

Müller, C. 108

Murphy, R.L. 4

Nagase, T. 144

Nakajima, H. 70 81 94 95 116 117

Nakaune, R. 109

Naranjo. L. 110

Narendja, F. 111

Naruse, F. 71 72

Nichols, C.E. 112

Nielsen, J. 4 108

Nigam, S. 113

Nikolaus, T. 128

Nishimura, A. 79

Nogales, E. 69

Nout, M.J. 114

O'Connor, S.M. 4

Oakley, B.R. 69 121

Oakley, C.E. 69 121

Oberegger, K. 115

Oestreicher, N. 125

Ohsumi, K. 116 117

Ohta, A. 65

Oliveira, P.C. 104

Oonishi, R. 72

Osherov, N. 87 118

Paderu, P. 17

Paitaki, C.G. 1

Park, H.-M. 84

Park, J.-S. 84

Park, S.-M. 119

Park, T.-S. 20

Paszewski A. 50

Paul, A. 28

Peñalva, M.A. 35 120 126

Perlin, D.S. 17

Petersen, J.B. 4

Philippsen, P. 124

 Piecková, E. 80

Piotrowska, M. 50

Pizzinini, E. 50

Prade, R.A. 53

Prigozhina, N. 69

Prigozhina, N.L. 121

Prokisch, H. 156

Punt, P.J. 22 23

Quaglia, M.G. 122

Rainbow, L. 35

Rajak, R.C. 131

Rallis, T.S. 1

Ram, G.C. 28

Ramón, D. 16 90

Rath, P.-M. 123

Ratledge, C. 3

Rebordinos, L. 132

Reiss, M. 56

Ren, J. 112

Requena, N. 124

Revuelta, J.L. 140

Riaño, J. 110

Ribard, C. 125

Richardson, E.A. 101

Rimoldi, O.J. 147

Robson, F. 129

Rodriguez-Sáiz, M. 126

Rodríguez-Trelles, F. 127

Rodriguez-Tudela, J.L. 98

Roger, A.J. 66

Rohde, M. 128

Romans, A. 118

Romero, B. 30

Roslan, H.A. 129

Rossi, A. 26

Ruijter, G. 39

Ruijter, G.J.G. 130

Sakamoto, K. 59

Salter, M.G. 129

Sandhu, S.S. 131

Sano, M. 147

Santos, M. 132

Sarma P.V.G.K. 113

Sarma, P.U. 113

Scazzocchio, C. 2 47 125

Schaap, P.J. 67

Schanne, F.A.X. 49

Scherer, M. 154

Schliwa, M. 124

Schlösser, T. 140

Schlüpen, C. 140

Schmidt, F.R. 133

Schoeser, M. 115

Schrag, J.D. 57

Schreiner, E. 63

Schuren, J.H.F. 134

Schwab, H. 63

Semighini, C.P. 135

Seong, K.Y. 158

Shanmugam, K. 136

Sharpless, K.E. 137

Shaw, B.D. 138

Shimer, G.H.Jr. 75

Shimizu, K. 38

 Shirokane, M. 73

Shwienbacher, M. 128

Siddiqi, M.Y. 148

Sievers, N. 44

Silva, N.C.G. 25

Sim, T.-S. 89

Simmer, M.I. 152

Siñeriz, F. 16

Singh, A. 154

Singh, V.P. 28

Sipiczki, M. 11

Sitkiewicz, A. 37

Slakhorst, M. 142

Sloan, J. 57 100

Small, A.J. 92

Smith, A.T. 2

Smoragiewicz, W. 150

Solem, A. 139

Soteropoulos, P. 17

Stahl, U. 99

Stahmann, K.-P. 140

Staiger, C.J. 15

Stammers, D.K. 112

Stanly, D'S.F. 136

Steidl, S. 8

Strauss, J. 111

Strittmatter, A.W. 141

Suárez, T. 35

Subrahmanyam, S. 136

Suyama, S. 73

Swart, K. 142

Szewczyk, E. 143

Szilagyi, Z. 11

Takagi, M. 65

Takase, K. 147

Takase, S. 59

Tanaka, A. 72 93 144

Tani, S. 145

Tanoue, S. 72

Tanticharoen, M. 146

Tarakad, S.V. 136

Tarrío, R. 127

Tateyama, Y. 72

Tecca, M. 122

Thammarongtham, C. 146

Thevelein, J. 39

Tilburn, J. 35

Toda, T. 147

Tomsett, A.B. 129

Tontis, D. 1

Trail, F. 21

Trojer, P. 14

Tsukagoshi, N. 71 72 73 93 144 145

Tsurumi, Y. 59

Turner, G. 50 146

Unkles, S.E. 57 100 103 131 148

Valerius, O. 60

Vallés, S. 45

van de Vondervoort, P.J.I. 86

van den Hondel, C.A.M.J.J. 22 23

van Dijck, P. 39

van Luijk, N. 23

Van Sickle, C. 101

Verstappen, E.C.P. 151

 Verweij, P.E. 96 97 149

Visser, J. 31 67 86 93 130

Vitale, R.G. 149

Vujanovic, V 150

Waalwijk, C. 151

Walker, R.A. 121

Walton, J.D. 14

Wan, Z. 161

Wang, D. 36 161

Wang, L. 75

Wang, X. 161

Wasylnka, J.A. 152

Watanabe, A. 153

Watson, A.J. 105

Weddle, M. 99

Weglenski, P. 37

Wei, H. 154

Wendland, J. 155

Westermann, B. 156

Westfall, P.J. 157

White, M.R.H. 129

Wiesenburg, A. 140

Willins, D.A. 75

Wilson, D.L. 21

Winzenburg, E. 124

Wolf, K. 162

Wolschek, M. 111

Wood, C.D. 129

Xiang, X. 160

Yamamoto, M. 147

Yamashita, N. 79

Yamashita, R. 87

Yang, Y. 147

Ye, X.S. 20

Yoon, J.H. 158

Zadra, I. 115

Zeilinger, S. 159

Zeng, Q. 75

Zhang, J. 160

Zhao, J. 161

Zhou, D. 148

Ziccardi, M. 104

Zimmermann, M. 162

Ziogas, B.N. 163

Zuber, S. 164

Zucchi, M.A.D. 34

Zuo, W. 61

Aspergillus Bibliography Keywords

14-3-3 protein 78

ABC transporters 109 135

Acetaldehyde inducer 40

Acetate regulation 9

Actins 15 55 87 95 137

Adenylosuccinate synthetase 125

Aequorin 49

Aflatoxin biosynthesis 21

Airborne fungi 150

Alcohol oxidase 63

Aldehyde inducers 40

Alkaptanuria 120

Amidase 42

Amine oxidase 136

Amino acid biosynthesis 60

Ammonium transport 102 103

Amphotericin B 149

Amylase 4 71 108 145

Anaerobic respiration 12

Animal pathogenesis 28

Antibiotic production 133

Antifungal protein 99

Antifungals 80 96 122 149

Arginine regulation 37

Aromatic degradation 120

ARS-like activity 11

Asian food 114

Aspergillosis 28

ATP sulphurylase 30

Autoregulation 60

Azacytidine mutagen 25

Azole fungicide resistance 80 98

B. Felenbok 7

Beer 56

Beetle feeding 13

Benomyl resistance 69

Benzamidase 42

Biodegradation 136

Biological control 104

Biomass production 27

Black Aspergilli 31

bZip transcription factor 144

Calcineurin 70

Calcium 49 68

Calmodulin 41 68

Calnexin 22

cAMP 38

Carbon regulation 4 88 90 132 159

Carbon source sensing 38

Carboxypeptidase 117

Cat cystitis 1

CCAAT-binding complex 64 71 72

Cdc7 orthologue 15

cDNA libraries 75

Cell cycle 20 41 46 69 77

Cell walls 26 84 152

Cellular location 8

Cellulose degradation 31

Cephalosporin biosynthesis 89

Ceramide accumulation 20

Chaperones 22 23

Checkpoints 20 46

Chemostat culture 4

Chimaeric transcription factor 47

Chiral discrimination 122

Chitin synthesis 65 108

Chorismate mutase 58

Citrate lyase 3

Citric acid 130

Complementation, intragenic 57

Conidial germination 38 128 138 155

Conidial longevity 39

Conidial nuclei 94

Conidial pigments 153

Conidiation 10 19 24 25 54 65 74 91 140 155 157 164

Cross pathway control 60 141

Cyclophilin 32 33

Cyclosporin A sensitivity 32

Cytochrome C 12

Cytochrome P450 42 98 118

Cytoskeleton organization 20

Danofloxacin 85

Deubiquitination 88

Deuterium oxide 69

Dichotomous growth 44

Dimorphism 10 164

Direct cDNA selection 75

DNA damage response 46

DNA-protein structure 18

Dominant selectable marker 79

Drug resistance 149

Dynactin 61

Dynein 61 160

Echinocandin B 59

Enantiomer discrimination 122

Endoprotease 82

ER retention signal 33

Ergosterol biosynthesis 118

Esterases 31 91

Ethanol utilization 40

Evolutionary rates 127

Exocytosis 52

Fatty acid metabolism 19

Fenticonazole enantiomers 122

Filamentous appendages 128

Fluconazole 80

Fluorescence sorting 94

Foldase 33

Formins 55

French bureaucracy 7

Fungal identification 28 96 97

G-proteins 164

Gamma tubulin 69

Gene clusters 21 120

Gene replacement methods 69

Gephyrin 57 100

Germination 38 128 138 155

GFP-fusions 29 94 95 160

Glucan synthase 59 84

Glucanase 154

Gluconeogenesis 64

Gluconic acid 130

Glucose induction 147

Glucosidases 73 145

Glutamate dehydrogenase 132

Glutaminase 146

Glutathione S-transferase 43

Glycosylation 23

Green fluorescent protein 29 94 95 160

Group I introns 139

Growth assessment 149

Growth polarity 53

GTPase 116

Hap complex 71 72 144

Haploidizing agents 163

Heat shock 99

Heavy metal tolerance 43

Helicase 62 125

Heterokaryon gene replacement 69

Heterologous protein production 134

Histidine kinase 36

Histone deacetylases 14

Histone H2B-EGFP fusion 94

Homocitrate synthase 8

Hülle cells 154

Hyphal branching 32 95 157

Hyphal growth 87

Hyphal morphology 108

Hyphal polarity 20 78 155

Hyphal walls 26 84 152

Imidazole antifungals 122

Inositol phosphorylceramide synthase 20

Insect pathogenesis 104

Intron splicing 139

Isocitrate dehydrogenase 143

Itaconic acid 130

Itraconazole resistance 98 118

Jun-like basic zipper 141

Kex-2-like protease 82

Kinesins 121 124

Kojic acid 130

Lanosterol demethylase 118

Leucine degradation 120

Lipid biosynthesis 3

Lipopeptide antibiotics 59

Lysine biosynthesis 110

Manganese peroxidase 22

Mating types 151

Maturase 139

Media interactions 80

Meiosis 151

Metal biosorption 162

Methionine regulation 50

Methylammonium resistance 102

Methylcytosine 48

Microtubules 51 124

Mitochondria 32 44 49 143 156

Mitotic instability 163

Mitotic recombination 85

Molecular structures 18

Molybdenum cofactor 6 57 100

Morphogenetic networks 155

MOSC domain 6

Mosquito control 104

mRNA degradation 106

Multicopy transformants 118

Multidrug resistance 109 135

Multinucleate conidia 94

Mutan 154

Mycoparasites 131

Mycotoxins 150

Myosin 87

Myristoyl transferase 138

Nested PCR in taxonomy 161

Nitrate transport 148

Nitrogen regulation 86 92 102 106 111 112 132

Nitrogen sources 27

NMR spectroscopy 18

Normalized cDNA library 75

Nuclear distribution 29 44 61 95 124

Organic acid production 130

Ornithine decarboxylase 107

Osmotolerance 53 84 163

Parasexual genetics 142

Pathogen identification 161 123

Pathogenicity 1 96 97 98 107 152

PCR in taxonomy 161

Pectin degradation 31

Penicillin biosynthesis 83 89 126 133

Peptidases 67 117

Peptidyl proline isomerase 32 33

Peroxisomal enzymes 143

pH responses 16 26 27 35 63 81 90 99

Phenylacetate hydroxylase 126

Phenylpyrrole fungicides 163

Pipecholate oxidase 110

Plant pathogenicity 107

Plant transgene regulation 129

Plant wall degradation 31

Plasmid replication 11

Polarized growth 44 138

Polygalacturonase 134

Polyketide biosynthesis 153

Polypeptide release factor 66

Postantifungal effect 149

Prolidase 67

Proline regulation 47

Promoter analysis 16 18 54 7190 147

Proteases 82

Protein crystallography 112

Protein disulphide isomerase 23 105 113

Protein domain structure 57

Protein modelling 58

Protein secretion 23 33 105 108

Proteolytic activation 35

Proton pump 17

Psi factors 19

Purine catabolism 125

Purine transporter specificity 5

Putrescine and pathogenicity 107

Pyrithiamine resistance 79

Quantitative RTPCR 135

Racemate discrimination 122

RAD51 homologue 158

RAPD markers 123

RecA homologue 158

Recombination enzyme 158

Recombinogen testing 85

RecQ helicase 62

Regulator binding 145

Release factor 66

Replicating plasmids 79 118

Restrictocin 13

Rhamnogaloacturonase 134

Riboflavin 140

Ribonucleotide reductase 77

Ribosomal spacers 161

Ribosome inactivating protein 13

RING finger zinc motif 44

RNA helicase 125

RNA interference 29

Saccharopine reductase 110

Saké 56 114

Septal pores 101

Septation 15 55 77 137 157

Septins 55 157

Serine palmitoyltransferase subunit 20

Serological testing 28

Sexual reproduction 10 19 24 154

Sialic acid 152

Siderophores 115

Signal transduction 78

Site-directed mutagenesis 89

SNAREs 52

Soy sauce 114 146

Species identification 123

Sphingolipids 20

Spindle polarity 121

Spindle pole body 41

Sterigmatocystin 34 76

Sterol demethylase 98

Stop codon specificity 66

Stress and calcium 49

Stress tolerance 39

Sulphur carrier proteins 6

Sulphur regulation 50

Suppressors of flbD 74

Taka-amylase regulation 71

TCA cycle 64

Tetrazolium tests 96 97

Thaumatin 105

Thiamine antagonist 79

Toluene diamines 136

Transcript levels 135

Transcription factors 47 111 144

Transcriptional regulation 60

Transformation 30 79 119 131

Transglycosylation 73

Translational regulation 60

Trehalose-6-phosphate synthase 39

Triazole resistance 118

Tubulins 51 61 64 69 121

Two-hybrid analysis 61

Ultraviolet protection 140

UV repair 158

Vacuoles 44 81 95 116 117

Wine making 45 56

Woronin bodies 101

Xanthine dehydrogenase 2 127

Xylan degradation 16 31 45 93

Xylene degradation 93

Zinc binuclear cluster 18 37 93 145

Zinc finger proteins 24

Genes

Superscripts:

              ^c Sequence comparison

^e Expression of heterologous gene in Aspergillus

^h Aspergillus gene expressed elsewhere

               ^s Sequence or clone

^t Transformation selected marker)

Fungal Genes

A. nidulans

abaA 54

acuF 64

adB 125^s

agdA 145^s

agdB 73^s

alcR 18 40 129^h

amcA 115

amyR 145

arcA 37^s

areA 111

aroC 58

artA 78

asgA 55

aspB 55 157

atrA-D 135

aurA 20

avaA 116

bimB 11^c

bimC 121

brlA 54 91

bzuA 42^s

caM 68

chsB 65

chsD 26

chsE(chsD) 65

cmkB 41^c

cnxE 57 100^s

[cobA] 139

cpcA 60

cpyA 117^s

creA 4

creB 88

creC 88

crnA 148

cyaA 38

cycA 12

digA 44

eRF1 (?) 66^s

facB 9^c

fadA 164^c

fahA 120

flbC 24^c

flbD 74

fluG 92

glnA 92^s

gmdA 42^s

gstA 43^s

hapB,C,E 71 72 144 159

hapE 159^c

hapX 144^s

helA 125^s

hmgA 120

hogA 53

hxB 6^c

idpA 143^s

imaB,C,D,G,H 135

jlbA 141^s

kinA 124^s

klpA 121

kpcA 82^s

lcbA 20^s

maiA 120

meaA 102^s 103

medA 25 91

mepA 102^s 103

metE 50^s

mipA 69 121

mirA 115^s

mkkA 53^s

msnA 53^s

mus 46

musN 62^s

mutA 154^s

myoA 87

niaD 111 131^t

nimT 77

nimX 55

nirA 111

nmrA 112

nrtA=crnA 148

nrtB 148^s

nudC 29

nudE 61

nudF 61

nudI 160^s

nuv 46

odeA 19

orqQ 62

oxpA=adB 125^s

pacC 35

palI 151^c

pbsA 53^s

pdmA 118

pepP 67^s

phacA 126^c

phsB 26^s

pkaA 38

pmA 53^s

prnA 47

ptpA 53^s

puA 107

rasA 38

rnrA 77^s

schA 38^s

sepA 55 137

sepH 15

sfdA,B 74

shoA 53^s

skoA 53^s

slnA 53^s

sntA-C 77

sodC 84

sskA 53^s

stcZ 34

steB 53^s

swoF 138^s

tcsA 36^c

tpsA 39^s

uap 5

uvs 46

uvsC 158^h

veA 19

wA 153

xlnA,B 16

xlnC 90

A. awamori

pdiA 105

A. fumigatus

AFHK 1^s 36

cyp51A,B 98

PMA1 17

sC 30^st

tigA 113^s

A. giganteus

afp 99^s

A. niger

areA 86

bipA 22

clxA 22

cypA 32

cypB 33

goxC 16

tigA 113^c

A. oryzae

alpha amylase 4 6

chsB 108

cnaA 70

csmA 108

enoA 147

glutaminase 146^e

hapX 144^c

ptrA 79^t

taa 71^e

vmaA 81^s

xlnR 93^s

A. parasiticus

nor-1 21

A. restrictus

res 13^e

Botrytis cinerea

gdhA 132^se

Colletotrichum lagenarium

pks1 153

Hypocrea jecorian

cbh2 159

hap2,3,5 159^e

Neurospora crassa

facB 9^s

hapX 144

Penicillium chrysogenum

aox 63^s

lys1 8

lys7 110^s

pahA 126

P. digitatum

PMR5 109^s

P. marneffei

gasA 164

stuA 10

Podospora anserina

fle1 24^s

Saccharomyces cerevisiae

aro7 58

RAD51 158^c

Schizosaccharomyces japonicus

cut-1 11

S. pombe

pcp1 41^c

rad24 78^c

rph51 158

Tapesia yalundae

ODC1 107^e

Genes in other organisms

Caenorhabditis elegans

nud-1 29^e

Drosophila melanogaster

xanthine dehydrogenase 2^e

Escherichia coli

moeA 57

mogA 57

Organisms (see also Genes)

Fungi

A. auricomus 152

A. fischerianus 104

A. flavus 48 96 97 104 149

A. fumigatus 28 52 75 79 96 97 118 149 152 161

A. heteromorphus 104

A. kawachii 79

A. niger 104 119 130 134 142 162

A. ornatus 152

A. oryzae 56 79 94 114 130 134

A. rugulovalvus 76

A. sojae 114

A. terreus 79 96 97 130 149

A. ustus 96 97 149

A. wentii 152

Acremonium chrysogenum 89 133

Ashbya gossypii 140

Beauveria bassiana 131

Botrytis cinerea 163

Cephalosporium acremonium 89 133

Cochliobolus carbonum. 14

Cryptococcus neoformans 122

Fusarium oxysporium 27

Metarhizium anisopliae 131

Neurospora crassa 46

Penicillium chrysogenum 133

P. griseofulvum 83

P. verrucosum 83

Trichoderma reesei 79

Other organisms

Agrobacterium tumefaciens 119

Arabidopsis thaliana. 129

Carpophilus freemani 13

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