SEARCH

SEARCH BY CITATION

References

  • Adamikova L, Straube A, Schulz I, Steinberg G. 2004. Calcium signaling is involved in dynein-dependent microtubule organization. Molecular Biology of the Cell 15: 19691980.
  • Aichinger C, Hansson K, Eichhorn H, Lessing F, Mannhaupt G, Mewes W, Kahmann R. 2003. Identification of plant-regulated genes in Ustilago maydis by enhancer-trapping mutagenesis. Molecular Genetics and Genomics 270: 303314.
  • Andrews DL, Egan JD, Mayorga ME, Gold SE. 2000. The Ustilago maydis ubc4 and ubc5 genes encode members of a MAP kinase cascade required for filamentous growth. Molecular Plant Microbe Interactions 13: 781786.
  • Banuett F. 1995. Genetics of Ustilago maydis, a fungal pathogen that induces tumors in maize. Annual Reviews of Genetics 29: 179208.
  • Banuett F, Herskowitz I. 1989. Different a alleles are necessary for maintenance of filamentous growth but not for. Meiosis. 86: 58785882.
  • Banuett F, Herskowitz I. 1994a. Identification of fuz7, a Ustilago maydis MEK/MAPKK homolog required for a-locus-dependent and – independent steps in the fungal life cycle. Genes and Development 8: 13671378.
  • Banuett F, Herskowitz I. 1994b. Morphological transitions in the life cycle of Ustilago maydis and their genetic control by the a and b loci. Experimental Mycology 18: 247266.
  • Banuett F, Herskowitz I. 2002. Bud morphogenesis and the actin and microtubule cytoskeletons during budding in the corn smut fungus, Ustilago maydis. Fungal Genetics and Biology 37: 149170.
  • Basse CW, Kolb S, Kahmann R. 2002. A maize-specifically expressed gene cluster in Ustilago maydis. Molecular Microbiology 43: 7593.
  • Basse CW, Stumpferl S, Kahmann R. 2000. Characterization of a Ustilago maydis gene specifically induced during the biotrophic phase: evidence for negative as well as positive regulation. Molecular and Cellular Biology 20: 329339.
  • Bechinger C, Giebel KF, Schnell M, Leiderer P, Deising HB, Bastmeyer M. 1999. Optical measurements of invasive forces exerted by appressoria of a plant pathogenic fungus. Science 285: 18961899.
  • Bohlmann R, Schauwecker F, Basse C, Kahmann R. 1994. Genetic regulation of mating and dimorphism in Ustilago maydis. In: Daniels, MJ, ed. Advances in molecular genetics of plant–microbe interactions Vol. 3. Dordrecht, The Netherlands: Kluwer Academic Publishers, 239245.
  • Bölker M, Böhnert HU, Braun KH, Görl J, Kahmann R. 1995a. Tagging pathogenicity genes in Ustilago maydis by restriction enzyme-mediated integration (REMI). Molecular and General Genetics 248: 547552.
  • Bölker M, Genin S, Lehmler C, Kahmann R. 1995b. Genetic regulation of mating, and dimorphism in Ustilago maydis. Canadian Journal of Botany 73: 320325.
  • Bölker M, Urban M, Kahmann R. 1992. The a mating type locus of U. maydis specifies cell signaling components. Cell 68: 441450.
  • Borkovich KA, Alex LA, Yarden O, Freitag M, Turner GE, Read ND, Seiler S, Bell-Pedersen D, Paietta J, Plesofsky N, Plamann M, Goodrich-Tanrikulu M, Schulte U, Mannhaupt G, Nargang FE, Radford A, Selitrennikoff C, Galagan JE, Dunlap JC, Loros JJ, Catcheside D, Inoue H, Aramayo R, Polymenis M, Selker EU, Sachs MS, Marzluf GA, Paulsen I, Davis R, Ebbole DJ, Zelter A, Kalkman ER, O'Rourke R, Bowring F, Yeadon J, Ishii C, Suzuki K, Sakai W, Pratt R. 2004. Lessons from the genome sequence of Neurospora crassa: tracing the path from genomic blueprint to multicellular organism. Microbiology and Molecular Biology Review 68: 1108.
  • Bottin A, Kämper J, Kahmann R. 1996. Isolation of a carbon source-regulated gene from Ustilago maydis. Molecular and General Genetics 253: 342352.
  • Brachmann A, Schirawski J, Müller P, Kahmann R. 2003. An unusual MAP kinase is required for efficient penetration of the plant surface by. Ustilago Maydis. 22: 21992210.
  • Brachmann A, Weinzierl G, Kämper J, Kahmann R. 2001. Identification of genes in the bW/bE regulatory cascade in Ustilago maydis. Molecular Microbiology 42: 10471063.
  • Casselton LA. 2002. Mate recognition in fungi. Heredity 88: 142147.
  • D'Souza CA, Heitman J. 2001. Conserved cAMP signaling cascades regulate fungal development and virulence. FEMS Microbiological Letters 25: 349364.
  • Dürrenberger F, Laidlaw RD, Kronstad JW. 2001. The hgl1 gene is required for dimorphism and teliospore formation in the fungal pathogen Ustilago maydis. Molecular Microbiology 41: 337348.
  • Dürrenberger F, Wong K, Kronstad JW. 1998. Identification of a cAMP-dependent protein kinase catalytic subunit required for virulence and morphogenesis in Ustilago maydis. Proceedings of the National Academy of Sciences, USA 95: 56845689.
  • Fraser JA, Heitman J. 2003. Fungal mating-type loci. Current Biology 13: R792R795.
  • Garcera-Teruel A, Xoconostle-Cazares B, Rosas-Quijano R, Ortiz L, Leon-Ramirez C, Specht CA, Sentandreu R, Ruiz-Herrera J. 2004. Loss of virulence in Ustilago maydis by Umchs6 gene disruption. Research in Microbiology 155: 8797.
  • Garcia-Muse T, Steinberg G, Perez-Martin J. 2003. Pheromone-induced G2 arrest in the phytopathogenic fungus Ustilago maydis. Eukaryotic Cell 2: 494500.
  • Gillissen B, Bergemann J, Sandmann C, Schröer B, Bölker M, Kahmann R. 1992. A two-component regulatory system for self/non-self recognition in Ustilago maydis. Cell 68: 647657.
  • Gold SE, Brogdon SM, Mayorga ME, Kronstad JW. 1997. The Ustilago maydis regulatory subunit of a cAMP-dependent protein kinase is required for gall formation in maize. Plant Cell 9: 15851594.
  • Gold S, Duncan G, Barrett K, Kronstad J. 1994. cAMP regulates morphogenesis in the fungal pathogen Ustilago maydis. Genes and Development 8: 28052816.
  • Hartmann HA, Kahmann R, Bölker M. 1996. The pheromone response factor coordinates filamentous growth and pathogenicity in Ustilago maydis. EMBO Journal 15: 16321641.
  • Hartmann HA, Krüger J, Lottspeich F, Kahmann R. 1999. Environmental signals controlling sexual development of the corn smut fungus Ustilago maydis through the transcriptional regulator prf1. Plant Cell 11: 12931306.
  • Huber SM, Lottspeich F, Kämper J. 2002. A gene that encodes a product with similarity to dioxygenases is highly expressed in teliospores of Ustilago maydis. Molecular Genetics and Genomics 267: 757771.
  • De Jong JC, McCormack BJ, Smirnoff N, Talbot NJ. 1997. Glycerol generates turgor in rice blast. Nature 389: 244245.
  • Kaffarnik F, Müller P, Leibundgut M, Kahmann R, Feldbrügge M. 2003. PKA and MAPK phosphorylation of Prf1 allows promoter discrimination in Ustilago maydis. EMBO Journal 22: 58175826.
  • Kämper J. 2004. A PCR-based system for highly efficient generation of gene replacement mutants in Ustilago maydis. Molecular Genetics and Genomics 271: 103110.
  • Kämper J, Reichmann M, Romeis T, Bölker M, Kahmann R. 1995. Multiallelic recognition: nonself-dependent dimerization of the bE and bW homeodomain proteins in Ustilago maydis. Cell 81: 7383.
  • Kernkamp MF. 1939. Genetic and invironmental factors affecting growth types of Ustilago zeae. Phytopathology 29: 473484.
  • Kraus PR, Heitman J. 2003. Coping with stress: calmodulin and calcineurin in model and pathogenic fungi. Biochemical and Biophysical Research Communications 311: 11511157.
  • Kronstad JW, Wang J, Covert SF, Holden DW, McKnight GL, Leong SA. 1989. Isolation of metabolic genes and demonstration of gene disruption in the phytopathogenic fungus Ustilago maydis. Gene 79: 97106.
  • Krüger J, Loubradou G, Regenfelder E, Hartmann A, Kahmann R. 1998. Crosstalk between cAMP and pheromone signalling pathways in Ustilago maydis. Molecular and General Genetics 260: 193198.
  • Ladendorf O, Brachmann A, Kämper J. 2003. Heterologous transposition in Ustilago maydis. Molecular Genetics and Genomics 269: 395405.
  • Lee N, D'Souza CA, Kronstad JW. 2003. Of smuts, blasts, mildews, and blights: cAMP signaling in phytopathogenic fungi. Annual Reviews in Phytopathology 41: 399427.
  • Lee N, Kronstad JW. 2002. Ras2 controls morphogenesis, pheromone response, and pathogenicity in the fungal pathogen Ustilago maydis. Eukaryotic Cell 1: 954966.
  • Lehmler C, Steinberg G, Snetselaar K, Schliwa M, Kahmann R, Bolker M. 1997. Identification of a motor protein required for filamentous growth in Ustilago maydis. EMBO Journal 16: 34643473.
  • Martinez-Espinoza AD, Garcia-Pedrajas MD, Gold SE. 2002. The Ustilaginales as plant pests and model systems. Fungal Genetics and Biology 35: 120.
  • Mayorga ME, Gold SE. 1998. Characterization and molecular genetic complementation of mutants affecting dimorphism in the fungus Ustilago maydis. Fungal Genetics and Biology 24: 364376.
  • Mayorga ME, Gold SE. 1999. A MAP kinase encoded by the ubc3 gene of Ustilago maydis is required for filamentous growth and full virulence. Molecular Microbiology 34: 485497.
  • Mayorga ME, Gold SE. 2001. The ubc2 gene of Ustilago maydis encodes a putative novel adaptor protein required for filamentous growth, pheromone response and virulence. Molecular Microbiology 41: 13651379.
  • Müller P, Aichinger C, Feldbrügge M, Kahmann R. 1999. The MAP kinase kpp2 regulates mating and pathogenic development in Ustilago maydis. Molecular Microbiology 34: 10071017.
  • Müller P, Katzenberger JD, Loubradou G, Kahmann R. 2003a. Guanyl nucleotide exchange factor Sql2 and Ras2 regulate filamentous growth in Ustilago maydis. Eukaryotic Cell 2: 609617.
  • Müller P, Leibbrand A, Teunissen H, Cubasch S, Aichinger C, Kahmann R. 2004. The Gb subunit encoding gene bpp1 controls cAMP-signalling in Ustilago maydis. Eukaryotic Cell 3: 806814.
  • Müller P, Weinzierl G, Brachmann A, Feldbrügge M, Kahmann R. 2003b. Mating and pathogenic development of the Smut fungus Ustilago maydis are regulated by one mitogen-activated protein kinase cascade. Eukaryotic Cell 2: 11871199.
  • Quadbeck-Seeger C, Wanner G, Huber S, Kahmann R, Kämper J. 2000. A protein with similarity to the human retinoblastoma binding protein 2 acts specifically as a repressor for genes regulated by the b mating type locus in Ustilago maydis. Molecular Microbiology 38: 154166.
  • Regenfelder E, Spellig T, Hartmann A, Lauenstein S, Bölker M, Kahmann R. 1997. G proteins in Ustilago maydis: Transmission of multiple signals? EMBO Journal 16: 19341942.
  • Reichmann M, Jamnischek A, Weinzierl G, Ladendorf O, Huber S, Kahmann R, Kämper J. 2002. The histone deacetylase Hda1 from Ustilago maydis is essential for teliospore development. Molecular Microbiology 46: 11691182.
  • Romeis T, Brachmann A, Kahmann R, Kämper J. 2000. Identification of a target gene for the bE/bW homeodomain protein complex in Ustilago maydis. Molecular Microbiology 37: 5466.
  • Ruiz-Herrera J, Leon CG, Guevara-Olvera L, Carabez-Trejo A. 1995. Yeast-mycelial dimorphism of haploid and diploid strains of Ustilago maydis. Microbiology 141: 695703.
  • Sanchez-Alonso P, Guzman P. 1998. Organization of chromosome ends in Ustilago maydis: recQ-like helicase motifs at telomeric regions. Genetics 148: 10431054.
  • Sanchez-Martinez C, Perez-Martin J. 2001. Dimorphism in fungal pathogens: Candida albicans and Ustilago maydis – similar inputs, different outputs. Current Opinions in Microbiology 4: 214221.
  • Schauwecker F, Wanner G, Kahmann R. 1995. Filament-specific expression of a cellulase gene in the dimorphic fungus Ustilago maydis. Biological Chemistry Hoppe-Seyler 376: 617625.
  • Smith DG, Garcia-Pedrajas MD, Gold SE, Perlin MH. 2003. Isolation and characterization from pathogenic fungi of genes encoding ammonium permeases and their roles in dimorphism. Molecular Microbiology 50: 259275.
  • Smith DG, Garcia-Pedrajas MD, Hong W, Yu Z, Gold SE, Perlin MH. 2004. An ste20 homologue in Ustilago maydis plays a role in mating and pathogenicity. Eukaryotic Cell 3: 180189.
  • Snetselaar KM, Bölker M, Kahmann R. 1996. Ustilago maydis mating hyphae orient their growth toward pheromone sources. Fungal Genetics and Biology 20: 299312.
  • Snetselaar KM, Mims CW. 1992. Sporidial fusion and infection of maize seedlings by the smut fungus Ustilago maydis. Mycologia 84: 193203.
  • Snetselaar KM, Mims CW. 1993. Infection of maize stigmas by Ustilago maydis: Light and electron microscopy. Phytopathology 83: 843.
  • Snetselaar KM, Mims CW. 1994. Light and electron microscopy of Ustilago maydis hyphae in maize. Mycological Research 98: 347355.
  • Spellig T, Bölker M, Lottspeich F, Frank RW, Kahmann R. 1994. Pheromones trigger filamentous growth in Ustilago maydis. EMBO Journal 13: 16201627.
  • Spellig T, Bottin A, Kahmann R. 1996. Green fluorescent protein (GFP) as a new vital marker in the phytopathogenic fungus Ustilago maydis. Molecular and General Genetics 252: 503509.
  • Steinberg G, Schliwa M, Lehmler C, Bölker M, Kahmann R, McIntosh JR. 1998. Kinesin from the plant pathogenic fungus Ustilago maydis is involved in vacuole formation and cytoplasmic migration. Journal of Cell Science 111: 22352246.
  • Steinberg G, Wedlich-Söldner R, Brill M, Schulz I. 2001. Microtubules in the fungal pathogen Ustilago maydis are highly dynamic and determine cell polarity. Journal of Cell Science 114: 609622.
  • Straube A, Brill M, Oakley BR, Horio T, Steinberg G. 2003. Microtubule organization requires cell cycle-dependent nucleation at dispersed cytoplasmic sites: polar and perinuclear microtubule organizing centers in the plant pathogen Ustilago maydis. Molecular Biology of the Cell 14: 642657.
  • Straube A, Enard W, Berner A, Wedlich-Söldner R, Kahmann R, Steinberg G. 2001. A split motor domain in a cytoplasmic dynein. EMBO Journal 20: 50915100.
  • Takai Y, Sasaki T, Matozaki T. 2001. Small GTP-binding proteins. Physiological Reviews 81: 153208.
  • Talbot NJ. 2003. On the trail of a cereal killer: Exploring the biology of Magnaporthe grisea. Annual Reviews in Microbiology 57: 177202.
  • Tsukuda T, Carleton S, Fotheringham S, Holloman WK. 1988. Isolation and characterization of an autonomously replicating sequence from Ustilago maydis. Molecular and Cellular Biology 8: 37033709.
  • Urban M, Kahmann R, Bölker M. 1996a. The biallelic a mating type locus of Ustilago maydis: remnants of an additional pheromone gene indicate evolution from a multiallelic ancestor. Molecular and General Genetics 250: 414420.
  • Urban M, Kahmann R, Bölker M. 1996b. Identification of the pheromone response element in Ustilago maydis. Molecular and General Genetics 251: 3137.
  • Wang J, Holden DW, Leong SA. 1988. Gene transfer system for the phytopathogenic fungus Ustilago maydis. Proceedings of the National Academy of Sciences, USA 85: 865869.
  • Weber I, Gruber C, Steinberg G. 2003. A class-V myosin required for mating, hyphal growth, and pathogenicity in the dimorphic plant pathogen Ustilago maydis. Plant Cell 15: 28262842.
  • Wedlich-Söldner R, Schulz I, Straube A, Steinberg G. 2002a. Dynein supports motility of endoplasmic reticulum in the fungus Ustilago maydis. Molecular Biology of the Cell 13: 965977.
  • Wedlich-Söldner R, Straube A, Friedrich MW, Steinberg G. 2002b. A balance of KIF1A-like kinesin and dynein organizes early endosomes in the fungus Ustilago maydis. EMBO Journal 21: 29462957.
  • Wösten HA, Bohlmann R, Eckerskorn C, Lottspeich F, Bölker M, Kahmann R. 1996. A novel class of small amphipathic peptides affect aerial hyphal growth and surface hydrophobicity in Ustilago maydis. EMBO Journal 15: 42744281.