Growth, Differentiation and Sexuality

372 L.A. Casselton and M.P. Challen
Day PR (1963a) Mutations affecting the A mating-type factor
in Coprinus lagopus. Genet Res Camb 4:55–64
Day PR (1963b) The structure of the A mating type factor in
Coprinus lagopus. Wild alleles. Genet Res Camb 4:323–
325
Dürrenberger F, Wong K, Kronstad JW (1998) Identification
of a cAMP-dependent protein kinase catalytic subunit
required for virulence and morphogenesis in Ustilago
maydis. Proc Natl Acad Sci USA 95:5684–5689
Fowler TJ, DeSimone SM, Mitton MF, Kurjan J, Raper CA
(1999) Multiple sex pheromones and receptors of
a mushroom-producing fungus elicit mating in yeast.
Mol Biol Cell 10:2559–2572
Fowler TJ, Mitton MF, Vaillancourt LJ, Raper CA (2001)
Changes in mate recognition through alterations
of pheromones and receptors in the multisexual
mushroom fungus Schizophyllum commune. Genetics
158:1491–1503
Fowler TJ, Mitton MF, Rees EI, Raper CA (2004) Crossing the
boundary between the Bα and Bβ mating-type loci in
Schizophyllum commune. Fungal Genet Biol 41:89–101
Fraser JA, Heitman J (2004) Evolution of fungal sex chromosomes.
Mol Microbiol 51:299–306
Giesy RM, Day PR (1965) The septal pores of Coprinus lagopus
(Fr.) sensu Buller in relation to nuclear migration.
Am J Bot 52:287–293
Gillissen B, Bergemann J, Sandmann C, Schroeer B,
Bolker M, Kahmann R (1992) A 2-component regulatory
system for self non-self recognition in Ustilago
maydis. Cell 68:647–657
Gold S, Duncan G, Barrett K, Kronstad J (1994) cAMP regulates
morphogenesis in the fungal pathogen Ustilago
maydis. Genes Dev 8:2805–2816
Gold SE, Brogdon SM, Mayorga ME, Kronstad JW (1997)
The Ustilago maydis regulatory subunit of a cAMPdependent
protein kinase is required for gall formation
in maize. Plant Cell 9:1585–1594
Granado JD, Kertesz-Chaloupková K, Aebi M, Kües U (1997)
Restriction enzyme-mediated DNA integration in Coprinus
cinereus. Mol Gen Genet 256:28–36
Halsall JR, Milner MJ, Casselton LA (2000) Three subfamiliesofpheromoneandreceptorgenesgeneratemultiple
B mating specificities in the mushroom Coprinus
cinereus. Genetics 154:1115–1123
Hartmann HA, Kahmann R, Bölker M (1996) The
pheromone response factor coordinates filamentous
growth and pathogenicity in Ustilago maydis.EMBOJ
15:1632–1641
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. PlantCell
11:1293–1305
Haylock RW, Economou A, Casselton LA (1980) Dikaryon
formation in Coprinus cinereus:selectionandidentification
of B factor mutants. J Gen Microbiol 121:17–26
Herskowitz I (1988) The life cycle of the budding yeast Saccharomyces
cerevisiae. Microbiol Rev 52:536–553
Hiscock SJ, Kües U (1999) Cellular and molecular mechanisms
of sexual incompatibility in plants and fungi. Int
Rev Cytol Surv Cell Biol 193:165–295
Hull CM, Heitman J (2002) Fungal mating: Candida albicans
flips a switch to get in the mood. Curr Biol 12:R782–
R784
Hull CM, Davidson RC, Heitman J (2002) Cell identity and
sexual development in Cryptococcus neoformans are
controlled by the mating-type-specific homeodomain
protein Sxi1α. Genes Dev 16:3046–3060
Hull CM, Boily MJ, Heitman J (2005) Sex-specific homeodomain
proteins Sxi1α and Sxi2a coordinately regulate
sexual development in Cryptococcus neoformans.
Eukaryot Cell 4:526–535
Inada K, Morimoto Y, Arima T, Murata Y, Kamada T (2001)
The clp1 gene of the mushroom Coprinus cinereus is
essential for A-regulated sexual development. Genetics
157:133–140
Iwasa M, Tanabe S, Kamada T (1998) The two nuclei in the
dikaryon of the homobasidiomycete Coprinus cinereus
change position after each conjugate division. Fungal
Genet Biol 23:110–116
Jacobsen S, Wittig M, Pöggeler S (2002) Interaction between
mating-type proteins from the homothallic fungus Sordaria
macrospora. Curr Genet 41:150–158
James T, Kües U, Cullen D, Vilgalys R (2003) The origins of
unifactorial mating systems in Coprinellus disseminatus
and Phanerochaete chrysosporium from bifactorial
ancestors. Inoculum (MSA abstr) 54:28
James TY, Kües U, Rehner SA, Vilgalys R (2004a) Evolution
of the gene encoding mitochondrial intermediate peptidase
and its cosegregation with the A mating-type
locus of mushroom fungi. Fungal Genet Biol 41:381–
390
James TY, Liou SR, Vilgalys R (2004b) The genetic structure
and diversity of theAand B mating-type genes fromthe
tropical oyster mushroom, Pleurotus djamor. Fungal
Genet Biol 41:813–825
Johnson AD (1995) Molecular mechanisms of cell-type determination
in budding yeast. Curr Opin Genet Dev
5:552–558
Kaffarnik F, Müller P, Leibundgut M, Kahmann R, Feldbrügge
M (2003) PKA and MAPK phosphorylation of
Prf1 allows promoter discrimination in Ustilago maydis.
EMBO J 22:5817–5826
Kahmann R, Steinberg G, Basse C, Feldbrügge M, Kämper J
(2000) Ustilago maydis, thecausativeagentofcorn
smut disease. In: Kronstad JW (ed) Fungal pathology.
Kluwer, Dordrecht, pp 347–371
Kamada T (2002) Molecular genetics of sexual development
in the mushroom Coprinus cinereus. BioEssays 24:449–
459
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 81:73–83
Kim H, Borkovich KA (2004) A pheromone receptor
gene, pre-1, is essential for mating type specific
directional growth and fusion of trichogynes and
female fertility in Neurospora crassa. MolMicrobiol
52:1781–1798
Koltin Y, Stamberg J, Lemke P (1972) Genetic structure and
evolution of the incompatibility factors in higher fungi.
Bacteriol Rev 36:156–171
Kües U (2000) Life history and developmental processes
in the basidiomycete Coprinus cinereus.MicrobiolMol
Biol Rev 64:316–353
Kües U, Casselton LA (1992) Homeodomains and regulation
of sexual development in basidiomycetes. Trends Genet
8:154–155