Growth, Differentiation and Sexuality

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Elliott CG, Knights BA (1981) Uptake and interconversion of cholesterol and cholesteryl esters by Phytophthora cactorum. Lipids 16:1–7 Elliott CG, Sansome E (1977) The influence of sterols on meiosis in Phytophthora cactorum. JGenMicrobiol 98:141–145 Elliott CG, Hendrie MR, Knights BA (1966) The sterol requirement of Phytophthora cactorum.JGenMicrobiol 42:425–435 Eslava AP, Álvarez MI, Cerdá-Olmedo E(1974) Regulation of carotene biosynthesis in Phycomyces by vitamin A and β-Ionone. Eur J Biochem 48:617–623 Fabritius AL, Judelson HS (1997) Mating-type loci segregate aberrantly in Phytophthora infestans but normally in Phytophthora parasitica: implications for models of mating-type determination. Curr Genet 32:60–65 Fabritius AL, Judelson HS (2003) A mating-induced protein of Phytophthora infestans isamemberofafamilyof elicitors with divergent structures and stage-specific patterns of expression. Mol Plant Microbe Interact 16:926–935 Fabritius AL, Cvitanich C, Judelson HS (2002) Stage-specific gene expression during sexual development in Phytophthora infestans. Mol Microbiol 45:1057–1066 Feofila EP, Fateeva TV, Arbuzov VA (1976) Mechanism of the action of trisporic acids on carotene-synthesizing enzymes of a (−) strain of Blakeslea trispora.Microbiologiya 45:153–155 Gessler NN, Sokolov AV, Belozerskaya TA (2002) Initial stages of trisporic acid synthesis in Blakeslea trispora. Appl Biochem Microbiol 38:536–543 Gooday GW (1978) Functions of trisporic acid. Philos Trans R Soc Lond B 284:509–520 Gooday GW (1983) Hormones and sexuality in fungi. In: Bennett JW, Ciegler A (eds) Secondary metabolism and differentiation in fungi. Dekker, New York, pp 239–266 Gooday GW (1994) Hormones in mycelial fungi. In: Wessels JGH, Meinhardt F (eds) The Mycota, vol 1, 1st edn. Growth, differentiation and sexuality. Springer, Berlin Heidelberg New York, pp 401–411 Gooday GW, Adams DJ (1993) Sex hormones in fungi. Adv Microb Physiol 34:69–145 Govind NS, Cerdá-Olmedo E (1986) Sexual activation of carotenogenesis in Phycomyces blakesleeanus. JGen Microbiol 132:2775–2780 Gow NAR, Gooday GW (1987) Effects of antheridiol on growth, branching and electrical currents of hyphae of Achlya ambisexualis. J Gen Microbiol 133:3531–3536 Groner B, Hynes N, Sippel AE, Schutz G (1976) Induction of specific proteins in hyphae of Achlya ambisexualis by the steroid hormone antheridiol. Nature 261:599– 601 Hänfler J, Teepe H, Weigel C, Kruft V, Lurz R, Wöstemeyer J (1992) Circular extrachromosomal DNA codes for a surface protein in the (+) mating type of the zygomycete Absidia glauca. Curr Genet 22:319–325 Hendrix JW (1964) Sterol induction of reproduction and stimulation of growth of Pythium and Phytophthora. Science 144:1028–1029 Hendrix JW (1965) Influence of sterols on growth and reproduction of Pythiumand Phytophthora.Phytopathology 55:790–797 Hill TW (1996) Electrophoretic characterization of endo- (1,4)-β-glucanases secreted during assimilative growth Pheromones 229 and antheridiol-induced branching in Achlya ambisexualis. Can J Microbiol 42:557–561 Horgen PA (1977) Cytosol-hormone stimulation of transcription in the aquatic fungus, Achlya ambisexualis. Biochem Biophys Res Commun 75:1022–1028 Horgen PA, Iwanochko M, Bettiol MF (1983) Antheridiol, RNA polymerase II and sexual development in the aquatic fungus, Achlya. Arch Microbiol 134:314–319 Horowitz DK, Russell PJ (1974) Hormone-induced differentiation of antheridial branches in Achlya ambisexualis: dependence on ribonucleic acid synthesis. Can J Microbiol 20:977–980 Horton JS, Horgen PA (1985) Synthesis of an antheridiolinducible polypeptide during sexual morphogenesis of Achlya ambisexualis. Can J Biochem 63:355–366 Horton JS, Horgen PA (1989) Molecular cloning of cDNAs regulated during steroid-induced sexual differentiation in the aquatic fungus Achlya. Exp Mycol 13:263– 273 Jones BE, Williamson IP, Gooday GW (1981) Sex pheromones in Mucor.In:O’DayDA,HorgenPA(eds) Sexual interactions in eukaryotic microbes. Academic Press, New York, pp 179–198 Judelson HS (1996a) Genetic and physical variability at the mating type locus of the oomycete, Phytophthora infestans. Genetics 144:1005–1013 Judelson HS (1996b) Chromosomal heteromorphism linked to the mating type locus of the oomycete Phytophthora infestans. Mol Gen Genet 252:155–161 Judelson HS, Spielman LJ, Shattock RC (1995) Genetic mapping and non-mendelian segregation of mating type loci in the oomycete, Phytophthora infestans. Genetics 141:503–512 Kerwin JL, Duddles ND (1989) Reassessment of the role of phospholipids in sexual reproduction by sterol-auxotrophic fungi. J Bacteriol 171:3831–3839 Kerwin JL, Washino RK (1983) Sterol induction of sexual reproduction in Lagenidium giganteum. ExpMycol 7:109–115 Knights BA, Elliott CG (1976) Metabolism of Δ 5 -andΔ 5,7 - sterols by Phytophthora cactorum. Biochim Biophys Acta 441:341–346 Ko WH (1980) Hormonal regulation of sexual reproduction in Phytophthora. J Gen Microbiol 116:459–463 Ko WH (1983) Isolation and partial characterization of α hormones produced by Phytophthora parasitica. J Gen Microbiol 129:1397–1401 Ko WH (1985) Stimulation of sexual reproduction of Phytophthora by phospholipids. J Gen Microbiol 131:2591– 2594 Ko WH (1988) Hormonal heterothallism and homothallism in Phytophthora. Annu Rev Phytopathol 26:57–73 Langcake P (1974) Uptake of sterols by Phytophthora infestans, their intracellular distribution and metabolism. Trans Br Mycol Soc 64:55–65 Lenton JR, Hall J, Smith AR, Ghisalberti EL, Rees HH, Goad LJ, Goodwin TW (1971) The utilization of potential phytosterol precursors by Ochromonas malhamensis. Arch Biochem Biophys 143:664–674 Machlis L (1958) Evidence for a sexual hormone in Allomyces. Physiol Plant 11:181–192 Machlis L (1973) Factors affecting the stability of various sirenins and analogues and the uptake of sirenin by the sperm of Allomyces. Plant Physiol 52:527–530
230 C. Schimek and J. Wöstemeyer McMorris TC (1978) Sex hormones of the aquatic fungus Achlya. Lipids 13:716–722 McMorris TC, Barksdale AW (1967) Isolation of a sex hormone from the water mold Achlya ambisexualis. Nature 215:820–821 McMorris TC, White RH (1977) Biosynthesis of the oogoniols, steroidal sex hormones of Achlya: theroleof fucosterol. Phytochemistry 16:359–362 McMorrisTC,SeshadriR,WeiheGR,ArsenaultGP,Barksdale AW (1975) Structures of oogoniol-1, -2, and -3, steroidal sex hormones of the water mold, Achlya. J Am Chem Soc 97:2544–2545 McMorris TC, Toft DO, Moon S, Wang W (1993) Biological responses of the female strain Achlya ambisexualis 734 to dehydro-oogoniol and analogues. Phytochemistry 32:833–837 Mehta BJ, Salgado LM, Bejarano ER, Cerdá-Olmedo E (1997) New mutants of Phycomyces blakesleeanus for β-carotene production. Appl Environ Microbiol 63:3657–3661 Meissner G, Delbrück M (1968) Carotenes and retinal in Phycomyces mutants. Plant Physiol 43:1279–1283 Mesland DAM, Huisman JG, van den Ende H (1974) Volatile sexual hormones in Mucor mucedo. JGenMicrobiol 80:111–117 Michalski CJ (1978) Protein synthesis during hormone stimulation in the aquatic fungus, Achlya ambisexualis. Biochem Biophys Res Commun 84:417–427 Mullins JT (1979) A freeze-fracture study of hormoneinduced branching in the fungus Achlya. TissueCell 11:585–595 Mullins JT (1994) Hormonal control of sexual dimorphism. In: Wessels JGH, Meinhardt F (eds) The Mycota, vol 1, 1st edn. Growth, differentiation and sexuality. Springer, Berlin Heidelberg New York, pp 413–421 Mullins JT, Ellis EA (1974) Sexual morphogenesis in Achlya: ultrastructural basis for the hormonal induction of antheridial hyphae. Proc Natl Acad Sci USA 71:1347–1350 Musgrave A, Nieuwenhuis D (1975) Metabolism of radioactive antheridiol by Achlya species. Arch Microbiol 105:313–317 Musgrave A, Ero L, Scheffer R (1978) The self-induced metabolism of antheridiol in water moulds. Acta Bot Neerl 27:397–404 Napoli JL (1999) Interactions of retinoid binding proteins and enzymes in retinoid metabolism. Biochim Biophys Acta 1440:139–162 Nes WD, Patterson GW, Bean GA (1980) Effect of steric and nuclear changes in steroids and triterpenoids on sexual reproduction in Phytophthora infestans. PlantPhysiol 66:1008–1011 Nieuwenhuis M, van den Ende H (1975) Sex specificity of hormones synthesis in Mucor mucedo.ArchMicrobiol 102:167–169 Ootaki T, Yamazaki Y, Noshita T, Takahashi S (1996) Excess carotenoids disturb prospective cell-to-cell recognitionsysteminmatingresponsesofPhycomyces blakesleeanus. Mycoscience 37:427–435 Pommerville JC (1978) Analysis of gamete and zygote motility in Allomyces. Exp Cell Res 113:161–172 Pommerville JC (1981) The role of sex pheromones in Allomyces. In: O’Day DH, Horgen PA (eds) Sexual interactions in eukaryotic microbes. Academic Press, New York, pp 52–73 Pommerville J, Olson LW (1987) Evidence for a maleproduced pheromone in Allomyces macrogynus. Exp Mycol 11:145–248 Pommerville JC, Strickland B, Romo D, Harding KE (1988) Effects of analogs of the fungal sexual pheromone sirenin on male gamete motility in Allomyces macrogynus. Plant Physiol 88:139–142 Popplestone CR, Unrau AM (1973) Major sterols of Achlya bisexualis. Phytochemistry 12:1131–1133 Popplestone CR, Unrau AM (1974) Studies on the biosynthesis of antheridiol. Can J Chem 52:462–468 Preus MW, McMorris TC (1979) The configuration at C-24 in oogoniol (24R-3β,11α,15β,29-tetrahydroxymast-5-en-7-one) and identification of 24 (28)-dehydrooogoniols as hormones in Achlya. JAm Chem Soc 101:3066–3071 Quiles-Rosillo MD, Ruiz-Vázquez RM, Torres-Martínez S, Garre V (2005) Light induction of the carotenoid biosynthesis pathway in Blakeslea trispora. Fungal Genet Biol 42:141–153 Randall TA, Fong AA, Judelson HS (2003) Chromosomal heteromorphism and an apparent translocation detected using a BAC contig spanning the mating type locus of Phytophthora infestans. Fungal Genet Biol 38:75–84 Raper JR (1952) Chemical regulation of sexual processes in the Thallophytes. Bot Rev 18:447–545 Riehl RM, Toft DO (1984) Analysis of the steroid receptor of Achlya ambisexualis. J Biol Chem 259:15324– 15330 Riehl RM, Toft DO, Meyer MD, Carlson GL, McMorris TC (1984) Detection of a pheromone-binding protein in the aquatic fungus Achlya ambisexualis. ExpCellRes 153:544–549 Riehl RM, Sullivan WP, Vroman BT, Bauer VJ, Pearson GR, Toft DO (1985) Immunological evidence that the nonhormone binding component of avian steroid receptors exists in a wide range of tissues and species. Biochemistry 24:6586–6591 Ruiz-Hidalgo MJ, Benito EP, Sandmann G, Eslava AP (1997) The phytoene dehydrogenase gene of Phycomyces:regulation of its expression by blue light and vitamin A. Mol Gen Genet 253:734–744 Salgado LM, Cerdá-Olmedo E (1992) Genetic interactions in the regulation of carotenogenesis in Phycomyces.Curr Genet 21:67–71 Salgado LK, Bejarano ER, Cerdá-Olmedo E (1989) Carotene-superproducing mutants of Phycomyces blakesleeanus. Exp Mycol 13:332–336 Salgado LM, Avalos J, Bejarano ER, Cerdá-Olmedo E (1991) Correlation between in vivo and in vitro carotenogenesis in Phycomyces. Phytochemistry 30:2587–2591 Schachtschabel D, Schimek C, Wöstemeyer J, Boland W (2005) Biological activity of trisporoids and trisporoid analogues in Mucor mucedo (−). Phytochemistry 66:1358–1365 Schimek C, Kleppe K, Saleem A-R, Voigt K, Burmester A, Wöstemeyer J (2003) Sexual reactions in Mortierellales are mediated by the trisporic acid system. Mycol Res 107:736–747 Schimek C, Petzold A, Schultze K, Wetzel J, Wolschendorf F, Burmester A, Wöstemeyer J (2005) 4dihydromethyltrisporate dehydrogenase, an enzyme of the sex hormone pathway in Mucor mucedo, is
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The Mycota Edited by K. Esser
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The Mycota A Comprehensive Treatise
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Karl Esser (born 1924) is retired P
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VIII Series Preface Class: Saccharo
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Addendum to the Series Preface In e
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XIV Volume Preface to the First Edi
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XVI Volume Preface to the Second Ed
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XVIII Contents Reproductive Process
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XX List of Contributors André Flei
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Vegetative Processes and Growth
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4 K.J. Boyce and A. Andrianopoulos
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22 L.J. García-Rodríguez et al. I
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24 L.J. García-Rodríguez et al. F
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26 L.J. García-Rodríguez et al. 2
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28 L.J. García-Rodríguez et al. M
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30 L.J. García-Rodríguez et al. a
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32 L.J. García-Rodríguez et al. t
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34 L.J. García-Rodríguez et al. H
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36 L.J. García-Rodríguez et al. T
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38 S.D. Harris dle organization tha
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40 S.D. Harris 2001; Borkovich et a
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42 S.D. Harris terized in A. nidula
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44 S.D. Harris astral microtubules
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46 S.D. Harris entry, and the CDK N
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48 S.D. Harris and Hamer 1997), the
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50 S.D. Harris Murray AW (2004) Rec
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4 Apical Wall Biogenesis J.H. Siets
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fungi can be regarded as “tube-dw
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In agreement with an essential role
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Kopecka and Gabriel 1992). They als
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nearly all the label was present in
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ingredients such as wall components
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in membrane enlargement and exocyto
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sis occurs, coinciding with a gradi
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pling of two (1-3)-alpha-glucan seg
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Sietsma JH, Wessels JGH (1977) Chem
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5 The Fungal Cell Wall J.P. Latgé
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polymers (chitosan) and glucuronic
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Whereas the structural branched β1
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their structural role in the cell w
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eight chitin synthases of A. fumiga
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Characterization of the chs4 mutant
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Fig. 5.8. Experimental data and hyp
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Fig. 5.9. Elongation of the mannan
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end of linear β1,3 glucans, and tr
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Fig. 5.12. Signal transduction in f
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shock,lowosmolarityaswellasotherfac
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ditions. Accordingly, enzymes and r
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Calonge TM, Arellano M, Coll PM, Pe
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Hiura N, Nakajima T, Matsuda K (198
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Martin-Yken H, Dagkessamanskaia A,
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Saporito-Irwin SM, Birse CE, Sypher
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6 Septation and Cytokinesis in Fung
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Septation in Fungi 107 Table. 6.1.
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Fig. 6.1. Selection of a cell divis
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Calderone, Chap. 5, this volume, an
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permissive temperature, multiple se
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eports suggested such a function fo
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understood mechanism of mitotic exi
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Implication in cytokinesis in Sacch
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Trinci APJ, Morris NR (1979) Morpho
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124 N.L. Glass and A. Fleissner ter
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126 N.L. Glass and A. Fleissner 188
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128 N.L. Glass and A. Fleissner Fig
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130 N.L. Glass and A. Fleissner sub
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132 N.L. Glass and A. Fleissner dur
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134 N.L. Glass and A. Fleissner G1
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136 N.L. Glass and A. Fleissner Bri
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138 N.L. Glass and A. Fleissner Mat
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8 Heterogenic Incompatibility in Fu
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Fungal Heterogenic Incompatibility
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B. Genetic Control The genetic back
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active phenotype het-s. The neutral
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Table. 8.1. (continued) Fungal Hete
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is a complex genetic trait controll
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indicate how speciation may be init
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ility controlled by multiple allele
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dependonthematingtypegenes,wasobser
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6. Relation with Histo-Incompatibil
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Semi-Incompatibilität. Z Indukt Ab
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Micali CO, Smith ML (2003) On the i
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Vilgalys RJ, Miller OK (1987) Matin
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168 B.C.K. Lu (Esser et al. 1980; K
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170 B.C.K. Lu enterthePCDpathway,wi
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172 B.C.K. Lu et al. 2004). It is l
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174 B.C.K. Lu (MMP), through ruptur
Page 190 and 191: 176 B.C.K. Lu Fig. 9.1. Effects of
Page 192 and 193: 178 B.C.K. Lu drial fission during
Page 194 and 195: 180 B.C.K. Lu Although the cytologi
Page 196 and 197: 182 B.C.K. Lu be arrested at diffus
Page 198 and 199: 184 B.C.K. Lu Harris MH, Thompson C
Page 200 and 201: 186 B.C.K. Lu oxygen species, in Kl
Page 202 and 203: 10 Senescence and Longevity H.D. Os
Page 204 and 205: the amplification of plDNA is not a
Page 206 and 207: GRISEA is an orthologue of the yeas
Page 208 and 209: Fig. 10.3. Copper delivery to the c
Page 210 and 211: have been identified, for example,
Page 212 and 213: Kück U, Stahl U, Esser K (1981) Pl
Page 214 and 215: Signals in Growth and Development
Page 216 and 217: 204 U. Ugalde II. Germination The p
Page 218 and 219: 206 U. Ugalde Fig. 11.2.A-C Drawing
Page 220 and 221: 208 U. Ugalde duction (Schimmel et
Page 222 and 223: 210 U. Ugalde position, possibly in
Page 224 and 225: 212 U. Ugalde Champe SP, Rao P, Cha
Page 226 and 227: 12 Pheromone Action in the Fungal G
Page 228 and 229: sibly due to displacement of the hy
Page 230 and 231: all these compounds, the B-derivate
Page 232 and 233: shows the same activity in M. muced
Page 234 and 235: C. Oomycota In the non-mycotan phyl
Page 236 and 237: following sequence of events has be
Page 238 and 239: the standard Mendelian segregation
Page 242 and 243: constitutively transcribed but its
Page 244 and 245: 234 L.M. Corrochano and P. Galland
Page 270 and 271: Reproductive Processes
Page 272 and 273: 264 R. Fischer and U. Kües 2. Chla
Page 274 and 275: 266 R. Fischer and U. Kües resourc
Page 276 and 277: 268 R. Fischer and U. Kües ular le
Page 278 and 279: 270 R. Fischer and U. Kües pathway
Page 280 and 281: 272 R. Fischer and U. Kües and con
Page 282 and 283: 274 R. Fischer and U. Kües Timberl
Page 284 and 285: 276 R. Fischer and U. Kües PsiB le
Page 286 and 287: 278 R. Fischer and U. Kües Table.
Page 288 and 289: 280 R. Fischer and U. Kües tein ki
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282 R. Fischer and U. Kües nitroge
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284 R. Fischer and U. Kües tion, t
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286 R. Fischer and U. Kües Busch S
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288 R. Fischer and U. Kües Jeffs L
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290 R. Fischer and U. Kües Pöggel
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292 R. Fischer and U. Kües Yamashi
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294 R. Debuchy and B.G. Turgeon tha
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296 R. Debuchy and B.G. Turgeon loc
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298 R. Debuchy and B.G. Turgeon Tab
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300 R. Debuchy and B.G. Turgeon Fig
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302 R. Debuchy and B.G. Turgeon mai
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304 R. Debuchy and B.G. Turgeon mol
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306 R. Debuchy and B.G. Turgeon gen
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308 R. Debuchy and B.G. Turgeon int
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310 R. Debuchy and B.G. Turgeon Fig
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312 R. Debuchy and B.G. Turgeon pro
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314 R. Debuchy and B.G. Turgeon B.
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316 R. Debuchy and B.G. Turgeon 2.
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318 R. Debuchy and B.G. Turgeon in
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320 R. Debuchy and B.G. Turgeon be
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322 R. Debuchy and B.G. Turgeon Lee
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16 Fruiting-Body Development in Asc
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phae originating from the base of a
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Table. 16.1. (continued) Fruiting B
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(Raju 1992). When male-sterile muta
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1. nsd (never in sexual development
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egular intervals; both effects requ
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the balance between sexual and asex
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ductionofeitherpheromoneisdirectlyc
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(Catlett et al. 2003). Eleven genes
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negative mutation of KREV-1 resulte
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through MAP kinase modules to cell-
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The fact that fruiting-body formati
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Balestrini R, Mainieri D, Soragni E
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point mutation of the beta subunit
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Mitchell TK, Dean RA (1995) The cAM
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YamashiroCT,EbboleDJ,LeeBU,BrownRE,
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358 L.A. Casselton and M.P. Challen
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376 M. Feldbrügge et al. different
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378 M. Feldbrügge et al. Fig. 18.3
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380 M. Feldbrügge et al. et al. 20
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382 M. Feldbrügge et al. for unbia
Page 390 and 391:
384 M. Feldbrügge et al. In U. may
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386 M. Feldbrügge et al. Neurospor
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388 M. Feldbrügge et al. Bernards
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390 M. Feldbrügge et al. O’Donne
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19 The Emergence of Fruiting Bodies
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2003; Kües et al. 2004) are the fi
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(Manachère 1988), C. cinereus (Tsu
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emergence of fruiting bodies. In th
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Rather, development is arrested in
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10 nm thick is highly insoluble and
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it has been suggested that hydropho
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expression in the stipe suggests th
Page 414 and 415:
Cooper DNW, Boulianne RP, Charlton
Page 416 and 417:
Lu BC (1974) Meiosis in Coprinus. R
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Takagi Y, Katayose Y, Shishido K (1
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20 Meiosis in Mycelial Fungi D. Zic
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Fig. 20.1. A-E Diagrammatic represe
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etween dispersed DNA repeats. In N.
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Fig. 20.2. Meiotic recombination. S
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mechanism whereby homologues locate
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An important component of the bouqu
Page 432 and 433:
observed when the mammal LE compone
Page 434 and 435:
A. Chromosome and Sister-Chromatid
Page 436 and 437:
ascus plus ascospore morphogenesis
Page 438 and 439:
syndrome)discoveredasageneinvolvedi
Page 440 and 441:
Kitajima TS, Kawashima SA, Watanabe
Page 442 and 443:
Rossignol J-L, Faugeron G (1995) MI
Page 444 and 445:
Biosystematic Index Absidia glauca
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violaceum 153 Microsporum 149 Mimos
Page 448 and 449:
Subject Index ABC transporter 382 a
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fluffy 270, 276 formin 8, 10, 13, 1
Page 452 and 453:
MAT protein interaction 308, 315 ma
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sporangiophore 234, 242, 246-252, 2
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