Fungal MorphogenesisCambridge University Press, 1998 - 488 Seiten Fungal Morphogenesis brings together in one book, for the first time, the full scope of fungal developmental biology. The book provides a coherent account of the subject and puts forward ideas that can provide a basis for future research. Throughout, the author blends together physiological, biochemical, structural and molecular descriptions within an evolutionary framework. Sufficient information is provided about fungal biology to give the reader a rounded view of the mycological context within which fungal morphogenesis is played out, without obscuring the broader biological significance. The author is careful to avoid jargon and demystifies technical terms. Written by one of the few people with the necessary breadth of research expertise to deal authoritatively with the wide range of topics presented, this book will appeal to developmental and cell biologists, microbiologists, and geneticists. |
Inhalt
II | 1 |
IV | 4 |
V | 8 |
VI | 9 |
VII | 16 |
VIII | 18 |
IX | 19 |
X | 22 |
LXXXI | 193 |
LXXXII | 194 |
LXXXIII | 196 |
LXXXIV | 200 |
LXXXV | 201 |
LXXXVI | 206 |
LXXXVII | 207 |
LXXXVIII | 209 |
XI | 23 |
XII | 26 |
XIII | 27 |
XIV | 30 |
XV | 31 |
XVI | 35 |
XVII | 36 |
XVIII | 39 |
XX | 41 |
XXII | 43 |
XXIII | 48 |
XXIV | 53 |
XXV | 60 |
XXVI | 63 |
XXVII | 71 |
XXVIII | 72 |
XXIX | 74 |
XXXI | 80 |
XXXII | 82 |
XXXIII | 84 |
XXXV | 85 |
XXXVI | 86 |
XXXVII | 87 |
XXXIX | 88 |
XL | 89 |
XLII | 90 |
XLIII | 91 |
XLIV | 93 |
XLV | 95 |
XLVI | 98 |
XLVIII | 99 |
XLIX | 102 |
L | 103 |
LI | 105 |
LII | 107 |
LIII | 108 |
LV | 111 |
LVI | 112 |
LVII | 113 |
LIX | 114 |
LX | 120 |
LXI | 123 |
LXII | 128 |
LXIII | 130 |
LXIV | 134 |
LXV | 138 |
LXVII | 140 |
LXVIII | 141 |
LXX | 154 |
LXXI | 156 |
LXXII | 168 |
LXXIII | 173 |
LXXIV | 176 |
LXXV | 178 |
LXXVI | 181 |
LXXVII | 186 |
LXXVIII | 187 |
LXXIX | 189 |
LXXX | 191 |
LXXXIX | 210 |
XC | 215 |
XCI | 216 |
XCII | 218 |
XCIII | 222 |
XCIV | 223 |
XCV | 224 |
XCVI | 228 |
XCVII | 229 |
XCVIII | 230 |
XCIX | 234 |
C | 236 |
CI | 239 |
CII | 243 |
CIII | 246 |
CIV | 248 |
CV | 249 |
CVI | 254 |
CVII | 258 |
CVIII | 261 |
CIX | 265 |
CX | 266 |
CXI | 268 |
CXII | 279 |
CXIII | 281 |
CXIV | 288 |
CXV | 289 |
CXVI | 297 |
CXVII | 298 |
CXVIII | 306 |
CXIX | 309 |
CXX | 312 |
CXXI | 314 |
CXXII | 317 |
CXXIII | 318 |
CXXIV | 327 |
CXXV | 328 |
CXXVI | 337 |
CXXVII | 341 |
CXXVIII | 343 |
CXXIX | 346 |
CXXX | 349 |
CXXXI | 353 |
CXXXII | 358 |
CXXXIII | 364 |
CXXXIV | 368 |
CXXXV | 369 |
CXXXVI | 373 |
CXXXVII | 375 |
CXXXVIII | 380 |
CXXXIX | 383 |
CXL | 384 |
CXLI | 387 |
CXLII | 392 |
CXLIV | 396 |
CXLV | 405 |
| 463 | |
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Häufige Begriffe und Wortgruppen
activity agar Agaricus bisporus amino acids ammonium animals apex apical ascomycetes Aspergillus basidia basidiomycetes branch carbohydrate carbon cell wall chitin Chiu and Moore components concentration Coprinus Coprinus cinereus crassa cultures cycle cystidia cystidium cytoplasmic developmental differentiation dikaryon enzymes eukaryotes extracellular filamentous formation fruit body fruit body development fruit body initials function fungal fungi fungus genes genetic gill glucose glutamate glycogen Gooday gravitropic hormones hymenial hymenium hymenophore hyphae hyphal growth hyphal tips induced inflated involved mating type mating type factors mature mechanism medium meiosis meiotic membrane metabolism molecules monokaryons monokaryotic morphogenesis morphology mushroom mutants mycelial mycelium NADP-GDH narrow hyphae Neurospora nidulans nitrogen nuclear nuclei nutrient occur organisation organisms pathway pattern perithecium plants pore primordia primordium produced protein regulation Reijnders Schizophyllum commune sclerotia secondary metabolites sequence showed specific spores sporulation stages stem elongation structure substrate surface synthesis tion tissue transcription vegetative vesicles yeast
Beliebte Passagen
Seite 414 - CLUTTERBUCK AJ, 1969. — A mutational analysis of conidial development in Aspergillus nidulans. Genetics, 63, 317-327.
Seite 419 - KLAPHOLZ. 1981. Meiosis and ascospore development. In The Molecular biology of the yeast Saccharomyces. Life cycle and inheritance (ed. JN Strathern et al.), p.
Seite 424 - Studies on the growth of fruit body of fungi. IV. The growth of the fruit body of Agaricus bisporus and the economy of the mushroom growth hormone.
Seite 450 - Staehelin, LA (1995). Cytokinesis in tobacco BY-2 and root tip cells: A new model of cell plate formation in higher plants. J. Cell Biol 130, 1345-1357. Sano, T., Higaki, T., Oda, Y., Hayashi, T., and Hasezawa, S. (2005). Appearance of actin microfilament 'twin peaks' in mitosis and their function in cell plate formation, as visualized in tobacco BY-2 cells expressing GFP-nmbrin.
Seite 424 - Konishi M., 1960. — Studies on the growth of fruit body of fungi. II. Activity and stability of the growth hormone in the fruit body of Agaricus bisporus (Lange) Sing.
Seite 408 - Loros, JJ (1992). The Neurospora circadian clock-controlled gene, ccg-2, is allelic to eas and encodes a fungal hydrophobin required for the formation of the conidial rodlet layer.
Seite 414 - Chet. I. & Henis, Y. (1968) The control mechanism of sclerotial formation in Sclerotium rolfsii Sacc. Journal of General Microbiology 54, 231-236. Chet, I. & Henis, Y.
Seite 430 - Kanda, T., Arakawa, H.. Yasuda, Y. & Takemaru, T. (1990) Basidiospore formation in a mutant of incompatibility factors and in mutants that arrest at meta-anaphase I in Coprinus cinereus. Experimental Mycology 14, 218-226.
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