| Preface | |
| Ethylene Biosynthesis and Fruit Ripening | |
| Structural characteristics of ACC synthase isozymes and differential expression of their genes | p. 1 |
| Monomeric and dimeric forms and mechanism-based inactivation of 1-aminocyclopropane-1-carboxylate synthase | p. 7 |
| Characterization of the 1-aminocyclopropane-1-carboxylate (ACC) synthase isoenzymes (genes) in tomato | p. 13 |
| Modifying fruit ripening by suppressing gene expression | p. 19 |
| Cloning and expression analysis of an Arabidopsis thaliana 1-aminocyclopropane-1-carboxylate synthase gene: pattern of temporal and spatial expression | p. 24 |
| Relationship of ACC oxidase RNA, ACC synthase RNA and ethylene, in peach fruit | p. 31 |
| Maximising the activity of the ethylene-forming enzyme | p. 33 |
| Purification, characterization and subcellular localization of ACC oxidase from fruits | p. 39 |
| Purification and characterization of ACC oxidase and its expression during ripening in apple fruit | p. 46 |
| Mechanistic aspects of ACC oxidation to ethylene | p. 53 |
| Apple ACC oxidase: Purification and characterization of the enzyme and cloning of its cDNA | p. 59 |
| Biochemical and molecular characterization of ethylene-forming enzyme from avocado | p. 65 |
| Identification of genes encoding EFE in tomato | p. 71 |
| EFE multi-gene family in tomato plants: Expression and characterization | p. 76 |
| Altered gene expression, leaf senescence, and fruit ripening by inhibiting ethylene synthesis with EFE-antisense genes | p. 82 |
| Conversion of 1-aminocyclopropane-1-carboxylic acid to ethylene and its regulation by calcium in sunflower protoplasts | p. 90 |
| Isolation of a ripening and wound-induced cDNA from Cucumis melo L. with homology to the ethylene-forming enzyme | p. 92 |
| Isolation and characterisation of ethylene-forming enzyme genes from melon | p. 94 |
| Immunocytolocalisation of ACC oxidase in tomato fruits | p. 96 |
| Biochemical and immunocytological characterization of ACC oxidase in transgenic grape cells | p. 98 |
| Effect of E8 protein on ethylene biosynthesis during tomato fruit ripening | p. 100 |
| Expression of a bacterial ACC deaminase gene in tomato | p. 106 |
| Stereospecific reaction of 1-aminocyclopropane-1-carboxylate deaminase | p. 111 |
| Biochemical and molecular aspects of low oxygen action on fruit ripening | p. 117 |
| Functional analysis of CX-Cellulase (endo-[beta]-1,4-glucanase) gene expression in transgenic tomato fruit | p. 123 |
| Inhibition of ethylene biosynthesis and suppression of cellulase and polygalacturonase in avocado fruit subjected to low oxygen storage | p. 129 |
| Cold-induced climacteric rise of ethylene metabolism in Granny Smith apples | p. 136 |
| Regulation by temperature of the propylene induced ethylene biosynthesis and ripening in "Hayward" kiwifruit | p. 142 |
| Ethylene involvement in raspberry fruit ripening | p. 144 |
| Effect of ethylene on sesquiterpene nootkatone production during the maturation-senescence stage in grapefruit (Citrus paradisi Macf.) | p. 146 |
| Ethylene biosynthesis during the ripening of cherimoya (Annona cherimola, Mill) | p. 148 |
| Effects of CO[subscript 2] on ethylene production by apples at low and high O[subscript 2] concentrations | p. 150 |
| High carbon dioxide treatment before storage as inducer or reducer of ethylene in apples | p. 152 |
| ADH activity, via ethanol, affects ethylene production in tomato pericarp discs | p. 154 |
| Two-dimensional protein patterns of cherimoya fruits during ripening | p. 156 |
| Involvement of ethylene levels in delayed ripening of avocado cv. "Hass" at low temperature | p. 158 |
| Relationship between polyamines and ethylene in cherimoya fruit ripening | p. 160 |
| Modulation of gene expression under ethylene treatment in the latex of Hevea brasiliensis | p. 162 |
| Immunodetection of ethylene-induced chlorophyllase from citrus fruit peel | p. 164 |
| Ascorbate oxidase of Cucumis melo | p. 166 |
| Ethylene Action | |
| Ethylene receptors | p. 168 |
| Buckminsterfullerene (C60 buckyball) inhibition of ethylene release from senescing legume foliage and cut carnations | p. 174 |
| Effect of diazocyclopentadiene (DACP) on cut carnations | p. 182 |
| Reduced sensitivity to ethylene and delayed senescence in a group of related carnation cultivars | p. 188 |
| In vitro study of ethylene binding sites in pea seedlings | p. 195 |
| Stress Ethylene | |
| Fungal xylanase elicits ethylene biosynthesis and other defense responses in tobacco | p. 197 |
| Stress ethylene in Hevea brasiliensis: Physiological, cellular and molecular aspects | p. 205 |
| Wound ethylene synthesis in the stress-affected cells | p. 211 |
| Ethylene in early signalling phenomena at the plant-microorganism interface | p. 217 |
| Tomato ACC synthase : regulation of gene expression and importance of the C-terminal region in enzyme activity | p. 223 |
| Regulation of ethylene synthesis in maize roots responses to stress | p. 232 |
| Heavy metal induction of ethylene production and stress enzymes I. Kinetics of the responses | p. 238 |
| Heavy metal induction of ethylene production and stress enzymes. II. Is ethylene involved in the signal transduction from stress perception to stress responses? | p. 240 |
| Flooding resistance and ethylene. I. An ecophysiological approach with rumex as a model | p. 247 |
| Flooding resistance and ethylene. II. Application of an advanccd laser-driven photoacoustic technique in ethylene measurements on flooded rumex plants | p. 249 |
| Flooding resistance and ethylene. III. The role of ethylene in shoot elongation of rumex plants in response to flooding | p. 251 |
| Effect of saline stress on growth of lycopersicon esculentum plants and its relation with endogenous ethylene metabolism | p. 253 |
| Ethylene biosynthesis in "Hayward" kiwifruit infected by Botrytis cinerea | p. 255 |
| Ethylene, stress and enzymatic activities in Hevea latex: the diversity of responses | p. 257 |
| Molecular and physiological characterisation of the role of ethylene during pathogen attack of tomato fruit | p. 259 |
| The use of antisense transgenic tomato plants to study the role of ethylene in responses to waterlogging | p. 261 |
| Research on the diurnal courses of abscissic acid, 1-aminocyclopropane carboxylic acid and its malonyl conjugate contents in needles of damaged and undamaged spruces | p. 263 |
| Flower Senescence. Abscission | |
| Hormonal and tissue-specific regulation of cellulase gene expression in abscission | p. 265 |
| Changes in gene expression during leaf abscission | p. 272 |
| Rapid ethylene-induced gene expression during petal abscission | p. 278 |
| Abscission studies in a new mutant of navel oranges | p. 284 |
| Ethylene regulation and function of flower senescence-related genes | p. 291 |
| Cloning of ethylene biosynthetic genes involved in petal senescence of carnation and petunia, and their antisense expression in transgenic plants | p. 298 |
| Interorgan regulation of post-pollination events in orchid flowers | p. 304 |
| Roles of ethylene, ACC and shortchain saturated fatty acids in inter-organ communication during senescence of Cymbidium flowers | p. 310 |
| The role of ethylene in the abscission and ripening of raspberry fruit Rubus idaeus cv Glen Clova | p. 317 |
| Expression of two ACC synthase mRNAs in carnation flower parts during aging and following treatment wth ethylene | p. 323 |
| Promoting the activity of arginine decarboxylase and ornithine decarboxylase by ethylene and its significance to the control of abscission in citrus leaf explants | p. 325 |
| Expression of EFE antisense RNA in tomato causes retardation of leaf senescence and most fruit ripening characteristics | p. 327 |
| Growth, Development | |
| The role of ethylene in regulating growth of deepwater rice | p. 329 |
| Gravity dependent ethylene action | p. 335 |
| Ethylene and the growth of etiolated seedlings of lupinus albus L. | p. 341 |
| Various conditions of illumination and ethylene evolution | p. 347 |
| Ethylene and vitrification of Fraxinus explants in vitro | p. 353 |
| Stimulation of somatic embryogenesis in carrot by ethylene | p. 359 |
| Relationship between ethylene and polyamine synthesis in plant regeneration | p. 365 |
| Ethylene inhibits the morphogenesis of Vitis vinifera cuttings cultured in vitro | p. 367 |
| Enhanced ethylene production by primary roots of Zea mays L. in response to sub -ambient partial pressures of oxygen | p. 369 |
| Ethylene and phosphorylation of pea epicotyl proteins | p. 371 |
| Knowledge of xylem sap flow rate is a pre-requisite for accurate estimates of hormone transport from roots to shoots | p. 373 |
| Ethylene synthesis by fruit plants cultured in vitro | p. 375 |
| Index of Authors | p. 377 |
| Index of Keywords | p. 381 |
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