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Biology and Biotechnology of the Plant Hormone Ethylene II PDF

450 Pages·1999·19.453 MB·English
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BIOLOGY AND BIOTECHNOLOGY OF THE PLANT HORMONE ETHYLENE II Biology and Biotechnology of the Plant Hormone Ethylene II Edited by A.K. Kanellis Department of Pharmaceutical Sciences, Aristotle Vniversity of Thessaloniki, Thessaloniki, Greece C. Chang Department of Cel! Biology and Molecular Genetics, Vniversity of Maryland, Col!ege Park, MD, U.S.A. H. Klee Department of Horticultural Sciences, Vniversity of Florida, Gainesville, FL, V.S.A. A.B. Bleecker Department of Botany, Vniversity of Wisconsin-Madison, Madison, WI, V.S.A. J.C. Pech ENSAT Auzevil/e Tolosan, Castane! Tolosan cedex, France D. Grierson BBSRC Research Group in Plant Gene Regulation, Departmen! of Physiology and Environmental Science, Vniversity of Nottingham, Sutton Bonington Campus. Loughborough, Vnited Kingdom SPRINGER-SCIENCE+BUSINESS MEDIA, B.V. Library of Congress Cataloging-in-Publication Data Proceedings of the EU-TMR-Euroconference Symposium on Biology and Biotechnology of the Plant Hormone Ethylene II, Thira (Santorini), Greece 5-8 September, 1999 ISBN 978-94-010-5910-7 ISBN 978-94-011-4453-7 (eBook) DOI 10.1007/978-94-011-4453-7 Printed an acid-free paper AH Rights Reserved © 1999 Springer Science+Business Media Dordrecht Originally published by Kluwer Academic Publishers in 1999 Softcover reprint of the hardcover Ist edition 1999 No part of the material protected by this copyright notice may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording or by any information storage and retrieval system, without written permission from the copyright owner. TABLE OF CONTENTS ~~~ ~ Kanellis. A.K.. C. Chang. H Klee. A.B. Bleecker. J.c. Pech and D. Grierson 1. Biochemical and Molecular Mechanisms of Ethylene Synthesis ACC oxidase in the biosynthesis of ethylene John, P., E.A. Reynolds, A.G. Prescottand and A.D. Bauchot Analysis of ACC oxidase activity by site-directed mutagenesis of conserved amino acid residues 7 D. Kadyrzhanova, TJ. McCully, T. Warner, K. Vlachonasios, Z. Wang and D.R. Dilley Evaluation of novel inhibitors of ACC oxidase possessing cyclopropyl moiety 13 Dourtoglou, V., E. Koussissi and K. Petritis Characterization of the promoter of mungbean auxin-inducible ACC synthase gene, Vr-ACS6 21 Yoon, I. S., D.H. Park, H. Mori, B.G. Kang and H. Imaseki Searching for the role of ethylene in non-climacteric fruits: Cloning and characterization of ripening-induced ethylene biosynthetic genes from non-climactericpPineapple (Ananas Comosus) fruits 29 Cazzonelli, C.J., A.S. Cavallaro and J.R. Botella Organization and structure of l-aminocyclopropane-l-carboxylate oxidase gene family from peach 31 Bonghi, C., B. Ruperti, A. Rasori, P. Tonutti and A. Ramina Metabolism of l-aminocyclopropane-l-carboxylic acid by Penicillium citrinum 33 Honma, M., YJ. Jia, Y Kakuta and H. Matsui Structural modifications of ACC oxidase during catalytic inactivation 35 Ramassamy, S., S. Bidonde, L. Stella, J.C. PechandA. Latche 2. Perception and Signal Transduction Pathways Characterization of Arabidopsis ethylene-overproducing mutants 37 Woeste, K.E. and J. J. Kieber vi Control of ethylene responses at the receptor level 45 Sisler, E.C. and M. Serek The Ethylene Signal Transduction Pathway 51 Bleecker, A. B., A. E. Hall, F. I. Rodriguez, J. J. Esch and B. Binder The role of two-component systems in ethylene perception 59 Gamble, R.L., M.L. Coonfield, M.D. Randlett, and G.E. Schaller Protein-protein interactions in ethylene signal transduction in Arabidopsis 65 Chang, e., P.B. Larsen, C-K. Wen, W. Ding, J.A. Shockey and Z. Pan Ethylene signaling: more players in the game 71 Van Der Straeten, D., J. Smalle, A. Bertran, A. De Paepe, I. De Pauw, F. Vandenbussche, M. Haegman, W. Van Caeneghem, and M. Van Montagu The effect of ethylene and cytokinin on GTP binding and MAP kinase activity in Arabidopsis thaliana 77 Smith, A.R., I.E. Moshkov, G.V. Novikova and M.A. Hall Ethylene and methyl jasmonate interaction and binding models for elicited biosynthetic steps of paclitaxel in suspension cultures of Taxus canadensis 85 Phisalaphong, M. and J.e. Linden Barren mutants in maize - a case study in plant signaling 95 Peterson, P. A. Ethylene signal transduction pathway in cell death during aerenchyma formation in maize root cells: role of phospholipases 103 He, C.J., P.W. Morgan, B.G. Cobb, W.R. Jordan and M.e. Drew 3. Growth and Development and Fruit Ripening Ethylene-dependent and ethylene-independent pathways in a climacteric fruit, the melon 105 Pech, J.e., M. Guis, R. Botondi, R. Ayub, M. Bouzayen, J.M. Lelievre, F. EI Yahyaoui and A. Latche Isolation and characterization of novel tomato ethylene-responsive cDNA clones involved in signal transduction, transcription and mRNA translation I 11 Zegzouti, H., B. Jones, B. Toumier, J. Leclercq, A. Bemadac and M. Bouzayen vii Analysis of gene expression and mutants influencing ethylene responses and fruit development in tomato 119 Giovannoni, J., E. Fox, P. Kannan, S. Lee, V. Padmanabhan and 1. Vrebalov Ethylene as the initiator of the inter-tissue signalling and gene expression cascades in ripening and abscission of oil palm fruit 129 Henderson, J. and D. 1. Osborne Ethylene perception and response in Citrus fruit 137 Cubells-Martinez, X., J.M. Alonso, M.T. Sanchez-Ballesta and A. Granell Phytochrome B and ethylene rhythms in sorghum: biosynthetic mechanism and developmental effects 145 Finlayson, S.A., C-J. He, I-J. Lee, M.C. Drew, J.E. Mullet and P.W. Morgan Involvement of ethylene biosynthesis and action in regulation of the gravitropic response of cut flowers 151 Philosoph-Hadas, S., H. Friedman, R. Berkovitz-Simantov, I. Rosenberger, E.J. Woltering, A.H. Halevy and S. Meir Ethylene and flower development in tobacco plants 157 De Martinis, D., I. Haenen, M. Pezzotti, E. Benvenuto and C. Mariani ACC oxidase expression and leaf ontogeny in white Glover 165 McManus, M.T., D.A. Hunter, S.D. Yoo and D. Gong Interaction of ethylene with jasmonates in regulation of some physiological processes in plants 173 Saniewski, M., J. Ueda and K. Miyamoto Isolation of developmentally-regulated genes in immature tomato fruit: towards an understanding of pre-ripening development 181 Jones, B., H. Zegzouti, P. Frasse and M. Bouzayen Interaction between ethylene and abscisic acid in the regulation of Citrus fruit maturation 183 Alferez, F. and L. Zacarias Interactions between abscisic acid and ethylene in ethylene-forming capacity of preclimacteric apple fruits 185 Lara, L and M. Vendrell Soil compaction: Is there an ABA-ethylene relationship regulating leaf expansion in tomato? 187 Hussain, A., J.A Roberts, C.R. Black and LB. Taylor viii Use of I-methylcyclopropene to modulate banana ripening 189 Joyce, D.C., AJ. Macnish, P.J. Hofman, D.H. Simons and M.S. Reid Endo-J3-mannanase activity during lettuce seed germination at high temperature in response to ethylene 191 Nascimento, W.M., D.J. Cantliffe and D.J. Huber Ethylene and gibberelin in secondary dormancy releasing of Amaranthus caudatus seeds 193 K~pczyIiski, J. and M. Bihun 4. Ethylene and Senescence of Plant Organs Regulation and function of pollination-induced ethylene in carnation and petunia flowers 195 Jones, M.L., W.R. Woodson and J.T. Lindstrom The role of short-chain saturated fatty acids in inducing sensitivity to ethylene 203 Halevy, A. H. and C. S. Whitehead Apoptotic cell death in plants: The role of ethylene 209 Woltering, E. J., A. J. de Jong and E. T. Yakimova Cloning of tomato DADI and study of its expression during programmed cell death and fruit ripening 217 Hoeberichts, F.A., L.H.W. Van der Plas, and EJ. Woltering RNAase activities is post-translationallly controlled during the dark-induced senescence program 221 Gallie, D.R. and S.-C. Chang Ethylene regulation of abscission competence 227 Lashbrook, C.C. and H.J. Klee Role of ethylene sensitivity in mediating the chilling-induced leaf abscission of Ixora plants 235 Michaeli, R., S. Philosoph-Hadas, J. Riov and S. Meir Expression of abscission-related endo-p-l,4-glucanase 243 Casadoro, G., L. Trainotti and C.A. Tomasin Differential display and isolation of cDNAs corresponding to mRNAs whose abundance is influenced by ethylene during peach fruitlet abscission 249 ix Ramina, A., C. Bonghi, J.J. Giovannoni, B. Ruperti and P. Tonutti The effect of auxins and ethylene on leaf abscission of Ficus benjamina 255 AI-Khalifah, N.S. and P.G. Alderson Effect of ethylene on the oxidative decarboxylation pathway of indole-3-acetic acid 261 Goren, R., L. Winer and J. Riov An Arabidopsis ETRI homologue is constituvely expressed in peach fruit abscission zone and mesocarp 267 Tonutti, P., C. Bonghi, B. Ruperti, A. Scapin and A. Ramina Characterization of caEG2, a pepper endo-8-1,4-glucanase gene involved in the abscission of leaves and flowers 269 Trainotti, L., C.A. Tomasin and G. Casadoro Cellulase gene expression in ethylene treated geranium flowers 271 Rilioti, Z., S. Lind-Iversen, C. Richards and K.M. Brown Use of I-methylcyclopropene to prevent floral organ abscission from ethylene-sensitive Proteaceae 273 Macnish, AJ., D.C. Joyce, J.D. Faragher and M.S. Reid Effects of selenium uptake by tomato plants on senescence, fruit ripening and ethylene evolution 275 Pezzarossa, B., F. Malorgio and P. Tonutti 5. Stress Ethylene: Biochemical and Molecular Approaches Ethylene enhances the antifungal diene content in idioblasts from avocado mesocarp 277 Prusky, D., A. Leikin-Frenkel and L. Madi Stimulated ethylene production in tobacco (Nicotiana tabacum L., CV. KY 57) leaves infected systemically with cucumber mosaic virus yellow strain 285 Chaudhry, Z., S. Fujimoto, S. Satoh, T. Yoshioka, S. Rase and Y. Ehara ACC deaminase is central to the functioning of plant growth promoting Rhizobacteria 293 Glick, B. R., J. Li, S. Shah, D. M. Penrose and B. A. Moffatt The role of ethylene in the formation of cell damage during ozone 299 Stress: Does ozone induced cell death require concomitant ADS x and ethylene production? Kettunen, R., K. Overmyer and J. Kangasjarvi Flooding-induced sensitisation to ethylene in Rumex palustris and the possible involvement of a putative ethylene receptor 307 Vriezen, W.H., C. Mariani and L.A.C.J. Voesenek Interactions between oxygen concentration and climacteric onset of ethylene evolution 313 Solomos, T. Manipulation of the expression of heme activated protein hap5c gene in transgenic plants 321 Gherraby, W., A. Makris, I. Pateraki, M. Sanmartin, P. Chatzopoulos and A. K. Kanellis Ethylene and polyamines synthesis in cherimoya fruit under high CO levels: Adaptative mechanism to chilling damage 327 2 Mufioz, M.T., M.I. Escribano and C. Merodio Effects of copper and zinc on the ethylene production of Arabidopsis thaliana 333 Mertens, J., J. Vangronsveld, D. Van Der Straeten and M. Van Poucke Ethylene dependent aerenchyma formation is correlated with diverse gene expression patterns 339 Finkelstein, D. B, S. A. Finlayson, M. C. Drew, W. R. Jordan, R. A. Wing and P. W. Morgan Ethylene biosynthesis in Rumex palustris upon flooding 343 Vriezen, W.H., L.A.C.J. Voesenek and C. Mariani Apoplastic ACC in ozone-and elicitor-treated plants 345 MOder, W., J. Kangasjarvi, E.F. Elstner, C. Langebartels and H. Sandermann Jr. ACC synthase isozymes of tomato (LE-ACSIB & LE-ACS6) that are inducible only by touch 347 Tatsuki, M. and H. Mori 6. Biotechnological Control of Ethylene Ethylene perception in tomato: lots of genes, lots of functions 351 Klee, H., D. Tieman and C. Lashbrook xi Horticultural performance of ethylene insensitive petunias 357 Clark, D.G., H.J. Klee, J.E. Barrett, and T.A. Nell Role of ethylene in aroma formation in cantaloupe charentais melon 365 Bauchot, A.D., D.S. Mottram, A.T. Dodson and P. John Genetic engineering of cantaloupe to reduce ethylene biosynthesis and control ripening 371 Clendennen, S., K. J. A. Kellogg, K. A. Wolff, W. Matsumura, S. Peters, J. E. Vanwinkle, B. Copes, M. Pieper, and M.G. Kramer Physiological analysis of flower and leaf abscission in antisense-ACC oxidase tomato plants 381 Zacarias, L., C. Whitelaw, D. Grierson, and J.A. Roberts Ethylene in higher plants: biosynthetic interactions with polyamines and high-temperature-mediated differential induction of NR versus TAEI ethylene receptor 387 Mehta, R. A., D. Zhou, M. Tucker, A. Handa, T. Solomos and A. K. Mattoo Understanding the role of ethylene in fruit softening using antisense ACC oxidase melons 395 Guis, M., A. Latche, M. Bouzayen and J.C. Pech Rose, J.K.C., K.A. Hadfield and A.B. Bennett Ethylene biosynthesis in transgenic auxin-overproducing tomato plants 397 Castellano, J.M., J. Chamarro and B. Vioque Unpredictable phenotype change connected with Agrobacterium tumefaciens mediated transformation of non-ripening tomato mutant 399 Bartoszewski, G., O. Fedorowicz, S. Malepszy, A. Smigocki, and K. Niemirowicz-Szczytt 7. Applied Aspects On chloroplast involvement and ethylene/nitric oxide (NO·) stoichiometry in fruit maturation 401 Leshem, Y.Y., R.B.H. Wills and V.V. Ku Ethylene delays onset of woolly breakdown in cold-stored peaches 405 Sonego, L., A. Lers, A. Khalchitski, Y. Zutkhi, H. Zhou, S. Lurie and R. Ben-Arie Ethylene removal by peat-soil and bacteria: aspects for application

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