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Molecular genetics of plant-microbe interactions: Proceedings of the Third International Symposium on the Molecular Genetics of Plant-Microbe Associations, Montreal, Quebec, Canada, July 27–31, 1986 PDF

361 Pages·1986·14.576 MB·English
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Preview Molecular genetics of plant-microbe interactions: Proceedings of the Third International Symposium on the Molecular Genetics of Plant-Microbe Associations, Montreal, Quebec, Canada, July 27–31, 1986

MOLECULAR GENETICS OF PLANT-MICROBE INTERACTIONS CURRENT PLANT SCIENCE AND BIOTECHNOLOGY IN AGRICULTURE Aims and Scope of the Bookseries The bookseries is intended for readers ranging from advanced students to senior research scientists and corporate directors interested in acquiring in-depth, state of-the-art knowledge about research findings and techniques related to plant science and biotechnology. While the subject matter will relate more particularly to agricultural applications, timely topics in basic plant science and biotechnology will be explored as well. Some volumes will report progress in rapidly advancing disciplines through proceedings of symposia and workshops while others will de tail fundamental information of an enduring nature that will be referenced re peatedly. Scientific Editor: F.A. Bliss, University of Wisconsin, Dept. of Horticulture, 1575 Linden Drive, Madison, WI 53706, USA Scientific Advisory Board: P.S. Baenziger, University of Nebraska-Lincoln, Lincoln, Nebr. K. Barton, Agracetus Corp., Middleton, Wisc. F. Cannon, Biotechnica Int., Cambridge, Mass. A. Galston, Yale University, New Haven, Conn. J. Lyman Snow, Rutgers University, New Brunswick, New Jersey c.P. Meredith, University of California, Davis, Calif. N.C. Nielsen, Purdue University, West Lafayette, Ind. J. Sprent, University of Dundee, Dundee, Scotland, UK D.P.S. Verma, McGill University, Montreal, Quebec Evans, H.J., Bottomley, P.J. and Newton, W.E. (eds): Nitrogen fixation research progress. 1985. ISBN 90-247-3255-7 Zimmerman, R.H., Griesbach, R.J., Hammerschlag, F.A. and Lawson, R.H. (eds): Tissue culture as a plant production system for horticultural crops. 1986. ISBN 90-247-3378-2 Verma, D.P .S. and Brisson, N. (eds): Molecular Genetics of Plant-Microbe Inter actions. 1987. ISBN 90-247-3426-6 Molecular genetics of plant-microbe interactions Proceedings oj the Third International Symposium on the Molecular Genetics oj Plant-Microbe Associations, Montreal, Quebec, Canada, July 27-31, 1986 edited by DESH PAL S. VERMA McGill University, Montreal Quebec, Canada NORMAND BRISSON Universite de Montreal, Montreal Quebec, Canada 1987 MARTIN US NUHOFF PUBLISHERS a member of the KLUWER ACADEMIC PUBLISHERS GROUP DORDRECHT / BOSTON / LANCASTER Distributors for the United States and Canada: Kluwer Academic Publishers, 101 Philip Drive, Assinippi Park, Norwell, MA 02061, USA for the UK and Ireland: Kluwer Academic Publishers, MTP Press Limited, Falcon House, Queen Square, Lancaster LAI lRN, UK for all other countries: Kluwer Academic Publishers Group, Distribution Center, P.O. Box 322, 3300 AH Dordrecht, The Netherlands Library of Congress Cataloging in Publication Data International Symposium on the Molecular Genetics of Plant-Microbe Associations (3rd : 1986 ': Montreal) Molecular genetics of plant-microbe interactions. (Current plant science and biotechnology in agriculture ; 3) Includes index. 1. Microbial genetics--Congresses. 2. Molecular genetics--Congresses. 3. Micro-organisms, Phyto pathogenic--Host plants--Congresses. 4. Plant molecular genetics--Co~gresses. 5. Symbiosis- Congresses. 1. Verma, D. P. S. (Desh Pal S.), 1944- II. Brisson, Normand, 1955- Ill. Title. IV. Series. QH434.158 1986 576'.139 86-23702 ISBN-13: 978-94-01 0-8496-3 e-ISBN-13: 978-94-009-4482-4 DOl: lO.loo7/978-94-009-4482-4 Copyright © 1987 by Martinus Nijhoff Publishers, Dordrecht. Softcover reprint of the hardcover 1s t edition 1987 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, mechanical, photocopying, recording, or otherwise, without the prior written permission of the publishers, Martinus Nijhoff Publishers, P.O. Box 163, 3300 AD Dordrecht, The Netherlands. VI This Symposium was made possib7e through the generous support of the following: Nationa7 Science Foundation (USA); The Rockefeller Foundation; Internationa7 Society for Plant M07ecu7ar Biology; Agricu7ture Canada; Natura7 Research Counci7 Canada; Natural Sciences and Engineering Research Council of Canada; United States Department of Agricu7ture; United States Department of Energy; McGill University Facu7ty of Graduate Studies and Research; Agracetus; Agrigenetics Corporation; Allelix Inc.; Amersham Corporation; Bio-Agra7; BioTechnica Internationa7, Inc.; Boehringer Mannheim Canada; CI BA -GEIGY Corporation; Convi ron Products Company; E. I . DuPont de Nemours Company; ICN Biomedica7s; Lilly Research Laboratories; New Eng7and Nuclear Canada; Northrup King Co.; Pharmacia (Canada) Inc. VII PREFACE Increased interest in the basic biology of plants and microorganisms stems from the fact that crop productivity is directly affected by plant-microbe interactions. In spite of the fact that plants exist in the environment amongst diverse species of microorganisms, only a few ever establish a direct relationship. Emerging awareness concerning the indirect effect of microbial association on plant growth and the possibility of using one microbe against another for controlling pathogenic interactions is at the genesis of new fields of studies. The primary reason for a microbe to associate with· photoautotrophic organisms (plants) is to tap its nutritional requirements, fixed carbon, as a source of energy. By hook or by crook, a microbe must survive. Some have evolved mechanisms to exploit plants to develop a niche for their biotropic demands. When in contact with a living plant, microorganisms may live in a passive association using exudates from the plant, invade it pathogenically or coexist with it in symbiosis. The plant responds to the interloper, either reacting in a hypersensitive manner to contain the invasion of pathogens, or by inducing a set of genes that leads toward symbiosis, or by simply succumbing to the invader. Thus, prior to contact wi th the plant, mic roorganism is able to sense the presence of the host and activate accordingly a set of genes required for the forthcoming interaction, whether symbiotic or pathogenic. Understanding the "language" of communication between the host plant and the microorganism may lead to eventual manipulation of these associations for the benefit of mankind. This Symposium marked the beginning of an era towards deciphering the "alphabets" of this language. It is apparent that it is a two-way communication. The microbe has developed means of avoiding the defense responses of the plant and has exploited plant products as environmental cues for controlling genes which are only required during this interaction. Wi th the development of genetic tools in fungi, the doors have been opened for understanding and manipulating devastating diseases of crop plants. Over 400 scientists from 27 countries took part in this Third International Symposium on the Molecular Genetics of Plant-Microbe Interactions. Eight sessions with 66 oral presentations and 3 poster sessions attracted the interest of participating scientists from univers i ties, research ins ti tutes, and pr iva te sectors concentrating on basic research and its potential application. The Montreal Symposium would not have been possible without the generous support by the various foundations, research organizations and private corporations as well as the assistance from the host institution, McGill University. We are indebted to the number of people who aided in making this Symposium a successful event. DESH PAL S. VERMA VIII TABLE OF CONTENTS Page CONTRIBUTORS • • • • • • • • • • • • • • • • • • • • • • • • • • • • Section I: MOLECULAR GENETICS OF AGROBACTERIUM AND PLANT TRANSFORMATION "Ecology of Agrobacterium: plasmids and biovars" Kathy Ophel and Allen Kerr. • 3 "The Agrobacterium rhizogenes root-inducing system" F. Richaud, C. Aubry, A. Beyou, F. Boulanger, C. Estramareix, A.-M. Fleury-Guerout, C. Mignotte, and O. Reyes. • • •• ••••••••••••• 6 "Effect of the presence of the plasmid pSA and of auxin on the attachment of Agrobacterium tumefaciens to plant host cells" Ann G. Matthysse 11 "Dual regulation of virulence genes of Agrobacterium plasmid pTiCS8" P. Rogowsky, T.J. Close, and C.l. Kado ••••••• 14 "Overdrive, a T-DNA transmission enhancer on the A. tumefaciens tumor-inducing plasmid" Ernest G. Peralta, Renate Hellmiss, Joon M. Ji, Wendy H. Berger, and Walt Ream 20 "Physical structure and genetics of the T-DNA in plants transformed by Agrobacterium tumefaciens" Albert Spielmann and Robert B. Simpson. 27 "Mammalian metallothionein functions in plants" D.D. Lefebvre and J.-F. Laliberte •• 32 "Tumorigenesis and root nodulation by Agrobacterium tumefaciens carrying Rhizobium symplasmids" Pauline A. Donaldson and V.N. Iyer. • ••••• 35 Supplementary articles (see Section VI) Section II: MOLECULAR GENETICS OF PHYTOPATHOGENIC BACTERIA AND FUNGI "Cutinase and pectinase in host-pathogen and plant bacterial interaction" P.E. Kolattukudy, Joseph Sebastian, William F. Ettinger, and Mark S. Crawford. • • • • • • • IX Page "Siderophore biosynthesis, uptake and effect on potato growth of rhizosphere strains" Peter Weisbeek, Joey Marugg, Gerard van der Hofstad, Peter Bakker and Bob Schippers. 51 0 • "A gene cluster in Xanthomonas campestris PV Campestris required for pathogenicity controls the excretion of enzymes" J. M. Dow and Go Scofield. • • • • • 54 "Direct analysis of the invasiveness of Xanthomonas campestris mutants generated by Tn4431, a transposon containing a promoterless luciferase cassette for monitoring gene expression" Joe J. Shaw and Clarence I. Kado. 57 0 • "Analysis of the spontaneous mutation to avirulence by Pseudomonas solanacearum" Mark A. Schell, Daniel P. Roberts, and Timothy P. Denny 61 "Characterization of pathogenicity genes of Erwinia carotovora" A.K. Handa, R.A. Bressan, L. Lee, DoJ. Charles, R.K. Jayaswal, J. Chiu and J.L. Bennetzen •••••• 67 "Characterization of a novel esterase produced by plant pathogenic Streptomyces" D.A.R. Mcqueen and J.L. Schottel •• 73 Supplementary articles (see Section VI) Section III: MOLECULAR GENETICS OF THE HOST = (SYMBIOSIS/PATHOGENICITY) "Induced symbiosis mutants of Pisum sativum" B.E. Kneen, Do Vam Vikites and T.A. Larue •• 79 "Plant host genetics of nodulation initiation in soybean" Peter M. Gresshoff, Jane E. Olsson, David A. Day, Kathryn A. Schuller, Anne Mathews, Angela C. Delves, Arno Krotzky, G. Dean Price and Bernard J., Carroll. 85 "A mutant of pea (Pisum sativum) possibly disturbed in the production of a compound required for the induction of nitrogenase activity in bacteroids" Jenne G. Postma, Evert Jacobsen, Ton Bisseling and Hillem J. Feenstra. • • • • • • • • • • • • • • • • 91 "Non-nodulation mutants of soybean" Anne Mathews, Bernard J. Carroll, and Peter M. Gresshoff. 94 "Early nodulins in root nodule development" Jan-Peter Nap, Marja Moerman, Albert van Kammen, Francine Govers, Ton Gloudemans, Henk Franssen and Ton Bisseling 96 0 • • • • • • • • • • • • 0 • • • • • x Page "Peribacteroid membrane nodulins of soybean" Marc G. Fortin and Desh Pal S. Verma. • • • • • • • • • 102 "Isolation of nodule specific c-DNA clones from Medicago sativa" Gyorgy B. Kiss, Eva Vincze and Zoltan Vegh •••••••• 108 "Analysis of nodule-specific gene expression in ineffective alfalfa root nodules and callus cultures derived from ineffective root nodules" Joanna F. Hanks, Lisa A. Macol, Jonathan Goldthwaite, and Ann M. Hirsch • • • • • • • • • • • • • • • • • • • • 112 "Nodule specific genes in Phaseolus vulgaris" F. Campos, M. Vazquez, J. Padilla, C. Enriquez, and F. Sanchez • • • • • • • • • • • • • • • • • • 115 "Investigation of plant genes expressed during symbiotic ni trogen fixation" S.G. Gottlob-McHugh and D.A. Johnson. • 118 "Rhizobium induced plant proteins in target root epidermal cells of Vigna unguiculata" Arvind Bhagwat and Joseph Thomas. 120 0 • • • • • • • • "Four soybean nodulin genes evolved from a common ancestor" F. Jacobs, M. Zhang, M. Fortin, and Desh Pal S. Verma •• 123 "Coordinated expression of nodule-specific and root genes in yellow lupin" M. Sikorski, U. Szybiak-Strozycka, P. Strozycki, B. Golinska, C.J. Madrzak, R. Kamp, B. Wittmann-Liebold, and A.B. Legocki •••••••• 127 0 ••• 0 •• 0 • • • "Plant gene expression during effect and ineffective nodule development of the tropical stem-nodulated legume Sesbania rostrata" P. de Laj udie and T. Hugue to. • • • • • • • • 130 "Expression of two enzymes involved in ureide formation in soybean regulated by oxygen" Knud Larsen and Bjarne Jochimsen. • • 133 "Probing cell wall structure in the soybean root nodule" So-SoT. Hua, K.L. Miller, V.J. Vreeland, and W.M. Laetsch •••••••••••••• • • • 138 "Monoclonal antibodies to components of Rhizobium induced pea nodules" Desmond J. Bradley, Elizabeth A. Wood, Geoffrey W. Butcher, Giovanni Galfre, and Nicholas J. Brewin ••••• 141 XI Page "Localization of the glutamine synthetase polypeptides in Phaseolus root nodules" M. Lara, J. 1. Ortega and B. Valderrama. • • • • • • • 142 "Changes in protein and mRNA accumulation in potato tubers treated wi th an elici tor" H. Giroux, C. Marineau, and N. Brisson. • • • 145 0 Section IV: MOLECULAR GENETICS OF RHIZOBIUM "Organization of the Rhizobium phaseoli genome" Rafael Palacios, Margarita Flores, Susana Brom, Esperanza Martinez, Victor Gonzalez, Silvia Frenk, Carmen Quinto, Miguel Angel Cevallos, Lorenzo Segovia, David Romero, Alejandro Garciarrubio, Daniel Pinero, and Guillermo Davila ••• 151 0 • • • •• "Rifampin resistance and nodulating competitiveness in Rhizobium meliloti" D. Mark Lewis, Eden S.P. Bromfield, Leslie R. Barran ••• 157 "A method for isolating competition defective mutants in Rhizobium" Thomas J. McLoughlin, Ann Owens Merlo, and Eric Johansen • 159 0 • • • 0 • "Genetic determinants of nodulation in pRle IOOla: nodD" A. Squartini, P.J.J. Hooykaas, and M.P. Nuti. • •• • 162 "Symbiotic mutants of Rhizobium meliloti which produce non-succinylated exopolysaccharide" John A. Leigh 165 0 • • • • • • • • • • • • • • • • 0 0 • • • "Rhizobium mutants defective in lipopolysaccharide and infection" KoD. Noel, P. Pachori, B. Kulpaca, K.A. Vandenbosch, B.A. Brink, and J .R. Cava. • • • •• ••••• • • 167 "Analysis of three Rhizobium phaseoli genes, psi, psr and pss, which affect exopolysaccharide synthesis and symbiotic nitrogen fixation and/or nodulation" D. Borthakur, JoW. Lamb, and A.W.B. Johnston ••• 169 o "Involvement of pSym nodulation genes in production of surface and extracellular components of Rhizobium trifolii which interact with white clover root hairs" Frank B. Dazzo, Rawle 10 Hollingsworth, Saleela Philip, Kathryn B. Smith, Margaret Ao Welsch, Janet Salzwedel, Pamela Morris, and Lorna McLaughlin ••• 171 0 •••••••

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