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ISHS Acta Horticulturae 793XI International Workshop on Fire Blight |
| List price | € 116 
This title is available in ActaHort CD-rom format only - not available in print format |
| Conveners | V.O. Stockwell, K.B. Johnson |
| Editors | K.B. Johnson, V.O. Stockwell |
Publication
date | 30 June 2008 |
| ISBN | 978-90-66055-11-7 |
| ISSN | 0567-7572 |
| Number of articles | 83 |
| Volumes | 1 |
| Place | Portland, OR, USA |
| Online articles: |
 | HOW COOL TEMPERATURES AFFECT ERWINIA AMYLOVORA POPULATIONS ON THE APPLE STIGMA SURFACE (M.M. Dewdney, R.C. Seem, H.S. Aldwinckle, A.M. Svircev, W.-S. Kim) |
| BLOSSOMS OF INFECTED PEAR TREES MAY BE SOURCES OF EARLY INOCULUM FOR FIRE BLIGHT (ERWINIA AMYLOVORA) (E. Moltmann, M. Viehrig) |
| SUSCEPTIBILITY OF APPLE HYPANTHIUM TO ERWINIA AMYLOVORA IN RELATION TO FLOWER AGE AND COUGARBLIGHT MODEL (P.L. Pusey, T.J. Smith) |
| EPIPHYTIC GROWTH OF A PATHOGENIC AND AN AVIRULENT STRAIN OF ERWINIA AMYLOVORA ON PEAR AND APPLE FLOWERS IN RELATION TO BIOLOGICAL CONTROL (K.B. Johnson, T.L. Sawyer, V.O. Stockwell, T.N. Temple) |
| METABOLIC ROLE OF LUXS, PUTATIVE AUTOINDUCER-2 SYNTHASE, IN ERWINIA AMYLOVORA (F. Rezzonico, B. Duffy) |
| BIOFILM FORMATION IN ERWINIA AMYLOVORA: IMPLICATIONS IN PATHOGENICITY (J. Koczan, M. McGrath, G.W. Sundin, Y. Zhao) |
| EVALUATION OF LIKELIHOOD OF CO-OCCURRENCE OF ERWINIA AMYLOVORA WITH MATURE FRUIT OF WINTER PEAR (T.N. Temple, V.O. Stockwell, K.B. Johnson, P.L. Pusey) |
| ERWINIA AMYLOVORA SURVIVES IN NATURAL WATER (E.G. Biosca, R.D. Santander, M. Ordax, E. Marco-Noales, M.M. López) |
| BACTERIAL ISOLATES INHABITING JAPANESE PEAR FLOWERS AND THEIR POTENTIAL PATHOGENICITY (A. Sasaki, T. Shimane, K. Azegami, T. Matsuura, Y. Inoue) |
| ANTHERS ACT AS "TINDER" AND "RESERVOIR" FOR ERWINIA AMYLOVORA TO INFECT PEAR BLOSSOMS – OBSERVATION OF ERWINIA AMYLOVORA TAGGED WITH BIOLUMINESCENCE GENES ON PEAR SURFACES (K. Azegami, T. Matsuura, Y. Inoue, A. Sasaki, T. Shimane) |
| THE EFFECT OF APPLE BLOSSOM AGE ON POPULATIONS OF ERWINIA AMYLOVORA ON THE STIGMA SURFACE (M.M. Dewdney, M.M. R.C.Seem, H.S. Aldwinckle) |
| TESTING THEORIES ON OVER-WINTERING TWIG BLIGHT, PRE-BLOOM DISEASE, SHOOT BLIGHT AND STEM INVASION (E. Billing) |
| SCREENING FOR ERWINIA BILLINGIAE AND E. TASMANIENSIS IN FIELD ISOLATES, DIFFERENTIATION BY SEQUENCE ANALYSIS AND EFFECTS AS ANTAGONISTS (K. Geider, S. Jock, M. Sulikowska) |
| MOLECULAR STUDY OF ERWINIA PYRIFOLIAE STRAINS BY PLASMID PROFILE, PHYLOGENETIC ANALYSIS AND PCR (R. Shrestha, S.H. Lee, S. Cho, C.K. Lim, J.M. Cho, J.H. Hur, S. Hong, W.-S. Kim) |
| THE NEW PLASMID pEI70 IS PRESENT IN ERWINIA AMYLOVORA EUROPEAN STRAINS (P. Llop, R. González, M.M. López, J. Puławska, A. Bultreys, T. Dreo, J. Cabrefiga) |
| DESCRIPTION OF ERWINIA PIRIFLORINIGRANS SP. NOV., CAUSAL AGENT OF PEAR BLOSSOM NECROSIS (M. Roselló, S. Ferrer, P. Llop, M.M. López, R. Christen, L. Gardan) |
| THE GENOMIC SEQUENCE OF THE FIRE BLIGHT ANTAGONIST ERWINIA TASMANIENSIS COMPARED WITH VIRULENCE REGIONS OF E. AMYLOVORA (M. Kube, R. Reinhardt, V. Jakovljevic, S. Jock, K. Geider) |
| STUDY OF THE VIRULENCE IN WILD-TYPE STRAINS OF ERWINIA AMYLOVORA DEVOID OF THE PLASMID pEA29 (P. Llop, M.M. López, J. Cabrefiga, L. Ruz, E. Montesinos) |
| PHYLOGENIC ANALYSES OF THE FIRE BLIGHT PATHOGEN AND CLOSELY RELATED BACTERIA AND DEVELOPMENT OF PRIMER SETS OF BASED ON PHYLOGENIC DIFFERENCE (T. Matsuura, K. Azegami, Y. Inoue, A. Sasaki, T. Shimane, A. Mizuno) |
| WHAT WILL A GENOME SEQUENCE DO FOR FIRE BLIGHT RESEARCH? PECTOBACTERIUM ATROSEPTICUM AND POTATO – A CASE STUDY (I.K. Toth, P.R.J. Birch, H. Liu, L. Pritchard, S. Humphris, M. Ravensdale, L. Moleleki, C. Robert, P. Hedley, E.M. Gilroy) |
| CONTRIBUTIONS OF THE GENOME SEQUENCE OF ERWINIA AMYLOVORA TO THE FIRE BLIGHT COMMUNITY (A.M. Bocsanczy, S.V. Beer, N.T. Perna, B. Biehl, J.D. Glasner, S.W. Cartinhour, D.J. Schneider, G.A. DeClerck, M. Sebaihia, J. Parkhill, S. Bentley) |
| A SIMPLE GENETIC TOOL FOR STUDYING GENE FUNCTION AND SIGNAL TRANSDUCTION IN ERWINIA AMYLOVORA (Y.F. Zhao, G.W. Sundin) |
| COMPARATIVE PROTEOME ANALYSIS FROM ERWINIA AMYLOVORA GROWN IN VITRO AND IN PLANTA (M. Thoelen, J.P. Noben, J. Robben, R. Valcke, T. Deckers) |
| COMPARATIVE PROTEOME ANALYSIS OF FOUR ERWINIA AMYLOVORA STRAINS WITH DIFFERENT PATHOGENICITY (M. Thoelen, J.P. Noben, J. Robben, R. Valcke, T. Deckers) |
| A MICROARRAY APPROACH TO ANALYSE TRANSCRIPTIONAL CHANGES IN APPLE AFTER INFECTION BY ERWINIA AMYLOVORA (I. Pontais, T. Dugé de Bernonville, J.-P. Paulin, M.-N. Brisset) |
| TRANSCRIPTIONAL RESPONSE OF MALUS TO ERWINIA AMYLOVORA INFECTION (J.L. Norelli, C.L. Bassett, D.A. Lalli, R.E. Farrell, Jr., A.M. Baldo, H.S. Aldwinckle) |
| IDENTIFICATION AND MAPPING OF GENES DIFFERENTIALLY EXPRESSED DURING INTERACTION OF RESISTANT AND SUSCEPTIBLE APPLE CULTIVARS (MALUS × DOMESTICA) WITH ERWINIA AMYLOVORA (M. Malnoy, E.E. Borejsza-Wysocka, H.S. Aldwinckle, A.M. Baldo, C.M. Carlisle, D. Bowatte, S.E. Gardiner, J.L. Norelli, C.L. Bassett, R.E. Farrell, Jr.) |
| THE WtsE VIRULENCE EFFECTOR FROM PANTOEA STEWARTII, A PLANT SIGNAL MIMIC? (D.L. Coplin, D.R. Majerczak, J.-H. Ham, D. Mackey) |
| eop1 DIFFERS IN STRAINS OF ERWINIA AMYLOVORA THAT DIFFER IN HOST SPECIFICITY (J.E. Asselin, K.N. Yip, S.V. Beer) |
| TYPE III EFFECTORS OF E. AMYLOVORA: SYNERGISTIC AND ANTAGONISTIC EFFECTS (M.A. Barny, T. Boureau, A. Degrave, M. Fagard, F. Bouteau, S. Gaubert, D. Reboutier, M.N. Brisset) |
| THE hrp GENES CLUSTER IN ERWINIA PYRIFOLIAE AND DETERMINATION OF HR ACTIVE DOMAIN IN HrpNEp PROTEIN (R. Shrestha, S.H. Lee, S. Cho, C.K. Lim, S. Hong, J.M. Cho, I. Hwang, J.H. Hur, W.-S. Kim) |
| TRANSLOCATION AND CHAPERONE INTERACTION OF THE ERWINIA AMYLOVORA SECRETED EFFECTOR DspE (L. Triplett, M. Melotto, S.Y. He, G. Sundin) |
| EXPRESSION OF THE TYPE III SECRETION CHAPERONE PROTEIN DSPF OF ERWINIA AMYLOVORA IN APPLE INCREASES RESISTANCE TO FIRE BLIGHT (M. Malnoy, E.E. Borejsza-Wysocka, H.S. Aldwinckle, M. Mellotto, S.Y. He) |
| TRANSGENIC EXPRESSION OF ERWINIA AMYLOVORA EFFECTORS eop1 AND hopCEa IN APPLE (D.A. Lalli, T.S. Artlip, M.E. Wisniewski, J.L. Norelli, R.E. Farrell, Jr.) |
| ARE PHENOLIC COMPOUNDS INVOLVED IN THE DIFFERENTIAL RESPONSES OF APPLE GENOTYPES TO ERWINIA AMYLOVORA? (I. Pontais, J.P. Paulin, M.N. Brisset, D. Treutter) |
| AUTOINDUCER IN ERWINIA AMYLOVORA (A. Wensing, N. Al-Karablieh, M. Ullrich, V. Jakovljevic, M. Mohammadi, K. Geider) |
| AcrAB-TolC DIRECTS EFFLUX-MEDIATED RESISTANCE TOWARDS PHYTOALEXINS IN THE PLANT PATHOGEN ERWINIA AMYLOVORA (N. Al-Karablieh, A. Burse, H. Weingart, M. Ullrich) |
| SILENCING OF HIPM, THE APPLE PROTEIN THAT INTERACTS WITH HrpN OF ERWINIA AMYLOVORA (M. Malnoy, E.E. Borejsza-Wysocka, L. Pascal-Omeñaca, H.S. Aldwinckle, C.-S. Oh, S.V. Beer) |
| THE C-TERMINAL HALF OF ERWINIA AMYLOVORA HrpN (HARPIN) PLAYS AN ESSENTIAL ROLE IN ITS SECRETION, VIRULENCE, AND HYPERSENSITIVE RESPONSE-ELICITING ACTIVITIES (J.P. Sinn, P.J. Jensen, T.W. McNellis, C.-S. Oh, S.C.D. Carpenter, S.V. Beer) |
| THIAMIN BIOSYNTHESIS AND ITS INFLUENCE ON EXOPOLYSACCHARIDE PRODUCTION: A NEW COMPONENT OF VIRULENCE IDENTIFIED ON ERWINIA AMYLOVORA PLASMID pEA29 (G.C. McGhee, G.W. Sundin) |
| SORBITOL HAS NO ROLE IN FIRE BLIGHT AS DEMONSTRATED USING TRANSGENIC APPLE WITH CONSTITUTIVELY ALTERED CONTENT (B. Duffy, A.M. Dandekar) |
| IMPROVED FIRE BLIGHT RESISTANCE IN TRANSGENIC APPLE LINES BY CONSTITUTIVE OVEREXPRESSION OF THE mbr4 GENE OF MALUS BACCATA (H. Flachowsky, A. Peil, J. Rollins, M.-V. Hanke, K. Richter, D.-H. Lee) |
| INCREASED RESISTANCE TO FIRE BLIGHT BY EXPRESSION OF THE Phi-Ea1h PHAGE DEPOLYMERASE GENE WITH CONSTITUTIVE AND INDUCIBLE PROMOTERS, TRANSLATION ENHANCER AND SIGNAL SEQUENCE IN TRANSGENIC APPLE (E.E. Borejsza-Wysockaa, M. Malnoy, H.S. Aldwinckle, W.-S. Kim, K. Geider, S.V. Beer) |
| CONFIRMATION OF THE FIRE BLIGHT QTL OF MALUS × ROBUSTA 5 ON LINKAGE GROUP 3 (A. Peil, M.-V. Hanke, H. Flachowsky, K. Richter, T. Garcia-Libreros, J.-M. Celton, S. Gardiner, M. Horner, V. Bus) |
| EFFECTS OF PEAR TREE PHYSIOLOGY ON FIRE BLIGHT PROGRESSION IN PERENNIAL BRANCHES AND ON EXPRESSION OF PATHOGENICITY GENES OF ERWINIA AMYLOVORA (E. Zamski, D. Blachinsky, D. Shtienberg, D. Weinthal, S. Manulis) |
| NATURAL EPIDEMIC OF FIRE BLIGHT IN A NEWLY PLANTED ORCHARD AND EFFECT OF PRUNING ON DISEASE DEVELOPMENT (V. Toussaint, V. Philion) |
| BUDAGOVSKY 9 ROOTSTOCK: UNCOVERING A NOVEL RESISTANCE TO FIRE BLIGHT (N.L. Russo, H.S. Aldwinckle, T.L. Robinson, G. Fazio) |
| INVESTIGATING MECHANISMS OF FIRE BLIGHT CONTROL BY PROHEXADIONE-CALCIUM (M.J. McGrath, G.W. Sundin, M.M. Kennelly) |
| INVESTIGATION ON THE INHERITANCE OF STRAIN SPECIFIC RESISTANCE TO ERWINIA AMYLOVORA IN AN APPLE ROOTSTOCK SEGREGATING POPULATION (G. Fazio, Y. Wan, N.L. Russo, H.S. Aldwinckle) |
| ESTIMATING COMBINING ABILITY FOR FIRE BLIGHT RESISTANCE IN APPLE PROGENIES (C.R. Hampson, P.L. Sholberg) |
| FIRE BLIGHT INCIDENCE ON MALUS SIEVERSII GROWN IN NEW YORK AND MINNESOTA (P.L. Forsline, J.J. Luby, H.S. Aldwinckle) |
| SORBUS SP. – NEW HOST OF ERWINIA AMYLOVORA IN SERBIA (V. Gavrilović, S. ¿ivković, A. Obradović, S. Milijasević, M. Arsenijević, M. Vojinović) |
| THE USDA QUINCE AND PEAR GENEBANK IN OREGON, A WORLD SOURCE OF FIRE BLIGHT RESISTANCE (J.D. Postman) |
| EFFECTS OF WATER STRESS/DROUGHT ON FIRE BLIGHT (P.L. Sholberg, J. Boulé) |
| EMERGENCE AND PROGRESSION OF STREPTOMYCIN RESISTANCE IN ERWINIA AMYLOVORA IN MICHIGAN (G.C. McGhee, L. Bellomo, S.E. Blumer, G.W. Sundin) |
| DETECTION OF ERWINIA AMYLOVORA STRAINS WITH REDUCED SENSITIVITY TO CURRENTLY REGISTERED ANTIBIOTICS AND MANAGEMENT OF FIRE BLIGHT OF POME FRUITS USING KASUGAMYCIN IN INTEGRATED STRATEGIES (J.E. Adaskaveg, G.F. Driever, H. Förster, W.D. Gubler, L.M. Wade, B. Holtz) |
| INTEGRATED CONTROL OF FIRE BLIGHT WITH ANTAGONISTS AND OXYTETRACYCLINE (V.O. Stockwell, T.N. Temple, K.B. Johnson, J.E. Loper) |
| PRESENCE OF GENES HOMOLOGOUS TO THOSE NECESSARY FOR SYNTHESIS OF MICROCIN MccEh252 IN STRAINS OF PANTOEA AGGLOMERANS (J.L. Vanneste, J. Yu, D.A. Cornish) |
| PHAGE-BASED BIOPESTICIDES: CHARACTERIZATION OF PHAGE RESISTANCE AND HOST RANGE FOR SUSTAINABILITY (D.R. Roach, A.J. Castle, A.M. Svircev, F.A. Tumini) |
| STUDIES ON ANTAGONISTIC YEAST SPECIES AGAINST ERWINIA AMYLOVORA IN CO-CULTURE AND ON APPLE BLOSSOMS (W. Jelkmann, A. Lindner) |
| BIOLOGICAL CONTROL OF FIRE BLIGHT ON APPLE BLOSSOMS AND SHOOTS WITH EPIPHYTIC AND SOIL BACTERIA (P. Sobiczewski, A. Mikiciński, S. Berczyński, J. Puławska) |
| ABSENCE OF STREPTOMYCIN RESISTANCE GENES IN ANTIBIOTIC FORMULATIONS (F. Rezzonico, B. Duffy, V.O. Stockwell) |
| SPREAD AND IDENTIFICATION OF STREPTOMYCIN RESISTANT ISOLATES IN NEW YORK (N.L. Russo, T.J. Burr, H.S. Aldwinckle, D. Breth) |
| EVALUATION OF ANTIBIOTICS AND PLANT EXTRACTS FOR CONTROL OF STREPTOMYCIN-RESISTANT ERWINIA AMYLOVORA (P.L. Sholberg, J. Boulé) |
| SURVIVAL OF ERWINIA AMYLOVORA ON APPLE FLOWERS TREATED WITH ANTIBACTERIAL IMINOPYRROLIDINE COMPOUNDS (J.L. Vanneste, R.J. Boyd, D.A. Cornish, J. Yu, R.E. Mitchell) |
| SURVEY RESULTS OF ERWINIA AMYLOVORA IN UTAH FOR RESISTANCE TO STREPTOMYCIN AND INVESTIGATIONS COMPARING KASUGAMYCIN (KASUMIN) TO STREPTOMYCIN AND OXYTETRACYCLINE FOR CONTROL OF FIRE BLIGHT (C.K. Evans) |
| EVALUATION OF KASUGAMYCIN AS A COMPONENT OF AN INTEGRATED BIOLOGICAL AND CHEMICAL STRATEGY FOR SUPPRESSION OF BLOSSOM BLIGHT (K.B. Johnson, V.O. Stockwell, T.N. Temple) |
| EFFICACY OF BACTERICIDES AND BIOLOGICAL ANTAGONISTS FOR THE CONTROL OF FIRE BLIGHT OF APPLE IN THE SAN JOAQUIN VALLEY OF CALIFORNIA (B.A. Holtz, T. Martin-Duvall, J.E. Adaskaveg, S.E. Lindow) |
| IMPROVED BIOLOGICAL CONTROL OF FIRE BLIGHT OF PEAR AND APPLE BY INTRODUCTION OF ANTAGONISTIC BACTERIA INTO UNOPENED FLOWERS (S.E. Lindow, B.A. Holtz, R.E. Elkins) |
| MECHANISMS OF PANTOEA AGGLOMERANS STRAIN E325 AS ANTAGONIST OF ERWINIA AMYLOVORA (P.L. Pusey, D.R. Rudell, V.O. Stockwell) |
| USE OF HONEYBEES (APIS MELLIFERA) AS VECTORS FOR FIRE BLIGHT ANTAGONISTS IN FIELD EXPERIMENTS (R. Moosbeckhofer, I. Loncaric, J. Oberlerchner, U. Persen, C. Ertl, C. Donat) |
| SIMULATIVE ANALYSES OF APPLE AND PEAR BLOOM RISKS IN BULGARIA WITH MARYBLYT 4.3 (S.G. Bobev, G. Lightner) |
| GUIDANCE ON THE USE OF BILLING'S INTEGRATED SYSTEM (BIS) FOR FIRE BLIGHT RISK ASSESSMENT (E. Billing) |
| AN ASSESSMENT OF THE CLIMATIC CONDITIONS FOR FIRE BLIGHT INFECTION RISKS IN VICTORIA, AUSTRALIA (S.C. Gouk) |
| DEVELOPMENT OF A RAPID DETECTION METHOD FOR ERWINIA AMYLOVORA BY LOOP-MEDIATED ISOTHERMAL AMPLIFICATION (LAMP) (T.N. Temple, V.O. Stockwell, K.B. Johnson) |
| EVALUATION OF PCR-BASED PROTOCOLS FOR THE DETECTION OF ERWINIA AMYLOVORA (R. Powney, K. Plummer, J. Luck, B. Rodoni, S.V. Beer) |
| SIMULTANEOUS DETECTION OF ERWINIA AMYLOVORA STRAINS WITH AND WITHOUT PLASMID pEA29 AND OF ANTAGONISTIC BACTERIA BY REAL-TIME PCR (K. Geider, W. Zeller, M. Mohammadi, E. Moltman) |
| DETECTION OF ERWINIA AMYLOVORA IN SYMPTOMLESS APPLE PLANTS BY BIO-PCR AND BIO-DUPLEX PCR (J.L. Vanneste, J. Yu, R.J. Boyd, D.A. Cornish) |
| DIRECT REAL-TIME PCR: TOWARDS RAPID AND COST EFFECTIVE APPLICATION IN FIRE BLIGHT DIAGNOSIS (W.-S. Kim, A.M. Svircev, V.O. Stockwell, A.J. Castle) |
| USING REAL-TIME PCR TO STUDY COMPETITION BETWEEN ERWINIA AMYLOVORA AND ERWINIA PYRIFOLIAE (S.M. Lehman, A.J. Castle, W.S. Kim, A.M. Svircev) |
| POTENTIAL OF SURFACE PLASMON RESONANCE (SPR) FOR THE RAPID IDENTIFICATION OF ERWINIA AMYLOVORA (J.L. Vanneste, J. Yuan, J. Yu, Y. Wu) |
| REAL-TIME PCR FOR TESTING OF SYMPTOMLESS FIRE BLIGHT SAMPLES (M. Pirc, T. Dreo, M. Ravnikar) |
| PINK ERWINIA AMYLOVORA: COLONY DISCOLORATION IN DIAGNOSTIC ISOLATIONS BY CO-CULTURED BACTERIA (V.O. Stockwell, K. Hockett, C. Marie, B. Duffy) |
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