Mapping of fire blight resistance in Malus ×robusta 5 flowers following artificial inoculation
Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies...
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| Published in | BMC plant biology Vol. 19; no. 1; p. 532 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
BioMed Central
02.12.2019
BMC |
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| Abstract | Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance.
We report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant Malus ×robusta 5 (Mr5) with susceptible 'Idared' and 'Royal Gala' in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the 'Idared' × Mr5 population with Erwinia amylovora over several years, and of the 'Royal Gala' × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the 'Idared' × Mr5 and an 'M9' × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment.
This study demonstrates for the first time that resistance to fire blight caused by Erwinia amylovora is independent of the mode of inoculation at least in Malus ×robusta 5. |
|---|---|
| AbstractList | Abstract
Background
Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance.
Results
We report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant
Malus
×
robusta
5 (Mr5) with susceptible ‘Idared’ and ‘Royal Gala’ in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the ‘Idared’ × Mr5 population with
Erwinia amylovora
over several years, and of the ‘Royal Gala’ × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the ‘Idared’ × Mr5 and an ‘M9’ × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment.
Conclusions
This study demonstrates for the first time that resistance to fire blight caused by
Erwinia amylovora
is independent of the mode of inoculation at least in
Malus
×
robusta
5. Background Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance. Results We report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant Malus ×robusta 5 (Mr5) with susceptible ‘Idared’ and ‘Royal Gala’ in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the ‘Idared’ × Mr5 population with Erwinia amylovora over several years, and of the ‘Royal Gala’ × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the ‘Idared’ × Mr5 and an ‘M9’ × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment. Conclusions This study demonstrates for the first time that resistance to fire blight caused by Erwinia amylovora is independent of the mode of inoculation at least in Malus ×robusta 5. Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance. We report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant Malus ×robusta 5 (Mr5) with susceptible 'Idared' and 'Royal Gala' in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the 'Idared' × Mr5 population with Erwinia amylovora over several years, and of the 'Royal Gala' × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the 'Idared' × Mr5 and an 'M9' × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment. This study demonstrates for the first time that resistance to fire blight caused by Erwinia amylovora is independent of the mode of inoculation at least in Malus ×robusta 5. Abstract Background Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance. Results We report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant Malus ×robusta 5 (Mr5) with susceptible ‘Idared’ and ‘Royal Gala’ in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the ‘Idared’ × Mr5 population with Erwinia amylovora over several years, and of the ‘Royal Gala’ × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the ‘Idared’ × Mr5 and an ‘M9’ × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment. Conclusions This study demonstrates for the first time that resistance to fire blight caused by Erwinia amylovora is independent of the mode of inoculation at least in Malus ×robusta 5. BACKGROUNDAlthough the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for fire blight resistance to date have exclusively been mapped following shoot inoculation. It is not known whether the same mechanism underlies flower and shoot resistance. RESULTSWe report the detection of a fire blight resistance QTL following independent artificial inoculation of flowers and shoots on two F1 segregating populations derived from crossing resistant Malus ×robusta 5 (Mr5) with susceptible 'Idared' and 'Royal Gala' in experimental orchards in Germany and New Zealand, respectively. QTL mapping of phenotypic datasets from artificial flower inoculation of the 'Idared' × Mr5 population with Erwinia amylovora over several years, and of the 'Royal Gala' × Mr5 population in a single year, revealed a single major QTL controlling floral fire blight resistance on linkage group 3 (LG3) of Mr5. This QTL corresponds to the QTL on LG3 reported previously for the 'Idared' × Mr5 and an 'M9' × Mr5 population following shoot inoculation in the glasshouse. Interval mapping of phenotypic data from shoot inoculations of subsets from both flower resistance populations re-confirmed that the resistance QTL is in the same position on LG3 of Mr5 as that for flower inoculation. These results provide strong evidence that fire blight resistance in Mr5 is controlled by a major QTL on LG3, independently of the mode of infection, rootstock and environment. CONCLUSIONSThis study demonstrates for the first time that resistance to fire blight caused by Erwinia amylovora is independent of the mode of inoculation at least in Malus ×robusta 5. |
| ArticleNumber | 532 |
| Author | Wöhner, Thomas Hanke, Magda-Viola Troggio, Michela Gardiner, Susan E Hübert, Christine Saeed, Munazza Stefani, Erika Chagné, David Bus, Vincent G M Peil, Andreas Horner, Mary Flachowsky, Henryk Wensing, Annette Emeriewen, Ofere Francis Richter, Klaus Orellana-Torrejon, Carolina |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31791233$$D View this record in MEDLINE/PubMed |
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| Keywords | Erwinia amylovora Fire blight resistance Orchard inoculation Malus ×robusta 5 QTL mapping |
| Language | English |
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| References | M-V Hanke (2154_CR1) 2017 JW Van Ooijen (2154_CR59) 2004 P Pusey (2154_CR44) 1999; 89 A Maroofi (2154_CR36) 1996; 411 M Jänsch (2154_CR58) 2015; 35 HP Maas Geesteranus (2154_CR33) 1981; 117 EO King (2154_CR54) 1954; 44 D O’Rourke (2154_CR9) 2003; 43 SV Thomson (2154_CR30) 2000 SE Gardiner (2154_CR45) 2012; 13 NL Russo (2154_CR4) 2008; 92 F Walsh (2154_CR6) 2014; 4 OF Emeriewen (2154_CR18) 2014; 34 J Fahrentrapp (2154_CR19) 2013; 9 HK Ngugi (2154_CR8) 2011; 101 P Pusey (2154_CR39) 2004; 94 JL Norelli (2154_CR22) 1984; 74 F Spinelli (2154_CR42) 2005; 113 L Gianessi (2154_CR7) 2002 OF Emeriewen (2154_CR24) 2019; 10 2154_CR35 M Le Lezec (2154_CR37) 1987; 217 OF Emeriewen (2154_CR17) 2017; 1011 A Peil (2154_CR26) 2011; 896 N LoGiudice (2154_CR51) 2004; 704 M Horner (2154_CR52) 2014; 67 JL Norelli (2154_CR49) 2003; 87 JL Norelli (2154_CR25) 1986; 70 SE Gardiner (2154_CR57) 2017; 1174 Y Lespinasse (2154_CR32) 1990; 273 F Spinelli (2154_CR43) 2007; 56 O Schabenberger (2154_CR60) 2005 I Vogt (2154_CR27) 2013; 197 A Farkas (2154_CR38) 2012; 26 A Peil (2154_CR14) 2007; 126 G Fazio (2154_CR23) 2006; 704 P Pusey (2154_CR40) 2008; 92 T Van der Zwet (2154_CR48) 2012 A Wensing (2154_CR55) 2012; 112 A Peil (2154_CR3) 2009; 3 D Chagne (2154_CR56) 2012; 7 CE Durel (2154_CR16) 2009; 52 H Kleinhempel (2154_CR34) 1984; 151 M Khan (2154_CR13) 2006; 17 OF Emeriewen (2154_CR21) 2018; 38 T Van der Zwet (2154_CR5) 2012 TW Wöhner (2154_CR28) 2014; 34 T van der Zwet (2154_CR11) 1979 JM Harshman (2154_CR47) 2017; 101 CE Winslow (2154_CR2) 1920; 5 T Wöhner (2154_CR29) 2018; 67 HS Aldwinckle (2154_CR10) 1999; 489 A Peil (2154_CR15) 2008; 793 A Cellini (2154_CR31) 2019; 13 F Calenge (2154_CR12) 2005; 111 GA Broggini (2154_CR20) 2014; 12 M Khan (2154_CR46) 2012; 30 D Chagné (2154_CR53) 2019; 6 H Aldwinckle (2154_CR50) 2003; 663 S Thomson (2154_CR41) 2003; 87 |
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| Snippet | Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci (QTLs) for... Abstract Background Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative... Background Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci... BACKGROUNDAlthough the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative trait loci... Abstract Background Although the most common path of infection for fire blight, a severe bacterial disease on apple, is via host plant flowers, quantitative... |
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| SubjectTerms | Bacterial diseases Blight Cultivars Disease resistance Disease Resistance - genetics Erwinia amylovora Erwinia amylovora - physiology Fire blight resistance Flow resistance Flowers Flowers - microbiology Flowers - physiology Fruits Gene mapping Genes, Plant Genetic Linkage Genotype & phenotype Greenhouses Host plants Infections Inoculation Malus - genetics Malus - microbiology Malus robusta Malus ×robusta 5 Mapping Orchard inoculation Orchards Plant Diseases - genetics Plant Diseases - microbiology Population Populations QTL mapping Quantitative Trait Loci Shoots VOCs Volatile organic compounds |
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| Title | Mapping of fire blight resistance in Malus ×robusta 5 flowers following artificial inoculation |
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