Inheritance of quantitative resistance to downy mildew (Plasmopara halstedii) in sunflower (Helianthus annuus L.)
Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3 years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of...
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| Published in | Euphytica Vol. 164; no. 2; pp. 561 - 570 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Dordrecht : Springer Netherlands
01.11.2008
Springer Netherlands Springer Springer Nature B.V |
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| Abstract | Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3 years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of parental inbred lines gave narrow sense heritabilities of 27-57%. Analysis of a polymorphic recombinant inbred line population without efficient major gene resistance indicated that two highly significant Quantitative Trait Loci (QTL) explained 42% of variation in field reaction to downy mildew. These QTL were mapped on linkage groups 8 and 10, and do not appear related to any of the known major resistance gene clusters. Possible bases of this type of resistance and its use in breeding are discussed. |
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| AbstractList | Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3 years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of parental inbred lines gave narrow sense heritabilities of 27–57%. Analysis of a polymorphic recombinant inbred line population without efficient major gene resistance indicated that two highly significant Quantitative Trait Loci (QTL) explained 42% of variation in field reaction to downy mildew. These QTL were mapped on linkage groups 8 and 10, and do not appear related to any of the known major resistance gene clusters. Possible bases of this type of resistance and its use in breeding are discussed. Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3 years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of parental inbred lines gave narrow sense heritabilities of 27-57%. Analysis of a polymorphic recombinant inbred line population without efficient major gene resistance indicated that two highly significant Quantitative Trait Loci (QTL) explained 42% of variation in field reaction to downy mildew. These QTL were mapped on linkage groups 8 and 10, and do not appear related to any of the known major resistance gene clusters. Possible bases of this type of resistance and its use in breeding are discussed. Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of parental inbred lines gave narrow sense heritabilities of 27-57%. Analysis of a polymorphic recombinant inbred line population without efficient major gene resistance indicated that two highly significant Quantitative Trait Loci (QTL) explained 42% of variation in field reaction to downy mildew. These QTL were mapped on linkage groups 8 and 10, and do not appear related to any of the known major resistance gene clusters. Possible bases of this type of resistance and its use in breeding are discussed. Quantitative resistance to sunflower downy mildew was studied on inbred lines and hybrids not carrying efficient major gene resistance, in field trials in one to four sites over 3 years. Hybrids from factorial crosses showed that inheritance is under additive control and comparison with reactions of parental inbred lines gave narrow sense heritabilities of 27-57%. Analysis of a polymorphic recombinant inbred line population without efficient major gene resistance indicated that two highly significant Quantitative Trait Loci (QTL) explained 42% of variation in field reaction to downy mildew. These QTL were mapped on linkage groups 8 and 10, and do not appear related to any of the known major resistance gene clusters. Possible bases of this type of resistance and its use in breeding are discussed. [PUBLICATION ABSTRACT] |
| Author | Tourvieille de Labrouhe, D Roche, S Jouan-Dufournel, I Bert, P. F Vincourt, P Serre, F Walser, P Vear, F |
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| Cites_doi | 10.1007/s00122-002-0943-z 10.1023/A:1008691123239 10.1007/s00122-002-0989-y 10.1007/s00122-001-0790-3 10.1007/s00122-002-1004-3 10.1023/A:1015601731446 10.1093/bioinformatics/bti222 10.1007/s001220100660 10.1007/s001220050769 10.1093/bioinformatics/bth481 10.1007/BF00222925 10.1007/s00122-004-1701-1 10.1093/bioinformatics/bth230 10.1007/s001220100742 10.1007/BF00021074 10.2298/HEL0746045V 10.2135/cropsci2002.1316 10.1007/s10681-008-9698-1 10.1051/ocl.2003.0066 10.1007/s00122-003-1237-9 10.1007/s00122-003-1196-1 10.2135/cropsci2000.403676x |
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| Keywords | QTL Hybrids Heritability Inbred lines Major genes Markers Stramenopila Plant pathogen Hybrid Marker Compositae Oomycota Genetic determinism Major gene Fungus resistance Quantitative trait loci Helianthus annuus Plasmopara halstedii Dicotyledones Angiospermae Genetic improvement Spermatophyta Nonspecific resistance Heritability, Inbred lines· Hybrids· Markers Sunflower Pure line Oil plant (vegetal) |
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| References | Albourie, Tourvieille, Tourvieille de Labrouhe (CR1) 1998; 104 Bert, Jouan, Tourvieille de Labrouhe, Serre, Nicolas, Vear (CR4) 2002; 105 Bouzidi, Badaoui, Cambon, Vear, Tourvieille de Labrouhe, Nicolas (CR7) 2001; 104 Brahm, Rocher, Friedt (CR8) 2000; 40 Roeckel-Drevet, Gagne, Mouzeyar, Gentzbittel, Phillipon, Nicolas, Tourvieille de Labrouhe, Vear (CR22) 1996; 91 Falconer (CR12) 1981 CR11 Jones, Breese, Lui, Singh, Shaw, Witcombe (CR17) 2002; 42 CR10 Bert, Deschamp-Guillaume, Serre, Jouan, Tourvieille de Labrouhe, Nicolas (CR6) 2004; 109 Bert, Jouan, Tourvieille de Labrouhe, Serre, Phillipon, Nicolas (CR5) 2002; 107 Vear, Bony, Joubert, Tourvieille De Labrouhe, Pauchet, Pinochet (CR26) 2003; 10 Parleviet (CR19) 2002; 124 Bert, Tourvieille de Labrouhe, Philippon, Mouzeyar, Jouan, Nicolas (CR3) 2001; 103 Gentzbittel, Mouzeyar, Badoui, Mestries, Vear, Tourvieille de Labrouhe (CR14) 1998; 96 Jeuken, Lindhout (CR16) 2002; 105 Jourjon, Jasson, Marcel, Ngom, Mangin (CR18) 2005; 21 CR29 CR9 Rachid Al-Chaarani, Roustaee, Gentzbittel, Mokrani, Barrault, Dechamp-Guillaume (CR20) 2002; 104 CR27 CR25 CR24 Radwan, Bouzidi, Vear, Phillipon, Tourvieille de Labrouhe, Nicolas (CR21) 2002; 106 Gentzbittel, Vear, Zhang, Berville, Nicolas (CR13) 1995; 90 de Givry, Bouchez, Chabrier, Milan, Schiex (CR15) 2005; 21 Tang, Yu, Slabaugh, Shgintani, Knapp (CR23) 2002; 105 Arcade, Labourdette, Falque, Mangin, Chardon, Charcosset (CR2) 2004; 20 Vear, Serre, Roche, Walser, Tourvieille de Labrouhe (CR28) 2007; 30 PF Bert (9759_CR4) 2002; 105 9759_CR11 L Brahm (9759_CR8) 2000; 40 9759_CR10 JM Albourie (9759_CR1) 1998; 104 MF Bouzidi (9759_CR7) 2001; 104 P Roeckel-Drevet (9759_CR22) 1996; 91 S Tang (9759_CR23) 2002; 105 ES Jones (9759_CR17) 2002; 42 DS Falconer (9759_CR12) 1981 O Radwan (9759_CR21) 2002; 106 L Gentzbittel (9759_CR13) 1995; 90 S de Givry (9759_CR15) 2005; 21 MF Jourjon (9759_CR18) 2005; 21 9759_CR24 9759_CR25 F Vear (9759_CR26) 2003; 10 L Gentzbittel (9759_CR14) 1998; 96 F Vear (9759_CR28) 2007; 30 JE Parleviet (9759_CR19) 2002; 124 9759_CR29 PF Bert (9759_CR3) 2001; 103 9759_CR9 9759_CR27 PF Bert (9759_CR5) 2002; 107 G Rachid Al-Chaarani (9759_CR20) 2002; 104 PF Bert (9759_CR6) 2004; 109 M Jeuken (9759_CR16) 2002; 105 A Arcade (9759_CR2) 2004; 20 |
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| SubjectTerms | Agronomy. Soil science and plant productions Airborne microorganisms Biological and medical sciences Biomedical and Life Sciences Biotechnology chromosome mapping disease resistance downy mildew Fundamental and applied biological sciences. Psychology Gene mapping Genetic markers Genetics and breeding of economic plants Helianthus Helianthus annuus heritability Hybridization Hybrids Inbreeding inheritance (genetics) Life Sciences linkage groups major genes Pest resistance Plant Genetics and Genomics Plant pathogens Plant Pathology Plant Physiology Plant reproduction Plant resistance Plant Sciences Plasmopara halstedii quantitative resistance quantitative trait loci quantitative traits Varietal selection. Specialized plant breeding, plant breeding aims |
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| Title | Inheritance of quantitative resistance to downy mildew (Plasmopara halstedii) in sunflower (Helianthus annuus L.) |
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