Association mapping of leaf rust response in durum wheat

Marco Maccaferri; Maria C. Sanguineti; Paola Mantovani; Andrea Demontis; Andrea Massi; Karim Ammar; James A. Kolmer; Jerzy H. Czembor; Smadar Ezrati; Roberto Tuberosa

doi:10.1007/s11032-009-9353-0

Association mapping of leaf rust response in durum wheat

Marco Maccaferri, Maria C. Sanguineti, Paola Mantovani, Andrea Demontis, Andrea Massi, Karim Ammar, James A. Kolmer, Jerzy H. Czembor, Smadar Ezrati, Roberto Tuberosa

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Abstract

Resistance to leaf rust (Puccinia triticina Eriks.) is a main objective for durum wheat (Triticum durum Desf.) breeding. Association mapping on germplasm collections is now being used as an additional approach for the discovery and validation of major genes/QTLs. In this study, a collection of 164 elite durum wheat accessions suitable for association mapping has been tested for leaf rust response at the seedling stage and under field conditions (adult plant stage). Seedling tests were carried out with 25 selected isolates from durum wheat, bread wheat and triticale, while field experiments were carried out in artificially inoculated plots in Italy and in Mexico. The collection has been profiled with 225 simple sequence repeat (SSR) loci of known map position and a PCR assay targeting Ppd-A1. Associations showing highly consistent experiment-wise significances across leaf rust isolates and field trials were mainly detected for the 7BL distal chromosome (chr.) region (harbouring Lr14 from cultivar Llareta INIA and QLr. ubo-7B. 2 from cultivar Creso) and for two chr. regions located in chrs. 2A and 2B. Additionally, isolate-specific associations and/or associations with smaller effects in the field trials were identified in most of the chromosomes. The chr. 7BL distal region was investigated in detail through haplotyping with 15 SSR markers, revealing that the Creso and Llareta INIA alleles are identical by descent at 6 adjacent SSR loci in the most distal 7BL region spanning 8 cM. Association mapping allowed us to further refine the map location of the Lr14/QLr. ubo-7B. 2 resistance gene to the most distal region of the linkage group, tagged by Xcfa2257. 2, Xgwm344. 2 and Xwmc10. The resistant haplotype is present in a number of accessions (ca. 15% of the accessions included in the collection) from the Italian, CIMMYT and ICARDA breeding programmes. Therefore, this chr. 7BL region can be considered as the most important source of resistance to leaf rust currently exploited by durum breeders in the Mediterranean areas. Furthermore, the field trials at the adult plant stage allowed us to identify marker associations (e. g. chrs. 2BL and 3BS, proximal regions; chr. 7BS, distal region) which suggest the presence of minor QTLs for slow-rusting resistance.

Original language	English (US)
Pages (from-to)	189-228
Number of pages	40
Journal	Molecular Breeding
Volume	26
Issue number	2
DOIs	https://doi.org/10.1007/s11032-009-9353-0
State	Published - 2010
Externally published	Yes

Bibliographical note

Funding Information:
Acknowledgments Research carried out with the financial contribution of the European Union (BIOEXPLOIT project) and of the Emilia-Romagna Region (CEREALAB-SITEIA project). The contribution of the EU-funded IDuWUE project and the IDuWUE Research Consortium in providing part of the tested materials and microsatellite markers is gratefully acknowledged. The technical assistance of Sandra Stefanelli is also gratefully acknowledged.

Keywords

Association mapping
Durum wheat
Linkage disequilibrium
Molecular marker
Puccinia triticina Eriks
Quantitative trait locus

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Association mapping of leaf rust response in durum wheat",

abstract = "Resistance to leaf rust (Puccinia triticina Eriks.) is a main objective for durum wheat (Triticum durum Desf.) breeding. Association mapping on germplasm collections is now being used as an additional approach for the discovery and validation of major genes/QTLs. In this study, a collection of 164 elite durum wheat accessions suitable for association mapping has been tested for leaf rust response at the seedling stage and under field conditions (adult plant stage). Seedling tests were carried out with 25 selected isolates from durum wheat, bread wheat and triticale, while field experiments were carried out in artificially inoculated plots in Italy and in Mexico. The collection has been profiled with 225 simple sequence repeat (SSR) loci of known map position and a PCR assay targeting Ppd-A1. Associations showing highly consistent experiment-wise significances across leaf rust isolates and field trials were mainly detected for the 7BL distal chromosome (chr.) region (harbouring Lr14 from cultivar Llareta INIA and QLr. ubo-7B. 2 from cultivar Creso) and for two chr. regions located in chrs. 2A and 2B. Additionally, isolate-specific associations and/or associations with smaller effects in the field trials were identified in most of the chromosomes. The chr. 7BL distal region was investigated in detail through haplotyping with 15 SSR markers, revealing that the Creso and Llareta INIA alleles are identical by descent at 6 adjacent SSR loci in the most distal 7BL region spanning 8 cM. Association mapping allowed us to further refine the map location of the Lr14/QLr. ubo-7B. 2 resistance gene to the most distal region of the linkage group, tagged by Xcfa2257. 2, Xgwm344. 2 and Xwmc10. The resistant haplotype is present in a number of accessions (ca. 15% of the accessions included in the collection) from the Italian, CIMMYT and ICARDA breeding programmes. Therefore, this chr. 7BL region can be considered as the most important source of resistance to leaf rust currently exploited by durum breeders in the Mediterranean areas. Furthermore, the field trials at the adult plant stage allowed us to identify marker associations (e. g. chrs. 2BL and 3BS, proximal regions; chr. 7BS, distal region) which suggest the presence of minor QTLs for slow-rusting resistance.",

keywords = "Association mapping, Durum wheat, Linkage disequilibrium, Molecular marker, Puccinia triticina Eriks, Quantitative trait locus",

author = "Marco Maccaferri and Sanguineti, {Maria C.} and Paola Mantovani and Andrea Demontis and Andrea Massi and Karim Ammar and Kolmer, {James A.} and Czembor, {Jerzy H.} and Smadar Ezrati and Roberto Tuberosa",

note = "Funding Information: Acknowledgments Research carried out with the financial contribution of the European Union (BIOEXPLOIT project) and of the Emilia-Romagna Region (CEREALAB-SITEIA project). The contribution of the EU-funded IDuWUE project and the IDuWUE Research Consortium in providing part of the tested materials and microsatellite markers is gratefully acknowledged. The technical assistance of Sandra Stefanelli is also gratefully acknowledged.",

year = "2010",

doi = "10.1007/s11032-009-9353-0",

language = "English (US)",

volume = "26",

pages = "189--228",

journal = "Molecular Breeding",

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T1 - Association mapping of leaf rust response in durum wheat

AU - Maccaferri, Marco

AU - Sanguineti, Maria C.

AU - Mantovani, Paola

AU - Demontis, Andrea

AU - Massi, Andrea

AU - Ammar, Karim

AU - Kolmer, James A.

AU - Czembor, Jerzy H.

AU - Ezrati, Smadar

AU - Tuberosa, Roberto

N1 - Funding Information: Acknowledgments Research carried out with the financial contribution of the European Union (BIOEXPLOIT project) and of the Emilia-Romagna Region (CEREALAB-SITEIA project). The contribution of the EU-funded IDuWUE project and the IDuWUE Research Consortium in providing part of the tested materials and microsatellite markers is gratefully acknowledged. The technical assistance of Sandra Stefanelli is also gratefully acknowledged.

PY - 2010

Y1 - 2010

N2 - Resistance to leaf rust (Puccinia triticina Eriks.) is a main objective for durum wheat (Triticum durum Desf.) breeding. Association mapping on germplasm collections is now being used as an additional approach for the discovery and validation of major genes/QTLs. In this study, a collection of 164 elite durum wheat accessions suitable for association mapping has been tested for leaf rust response at the seedling stage and under field conditions (adult plant stage). Seedling tests were carried out with 25 selected isolates from durum wheat, bread wheat and triticale, while field experiments were carried out in artificially inoculated plots in Italy and in Mexico. The collection has been profiled with 225 simple sequence repeat (SSR) loci of known map position and a PCR assay targeting Ppd-A1. Associations showing highly consistent experiment-wise significances across leaf rust isolates and field trials were mainly detected for the 7BL distal chromosome (chr.) region (harbouring Lr14 from cultivar Llareta INIA and QLr. ubo-7B. 2 from cultivar Creso) and for two chr. regions located in chrs. 2A and 2B. Additionally, isolate-specific associations and/or associations with smaller effects in the field trials were identified in most of the chromosomes. The chr. 7BL distal region was investigated in detail through haplotyping with 15 SSR markers, revealing that the Creso and Llareta INIA alleles are identical by descent at 6 adjacent SSR loci in the most distal 7BL region spanning 8 cM. Association mapping allowed us to further refine the map location of the Lr14/QLr. ubo-7B. 2 resistance gene to the most distal region of the linkage group, tagged by Xcfa2257. 2, Xgwm344. 2 and Xwmc10. The resistant haplotype is present in a number of accessions (ca. 15% of the accessions included in the collection) from the Italian, CIMMYT and ICARDA breeding programmes. Therefore, this chr. 7BL region can be considered as the most important source of resistance to leaf rust currently exploited by durum breeders in the Mediterranean areas. Furthermore, the field trials at the adult plant stage allowed us to identify marker associations (e. g. chrs. 2BL and 3BS, proximal regions; chr. 7BS, distal region) which suggest the presence of minor QTLs for slow-rusting resistance.

AB - Resistance to leaf rust (Puccinia triticina Eriks.) is a main objective for durum wheat (Triticum durum Desf.) breeding. Association mapping on germplasm collections is now being used as an additional approach for the discovery and validation of major genes/QTLs. In this study, a collection of 164 elite durum wheat accessions suitable for association mapping has been tested for leaf rust response at the seedling stage and under field conditions (adult plant stage). Seedling tests were carried out with 25 selected isolates from durum wheat, bread wheat and triticale, while field experiments were carried out in artificially inoculated plots in Italy and in Mexico. The collection has been profiled with 225 simple sequence repeat (SSR) loci of known map position and a PCR assay targeting Ppd-A1. Associations showing highly consistent experiment-wise significances across leaf rust isolates and field trials were mainly detected for the 7BL distal chromosome (chr.) region (harbouring Lr14 from cultivar Llareta INIA and QLr. ubo-7B. 2 from cultivar Creso) and for two chr. regions located in chrs. 2A and 2B. Additionally, isolate-specific associations and/or associations with smaller effects in the field trials were identified in most of the chromosomes. The chr. 7BL distal region was investigated in detail through haplotyping with 15 SSR markers, revealing that the Creso and Llareta INIA alleles are identical by descent at 6 adjacent SSR loci in the most distal 7BL region spanning 8 cM. Association mapping allowed us to further refine the map location of the Lr14/QLr. ubo-7B. 2 resistance gene to the most distal region of the linkage group, tagged by Xcfa2257. 2, Xgwm344. 2 and Xwmc10. The resistant haplotype is present in a number of accessions (ca. 15% of the accessions included in the collection) from the Italian, CIMMYT and ICARDA breeding programmes. Therefore, this chr. 7BL region can be considered as the most important source of resistance to leaf rust currently exploited by durum breeders in the Mediterranean areas. Furthermore, the field trials at the adult plant stage allowed us to identify marker associations (e. g. chrs. 2BL and 3BS, proximal regions; chr. 7BS, distal region) which suggest the presence of minor QTLs for slow-rusting resistance.

KW - Association mapping

KW - Durum wheat

KW - Linkage disequilibrium

KW - Molecular marker

KW - Puccinia triticina Eriks

KW - Quantitative trait locus

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Association mapping of leaf rust response in durum wheat

Abstract

Bibliographical note

Keywords

UN SDGs

Access

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