QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population

QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population

Stem rust caused by the fungus Puccinia graminis f.sp. tritici Eriks. & E. Henn. (Pgt) threatens the global production of both durum wheat (Triticum turgidum L. ssp. durum (Desf.) Husnot) and common wheat (Triticum aestivum L.). The objective of this study was to evaluate a durum wheat recombinant inbred line (RIL) population from a cross between a susceptible parent ‘DAKIYE’ and a resistant parent ‘Reichenbachii’ developed by the International Center for the Improvement of Maize and Wheat (CIMMYT) 1) for seedling response to races JRCQC and TTRTF and 2) for field response to a bulk of the current Pgt races prevalent in Ethiopia and Kenya and 3) to map loci associated with seedling and field resistances in this population. A total of 224 RILs along with their parents were evaluated at the seedling stage in the Ethiopian Institute for Agricultural Research greenhouse at Debre Zeit, Ethiopia and in the EIAR and KALRO fields in Ethiopia and Kenya, for two seasons from 2019 to 2020. The lines were genotyped using the genotyping-by-sequencing approach. A total of 843 single nucleotide polymorphism markers for 175 lines were used for quantitative trait locus (QTL) analyses. Composite interval mapping (CIM) identified three QTL on chromosomes 3B, 4B and 7B contributed by the resistant parent. The QTL on chromosome 3B was identified at all growth stages and it explained 11.8%, 6.5%, 6.4% and 15.3% of the phenotypic variation for responses to races JRCQC, TTRTF and in the field trials ETMS19 and KNMS19, respectively. The power to identify additional QTL in this population was limited by the number of high-quality markers, since several markers with segregation distortion were eliminated. A cytological study is needed to understand the presence of chromosomal rearrangements. Future evaluations of additional durum lines and RIL families identification of durable adult plant resistance sources is crucial for breeding stem rust resistance in durum wheat in the future.

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Main Authors: Megerssa, S.H., Ammar, K., Acevedo, M., Bergstrom, G.C., Dreisigacker, S., Randhawa, M.S., Brown-Guedira, G., Ward, B., Sorrells, M.E.
Format: Article biblioteca
Language:English
Published: Public Library of Science 2022
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Recombinant Inbred Lines, Genotyping by Sequencing, BREEDING, CHROMOSOMES, GENETIC MARKERS, GENOTYPING, GREENHOUSES, GROWTH, MAIZE, PHENOTYPIC VARIATION, PLANT RESPONSE, QUANTITATIVE ANALYSIS, QUANTITATIVE TRAIT LOCI MAPPING, SEEDLINGS, SINGLE NUCLEOTIDE POLYMORPHISM, STEM RUST, WHEAT, BASIDIOMYCOTA, DISEASE RESISTANCE, GENETICS, MICROBIOLOGY, PLANT BREEDING,
Online Access:https://hdl.handle.net/10883/22296
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spelling dig-cimmyt-10883-222962024-01-23T16:20:43Z QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population Megerssa, S.H. Ammar, K. Acevedo, M. Bergstrom, G.C. Dreisigacker, S. Randhawa, M.S. Brown-Guedira, G. Ward, B. Sorrells, M.E. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Recombinant Inbred Lines Genotyping by Sequencing BREEDING CHROMOSOMES GENETIC MARKERS GENOTYPING GREENHOUSES GROWTH MAIZE PHENOTYPIC VARIATION PLANT RESPONSE QUANTITATIVE ANALYSIS QUANTITATIVE TRAIT LOCI MAPPING SEEDLINGS SINGLE NUCLEOTIDE POLYMORPHISM STEM RUST WHEAT BASIDIOMYCOTA DISEASE RESISTANCE GENETICS MICROBIOLOGY PLANT BREEDING Stem rust caused by the fungus Puccinia graminis f.sp. tritici Eriks. & E. Henn. (Pgt) threatens the global production of both durum wheat (Triticum turgidum L. ssp. durum (Desf.) Husnot) and common wheat (Triticum aestivum L.). The objective of this study was to evaluate a durum wheat recombinant inbred line (RIL) population from a cross between a susceptible parent ‘DAKIYE’ and a resistant parent ‘Reichenbachii’ developed by the International Center for the Improvement of Maize and Wheat (CIMMYT) 1) for seedling response to races JRCQC and TTRTF and 2) for field response to a bulk of the current Pgt races prevalent in Ethiopia and Kenya and 3) to map loci associated with seedling and field resistances in this population. A total of 224 RILs along with their parents were evaluated at the seedling stage in the Ethiopian Institute for Agricultural Research greenhouse at Debre Zeit, Ethiopia and in the EIAR and KALRO fields in Ethiopia and Kenya, for two seasons from 2019 to 2020. The lines were genotyped using the genotyping-by-sequencing approach. A total of 843 single nucleotide polymorphism markers for 175 lines were used for quantitative trait locus (QTL) analyses. Composite interval mapping (CIM) identified three QTL on chromosomes 3B, 4B and 7B contributed by the resistant parent. The QTL on chromosome 3B was identified at all growth stages and it explained 11.8%, 6.5%, 6.4% and 15.3% of the phenotypic variation for responses to races JRCQC, TTRTF and in the field trials ETMS19 and KNMS19, respectively. The power to identify additional QTL in this population was limited by the number of high-quality markers, since several markers with segregation distortion were eliminated. A cytological study is needed to understand the presence of chromosomal rearrangements. Future evaluations of additional durum lines and RIL families identification of durable adult plant resistance sources is crucial for breeding stem rust resistance in durum wheat in the future. 2022-12-07T20:30:17Z 2022-12-07T20:30:17Z 2022 Article Published Version https://hdl.handle.net/10883/22296 10.1371/journal.pone.0273993 English https://figshare.com/articles/figure/Distribution_of_alleles_from_the_susceptible_parent_DAKIYE_coded_as_A_and_the_resistant_parent_Reichenbachii_coded_as_B_/21289106 Nutrition, health & food security Accelerated Breeding Genetic Innovation UK Aid from the British People Bill & Melinda Gates Foundation (BMGF) https://hdl.handle.net/10568/126707 CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose Open Access San Francisco, CA (USA) Public Library of Science 10 17 1932-6203 PLoS ONE e0273993
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Recombinant Inbred Lines
Genotyping by Sequencing
BREEDING
CHROMOSOMES
GENETIC MARKERS
GENOTYPING
GREENHOUSES
GROWTH
MAIZE
PHENOTYPIC VARIATION
PLANT RESPONSE
QUANTITATIVE ANALYSIS
QUANTITATIVE TRAIT LOCI MAPPING
SEEDLINGS
SINGLE NUCLEOTIDE POLYMORPHISM
STEM RUST
WHEAT
BASIDIOMYCOTA
DISEASE RESISTANCE
GENETICS
MICROBIOLOGY
PLANT BREEDING
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Recombinant Inbred Lines
Genotyping by Sequencing
BREEDING
CHROMOSOMES
GENETIC MARKERS
GENOTYPING
GREENHOUSES
GROWTH
MAIZE
PHENOTYPIC VARIATION
PLANT RESPONSE
QUANTITATIVE ANALYSIS
QUANTITATIVE TRAIT LOCI MAPPING
SEEDLINGS
SINGLE NUCLEOTIDE POLYMORPHISM
STEM RUST
WHEAT
BASIDIOMYCOTA
DISEASE RESISTANCE
GENETICS
MICROBIOLOGY
PLANT BREEDING
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Recombinant Inbred Lines
Genotyping by Sequencing
BREEDING
CHROMOSOMES
GENETIC MARKERS
GENOTYPING
GREENHOUSES
GROWTH
MAIZE
PHENOTYPIC VARIATION
PLANT RESPONSE
QUANTITATIVE ANALYSIS
QUANTITATIVE TRAIT LOCI MAPPING
SEEDLINGS
SINGLE NUCLEOTIDE POLYMORPHISM
STEM RUST
WHEAT
BASIDIOMYCOTA
DISEASE RESISTANCE
GENETICS
MICROBIOLOGY
PLANT BREEDING
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Recombinant Inbred Lines
Genotyping by Sequencing
BREEDING
CHROMOSOMES
GENETIC MARKERS
GENOTYPING
GREENHOUSES
GROWTH
MAIZE
PHENOTYPIC VARIATION
PLANT RESPONSE
QUANTITATIVE ANALYSIS
QUANTITATIVE TRAIT LOCI MAPPING
SEEDLINGS
SINGLE NUCLEOTIDE POLYMORPHISM
STEM RUST
WHEAT
BASIDIOMYCOTA
DISEASE RESISTANCE
GENETICS
MICROBIOLOGY
PLANT BREEDING
Megerssa, S.H.
Ammar, K.
Acevedo, M.
Bergstrom, G.C.
Dreisigacker, S.
Randhawa, M.S.
Brown-Guedira, G.
Ward, B.
Sorrells, M.E.
QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
description Stem rust caused by the fungus Puccinia graminis f.sp. tritici Eriks. & E. Henn. (Pgt) threatens the global production of both durum wheat (Triticum turgidum L. ssp. durum (Desf.) Husnot) and common wheat (Triticum aestivum L.). The objective of this study was to evaluate a durum wheat recombinant inbred line (RIL) population from a cross between a susceptible parent ‘DAKIYE’ and a resistant parent ‘Reichenbachii’ developed by the International Center for the Improvement of Maize and Wheat (CIMMYT) 1) for seedling response to races JRCQC and TTRTF and 2) for field response to a bulk of the current Pgt races prevalent in Ethiopia and Kenya and 3) to map loci associated with seedling and field resistances in this population. A total of 224 RILs along with their parents were evaluated at the seedling stage in the Ethiopian Institute for Agricultural Research greenhouse at Debre Zeit, Ethiopia and in the EIAR and KALRO fields in Ethiopia and Kenya, for two seasons from 2019 to 2020. The lines were genotyped using the genotyping-by-sequencing approach. A total of 843 single nucleotide polymorphism markers for 175 lines were used for quantitative trait locus (QTL) analyses. Composite interval mapping (CIM) identified three QTL on chromosomes 3B, 4B and 7B contributed by the resistant parent. The QTL on chromosome 3B was identified at all growth stages and it explained 11.8%, 6.5%, 6.4% and 15.3% of the phenotypic variation for responses to races JRCQC, TTRTF and in the field trials ETMS19 and KNMS19, respectively. The power to identify additional QTL in this population was limited by the number of high-quality markers, since several markers with segregation distortion were eliminated. A cytological study is needed to understand the presence of chromosomal rearrangements. Future evaluations of additional durum lines and RIL families identification of durable adult plant resistance sources is crucial for breeding stem rust resistance in durum wheat in the future.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Recombinant Inbred Lines
Genotyping by Sequencing
BREEDING
CHROMOSOMES
GENETIC MARKERS
GENOTYPING
GREENHOUSES
GROWTH
MAIZE
PHENOTYPIC VARIATION
PLANT RESPONSE
QUANTITATIVE ANALYSIS
QUANTITATIVE TRAIT LOCI MAPPING
SEEDLINGS
SINGLE NUCLEOTIDE POLYMORPHISM
STEM RUST
WHEAT
BASIDIOMYCOTA
DISEASE RESISTANCE
GENETICS
MICROBIOLOGY
PLANT BREEDING
author Megerssa, S.H.
Ammar, K.
Acevedo, M.
Bergstrom, G.C.
Dreisigacker, S.
Randhawa, M.S.
Brown-Guedira, G.
Ward, B.
Sorrells, M.E.
author_facet Megerssa, S.H.
Ammar, K.
Acevedo, M.
Bergstrom, G.C.
Dreisigacker, S.
Randhawa, M.S.
Brown-Guedira, G.
Ward, B.
Sorrells, M.E.
author_sort Megerssa, S.H.
title QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
title_short QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
title_full QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
title_fullStr QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
title_full_unstemmed QTL mapping of seedling and field resistance to stem rust in DAKIYE/Reichenbachii durum wheat population
title_sort qtl mapping of seedling and field resistance to stem rust in dakiye/reichenbachii durum wheat population
publisher Public Library of Science
publishDate 2022
url https://hdl.handle.net/10883/22296
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