Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes

Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes

Marker assisted backcrossing (MABC) was used to transfer the three stem rust (Puccinia graminis tritici)resistant genes Sr25, SrWeb and Sr50 into the popular Indian wheat cv. HUW234. The donor was theCIMMYT breeding line PMBWIR4, and each of the target genes was marked by a simple PCR assay. Athree step screening strategy was adopted: the first screen comprised foreground selection, the secondused markers lying close to the introgression borders to reduce the extent of linkage drag, and the last wasbackground selection based on 149 informative microsatellite assays. Based on the background selectionoutcomes, at the BC1F1generation the proportion of the genome fixed for cv. HUW234 alleles rangedfrom 55% to 67%. Three BC1F1individuals were crossed a second time with cv. HUW234, resulting inthe identification of six BC2F3families carrying all three target Sr genes; the proportion of their genomeinherited from cv. HUW234 ranged from 86% to 92%. BC2F4and BC2F5material was planted at threedifferent locations under both disease-free and artificially induced epiphytotic conditions. Compared torecurrent parent, the improved versions of cv. HUW234 displayed significantly superior resistance tostem rust, and their agronomic performance was as good as, or even marginally better than that of thesource cultivar.

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Main Authors: Punam S. Yadav, Vinod Kumar Mishra, Balasubramaniam, A., Chand, R., Vishwakarma, M.K., Vasistha, N.K., Mishra, A.N., Kalappanavar, I.K., Joshi, A.K.
Format: Article biblioteca
Language:English
Published: Elsevier 2015
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Molecular Breeding, Background Selection, Foreground Selection, Rust Resistance, MOLECULAR HYBRIDIZATION, ARTIFICIAL SELECTION, RUSTS, DISEASE RESISTANCE, WHEAT,
Online Access:http://hdl.handle.net/10883/16817
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spelling dig-cimmyt-10883-168172022-11-24T19:57:20Z Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes Punam S. Yadav Vinod Kumar Mishra Balasubramaniam, A. Chand, R. Vishwakarma, M.K. Vasistha, N.K. Mishra, A.N. Kalappanavar, I.K. Joshi, A.K. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Molecular Breeding Background Selection Foreground Selection Rust Resistance MOLECULAR HYBRIDIZATION ARTIFICIAL SELECTION RUSTS DISEASE RESISTANCE WHEAT Marker assisted backcrossing (MABC) was used to transfer the three stem rust (Puccinia graminis tritici)resistant genes Sr25, SrWeb and Sr50 into the popular Indian wheat cv. HUW234. The donor was theCIMMYT breeding line PMBWIR4, and each of the target genes was marked by a simple PCR assay. Athree step screening strategy was adopted: the first screen comprised foreground selection, the secondused markers lying close to the introgression borders to reduce the extent of linkage drag, and the last wasbackground selection based on 149 informative microsatellite assays. Based on the background selectionoutcomes, at the BC1F1generation the proportion of the genome fixed for cv. HUW234 alleles rangedfrom 55% to 67%. Three BC1F1individuals were crossed a second time with cv. HUW234, resulting inthe identification of six BC2F3families carrying all three target Sr genes; the proportion of their genomeinherited from cv. HUW234 ranged from 86% to 92%. BC2F4and BC2F5material was planted at threedifferent locations under both disease-free and artificially induced epiphytotic conditions. Compared torecurrent parent, the improved versions of cv. HUW234 displayed significantly superior resistance tostem rust, and their agronomic performance was as good as, or even marginally better than that of thesource cultivar. 25-33 2016-06-06T21:18:54Z 2016-06-06T21:18:54Z 2015 Article http://hdl.handle.net/10883/16817 10.1016/j.cpb.2015.05.001 English 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 PDF Amsterdam Elsevier 2 Current Plant Biology
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
Molecular Breeding
Background Selection
Foreground Selection
Rust Resistance
MOLECULAR HYBRIDIZATION
ARTIFICIAL SELECTION
RUSTS
DISEASE RESISTANCE
WHEAT
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Molecular Breeding
Background Selection
Foreground Selection
Rust Resistance
MOLECULAR HYBRIDIZATION
ARTIFICIAL SELECTION
RUSTS
DISEASE RESISTANCE
WHEAT
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Molecular Breeding
Background Selection
Foreground Selection
Rust Resistance
MOLECULAR HYBRIDIZATION
ARTIFICIAL SELECTION
RUSTS
DISEASE RESISTANCE
WHEAT
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Molecular Breeding
Background Selection
Foreground Selection
Rust Resistance
MOLECULAR HYBRIDIZATION
ARTIFICIAL SELECTION
RUSTS
DISEASE RESISTANCE
WHEAT
Punam S. Yadav
Vinod Kumar Mishra
Balasubramaniam, A.
Chand, R.
Vishwakarma, M.K.
Vasistha, N.K.
Mishra, A.N.
Kalappanavar, I.K.
Joshi, A.K.
Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
description Marker assisted backcrossing (MABC) was used to transfer the three stem rust (Puccinia graminis tritici)resistant genes Sr25, SrWeb and Sr50 into the popular Indian wheat cv. HUW234. The donor was theCIMMYT breeding line PMBWIR4, and each of the target genes was marked by a simple PCR assay. Athree step screening strategy was adopted: the first screen comprised foreground selection, the secondused markers lying close to the introgression borders to reduce the extent of linkage drag, and the last wasbackground selection based on 149 informative microsatellite assays. Based on the background selectionoutcomes, at the BC1F1generation the proportion of the genome fixed for cv. HUW234 alleles rangedfrom 55% to 67%. Three BC1F1individuals were crossed a second time with cv. HUW234, resulting inthe identification of six BC2F3families carrying all three target Sr genes; the proportion of their genomeinherited from cv. HUW234 ranged from 86% to 92%. BC2F4and BC2F5material was planted at threedifferent locations under both disease-free and artificially induced epiphytotic conditions. Compared torecurrent parent, the improved versions of cv. HUW234 displayed significantly superior resistance tostem rust, and their agronomic performance was as good as, or even marginally better than that of thesource cultivar.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Molecular Breeding
Background Selection
Foreground Selection
Rust Resistance
MOLECULAR HYBRIDIZATION
ARTIFICIAL SELECTION
RUSTS
DISEASE RESISTANCE
WHEAT
author Punam S. Yadav
Vinod Kumar Mishra
Balasubramaniam, A.
Chand, R.
Vishwakarma, M.K.
Vasistha, N.K.
Mishra, A.N.
Kalappanavar, I.K.
Joshi, A.K.
author_facet Punam S. Yadav
Vinod Kumar Mishra
Balasubramaniam, A.
Chand, R.
Vishwakarma, M.K.
Vasistha, N.K.
Mishra, A.N.
Kalappanavar, I.K.
Joshi, A.K.
author_sort Punam S. Yadav
title Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
title_short Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
title_full Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
title_fullStr Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
title_full_unstemmed Enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent Sr genes
title_sort enhanced resistance in wheat against stem rust achieved by marker assisted backcrossing involving three independent sr genes
publisher Elsevier
publishDate 2015
url http://hdl.handle.net/10883/16817
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AT balasubramaniama enhancedresistanceinwheatagainststemrustachievedbymarkerassistedbackcrossinginvolvingthreeindependentsrgenes
AT chandr enhancedresistanceinwheatagainststemrustachievedbymarkerassistedbackcrossinginvolvingthreeindependentsrgenes
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