Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars

Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars

A panel of 387 durum wheat genotypes including Mediterranean landraces and modern cultivars was characterized with 46,161 diversity arrays technology (DArTseq) markers. Analysis of population structure uncovered the existence of five subpopulations (SP) related to the pattern of migration of durum w...

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Main Authors: Jose Miguel Soriano, Carolina Sansaloni, Karim Ammar, Conxita Royo
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Biology
Subjects:
Mediterranean basin
genetic diversity
marker trait association
gene flow
eigenGWAS
Online Access:https://www.mdpi.com/2079-7737/10/4/258
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spelling doaj-e3fcd58844c8497e99d4b8d2ae0322bc2021-03-25T00:06:25ZengMDPI AGBiology2079-77372021-03-011025825810.3390/biology10040258Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and CultivarsJose Miguel Soriano0Carolina Sansaloni1Karim Ammar2Conxita Royo3Sustainable Field Crops Programme, Institute for Food and Agricultural Research and Technology (IRTA), 25198 Lleida, SpainCentro Internacional de Mejoramiento de Maíz y Trigo (CIMMYT), El Batán, Texcoco 56237, MexicoCentro Internacional de Mejoramiento de Maíz y Trigo (CIMMYT), El Batán, Texcoco 56237, MexicoSustainable Field Crops Programme, Institute for Food and Agricultural Research and Technology (IRTA), 25198 Lleida, SpainA panel of 387 durum wheat genotypes including Mediterranean landraces and modern cultivars was characterized with 46,161 diversity arrays technology (DArTseq) markers. Analysis of population structure uncovered the existence of five subpopulations (SP) related to the pattern of migration of durum wheat from the domestication area to the west of the Mediterranean basin (SPs 1, 2, and 3) and further improved germplasm (SPs 4 and 5). The total genetic diversity (<i>H<sub>T</sub></i>) was 0.40 with a genetic differentiation (<i>G<sub>ST</sub></i>) of 0.08 and a mean gene flow among SPs of 6.02. The lowest gene flow was detected between SP 1 (presumably the ancient genetic pool of the panel) and SPs 4 and 5. However, gene flow from SP 2 to modern cultivars was much higher. The highest gene flow was detected between SP 3 (western Mediterranean germplasm) and SP 5 (North American and European cultivars). A genome wide association study (GWAS) approach using the top ten eigenvectors as phenotypic data revealed the presence of 89 selective sweeps, represented as quantitative trait loci (QTL) hotspots, widely distributed across the durum wheat genome. A principal component analysis (PCoA) using 147 markers with −log<sub>10 </sub><i>p</i> >5 identified three regions located on chromosomes 2A, 2B and 3A as the main drivers for differentiation of Mediterranean landraces. Gene flow between SPs offers clues regarding the putative use of Mediterranean old durum germplasm by the breeding programs represented in the structure analysis. EigenGWAS identified selective sweeps among landraces and modern cultivars. The analysis of the corresponding genomic regions in the ‘Zavitan’, ‘Svevo’ and ‘Chinese Spring’ genomes discovered the presence of important functional genes including <i>Ppd</i>, <i>Vrn</i>, <i>Rht</i>, and gene models involved in important biological processes including LRR-RLK, MADS-box, NAC, and F-box.https://www.mdpi.com/2079-7737/10/4/258Mediterranean basingenetic diversitymarker trait associationgene floweigenGWAS
collection DOAJ
language English
format Article
sources DOAJ
author Jose Miguel Soriano
Carolina Sansaloni
Karim Ammar
Conxita Royo
spellingShingle Jose Miguel Soriano
Carolina Sansaloni
Karim Ammar
Conxita Royo
Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
Biology
Mediterranean basin
genetic diversity
marker trait association
gene flow
eigenGWAS
author_facet Jose Miguel Soriano
Carolina Sansaloni
Karim Ammar
Conxita Royo
author_sort Jose Miguel Soriano
title Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
title_short Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
title_full Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
title_fullStr Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
title_full_unstemmed Labelling Selective Sweeps Used in Durum Wheat Breeding from a Diverse and Structured Panel of Landraces and Cultivars
title_sort labelling selective sweeps used in durum wheat breeding from a diverse and structured panel of landraces and cultivars
publisher MDPI AG
series Biology
issn 2079-7737
publishDate 2021-03-01
description A panel of 387 durum wheat genotypes including Mediterranean landraces and modern cultivars was characterized with 46,161 diversity arrays technology (DArTseq) markers. Analysis of population structure uncovered the existence of five subpopulations (SP) related to the pattern of migration of durum wheat from the domestication area to the west of the Mediterranean basin (SPs 1, 2, and 3) and further improved germplasm (SPs 4 and 5). The total genetic diversity (<i>H<sub>T</sub></i>) was 0.40 with a genetic differentiation (<i>G<sub>ST</sub></i>) of 0.08 and a mean gene flow among SPs of 6.02. The lowest gene flow was detected between SP 1 (presumably the ancient genetic pool of the panel) and SPs 4 and 5. However, gene flow from SP 2 to modern cultivars was much higher. The highest gene flow was detected between SP 3 (western Mediterranean germplasm) and SP 5 (North American and European cultivars). A genome wide association study (GWAS) approach using the top ten eigenvectors as phenotypic data revealed the presence of 89 selective sweeps, represented as quantitative trait loci (QTL) hotspots, widely distributed across the durum wheat genome. A principal component analysis (PCoA) using 147 markers with −log<sub>10 </sub><i>p</i> >5 identified three regions located on chromosomes 2A, 2B and 3A as the main drivers for differentiation of Mediterranean landraces. Gene flow between SPs offers clues regarding the putative use of Mediterranean old durum germplasm by the breeding programs represented in the structure analysis. EigenGWAS identified selective sweeps among landraces and modern cultivars. The analysis of the corresponding genomic regions in the ‘Zavitan’, ‘Svevo’ and ‘Chinese Spring’ genomes discovered the presence of important functional genes including <i>Ppd</i>, <i>Vrn</i>, <i>Rht</i>, and gene models involved in important biological processes including LRR-RLK, MADS-box, NAC, and F-box.
topic Mediterranean basin
genetic diversity
marker trait association
gene flow
eigenGWAS
url https://www.mdpi.com/2079-7737/10/4/258
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