Genotyping-by-Sequencing (GBS) Revealed Molecular Genetic Diversity of Iranian Wheat Landraces and Cultivars

Alipour, Hadi; Bihamta, Mohammad Reza; Mohammadi, Valiollah; Peyghambari, S A; Bai, Guihua; Zhang, Guorong

doi:10.3389/fpls.2017.01293

Cited by 126 publications

(136 citation statements)

References 78 publications

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“…We found all markers moderately or low informative as PIC value for all markers was less than 0.5 (35). Other researchers also found similar results in ax (36), winter wheat (37,38), rice (39) and maize (40). Bi-allelic nature of SNP marker and probably low mutation rate (41) restrict the PIC value within 0.5.…”

Section: Discussionsupporting

confidence: 59%

Genetic diversity analysis of a Flax (Linum usitatissimum L.) global collection

Hoque

Fiedler

Rahman

2020

Preprint

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Abstract Background A sustainable breeding program requires a minimum level of germplasm diversity to provide varied options for the selection of new breeding lines. To maximize genetic gain of the North Dakota State University (NDSU) flax breeding program, we aimed to increase the genetic diversity of its parental stocks by incorporating diverse genotypes. For this purpose, we analyzed the genetic diversity, linkage disequilibrium, and population sub-structure of 350 globally-distributed flax genotypes with 6,200 SNP markers Results All the genotypes tested clustered into seven sub-populations (P1 to P7) based on the admixture model and the output of neighbor-joining (NJ) tree analysis and principal coordinate analysis were in line with that of structure analysis. The largest sub-population separation arose from a cluster of NDSU/American genotypes with Turkish and Asian genotypes. All sub-populations showed moderate genetic diversity (average H = 0.22 and I = 0.34). The pairwise F st comparison revealed a great degree of divergence ( F st > 0.25) between most of the combinations. A whole collection mantel test showed significant positive correlation (r = 0.30 and p < 0.01) between genetic and geographic distances, whereas it was non-significant for all sub-populations except P4 and P5 (r= 0.251, 0.349 respectively and p < 0.05). In the entire collection, the mean linkage disequilibrium was 0.03 and it decayed to its half maximum within < 21 kb distance. Conclusions To maximize genetic gain, hybridization between NDSU stock (P5) and Asian individuals (P6) are potentially the best option as genetic differentiation between them is highest ( F st > 0.50). In contrast, low genetic differentiation between P5 and P2 may enhance the accumulation of favorable alleles for oil and fiber upon crossing to develop dual purpose varieties. As each sub-population consists of many genotypes, a Neighbor-Joining tree assists to identify distantly related genotypes. These results also inform genotyping decisions for future association mapping studies to ensure the identification of a sufficient number of molecular markers to tag all linkage blocks.

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Section: Discussionsupporting

confidence: 59%

Genetic diversity analysis of a Flax (Linum usitatissimum L.) global collection

Hoque

Fiedler

Rahman

2020

Preprint

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“…In conclusion, GBS proved to be a valuable tool to study the population genetics and relationships in common bean germplasm, even at local level, as already observed for other crops [67][68][69][70]. In addition, our work is relevant regarding the preservation of local landraces of the common bean from genetic erosion, and could be useful for future studies to tackle the identification of interesting traits relating to plant adaptation for breeding purposes.…”

Section: Discussionsupporting

confidence: 57%

Genotyping-by-Sequencing Reveals Molecular Genetic Diversity in Italian Common Bean Landraces

et al. 2019

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The common bean (Phaseolus vulgaris L.) is one of the main legumes worldwide and represents a valuable source of nutrients. Independent domestication events in the Americas led to the formation of two cultivated genepools, namely Mesoamerican and Andean, to which European material has been brought back. In this study, Italian common bean landraces were analyzed for their genetic diversity and structure, using single nucleotide polymorphism (SNP) markers derived from genotyping-by-sequencing (GBS) technology. After filtering, 11,866 SNPs were obtained and 798 markers, pruned for linkage disequilibrium, were used for structure analysis. The most probable number of subpopulations (K) was two, consistent with the presence of the two genepools, identified through the phaseolin diagnostic marker. Some landraces were admixed, suggesting probable hybridization events between Mesoamerican and Andean material. When increasing the number of possible Ks, the Andean germplasm appeared to be structured in two or three subgroups. The subdivision within the Andean material was also observed in a principal coordinate analysis (PCoA) plot and a dendrogram based on genetic distances. The Mesoamerican landraces showed a higher level of genetic diversity compared to the Andean landraces. Calculation of the fixation index (FST) at individual SNPs between the Mesoamerican and Andean genepools and within the Andean genepool evidenced clusters of highly divergent loci in specific chromosomal regions. This work may help to preserve landraces of the common bean from genetic erosion, and could represent a starting point for the identification of interesting traits that determine plant adaptation.

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“…www.nature.com/scientificreports www.nature.com/scientificreports/ in wheat contains comparatively fewer polymorphic markers than the A and B genomes due to low recombination attributed to its evolutionary and domestication history. Consistent with previous findings, the B genome contains a greater number of polymorphisms than the A and D genomes, which is attributed to a greater number of effective recombination events in the B genome [24][25][26] . The average number of SNPs per chromosome was 304, and the value ranged from 147 (4B) to 500 (7D) ( Supplementary Fig.…”

Section: Distribution Of Snp Markers Genetic Diversity and Populatiosupporting

confidence: 90%

“…Chromosome 3B appears to be a hot spot for various disease resistance genes, as it is the location of QTLs for KB resistance 24 and resistance to tan spot 39 , yellow rust 39 , leaf rust 24 and crown rot 26 . Genomic regions inherited as multi-disease resistance loci are not uncommon in wheat 39 .…”

Section: Linkage Disequilibrium Analysis and Genome-wide Association mentioning

confidence: 99%

GWAS revealed a novel resistance locus on chromosome 4D for the quarantine disease Karnal bunt in diverse wheat pre-breeding germplasm

Singh

Sehgal

Kumar

et al. 2020

Sci Rep

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This study was initiated to identify genomic regions conferring resistance to Karnal Bunt (KB) disease in wheat through a genome-wide association study (GWAS) on a set of 179 pre-breeding lines (PBLs). A GWAS of 6,382 high-quality DArTseq SNPs revealed 15 significant SNPs (P-value <10 −3) on chromosomes 2D, 3B, 4D and 7B that were associated with KB resistance in individual years. In particular, two SNPs (chromosome 4D) had the maximum R 2 values: SNP 1114200 | F | 0-63:T > c at 1.571 cM and R 2 of 12.49% and SNP 1103052 | F | 0-61:C > A at 1.574 cM and R 2 of 9.02%. These two SNPs displayed strong linkage disequilibrium (LD). An in silico analysis of SNPs on chromosome 4D identified two candidate gene hits, TraesCS4D02G352200 (TaNox8; an NADPH oxidase) and TraesCS4D02G350300 (a rhomboid-like protein belonging to family S54), with SNPs 1103052 | F | 0-61:C > A and 1101835 | F | 0-5:C > A, respectively, both of which function in biotic stress tolerance. The epistatic interaction analysis revealed significant interactions among 4D and 7B loci. A pedigree analysis of confirmed resistant PBLs revealed that Aegilops species is one of the parents and contributed the D genome in these resistant PBLs. These identified lines can be crossed with any elite cultivar across the globe to incorporate novel KB resistance identified on 4B.

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Genotyping-by-Sequencing (GBS) Revealed Molecular Genetic Diversity of Iranian Wheat Landraces and Cultivars

Cited by 126 publications

References 78 publications

Genetic diversity analysis of a Flax (Linum usitatissimum L.) global collection

Genetic diversity analysis of a Flax (Linum usitatissimum L.) global collection

Genotyping-by-Sequencing Reveals Molecular Genetic Diversity in Italian Common Bean Landraces

GWAS revealed a novel resistance locus on chromosome 4D for the quarantine disease Karnal bunt in diverse wheat pre-breeding germplasm

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