Molecular diversity and selective sweeps in maize inbred lines adapted to African highlands

Wegary, Dagne; Teklewold, Adefris; Prasanna, B. M.; Ertiro, Berhanu Tadesse; Alachiotis, Nikolaos; Negera, Demewez; Awas, Geremew; Abakemal, Demissew; Ogugo, Veronica; Gowda, Manje; Semagn, Kassa

doi:10.1038/s41598-019-49861-z

Cited by 18 publications

(22 citation statements)

References 91 publications

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“…Population structure was analyzed using the model-based method implemented in the software package STRUCTURE v.2.3.4 54 as described in the previous studies 20 , 25 , 61 . DNA samples and accessions with membership probabilities > 60% were assigned to the same clusters (group), while those with probabilities < 60% in any group were assigned to a “mixed” group.…”

Section: Methodsmentioning

confidence: 99%

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Comparisons of sampling methods for assessing intra- and inter-accession genetic diversity in three rice species using genotyping by sequencing

Gouda

Ndjiondjop

Djèdatin

et al. 2020

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to minimize the cost of sample preparation and genotyping, most genebank genomics studies in self-pollinating species are conducted on a single individual to represent an accession, which may be heterogeneous with larger than expected intra-accession genetic variation. Here, we compared various population genetics parameters among six DNA (leaf) sampling methods on 90 accessions representing a wild species (O. barthii), cultivated and landraces (O. glaberrima, O. sativa), and improved varieties derived through interspecific hybridizations. A total of 1,527 DNA samples were genotyped with 46,818 polymorphic single nucleotide polymorphisms (SNPs) using DArTseq. Various statistical analyses were performed on eleven datasets corresponding to 5 plants per accession individually and in a bulk (two sets), 10 plants individually and in a bulk (two sets), all 15 plants individually (one set), and a randomly sampled individual repeated six times (six sets). Overall, we arrived at broadly similar conclusions across 11 datasets in terms of SNP polymorphism, heterozygosity/heterogeneity, diversity indices, concordance among genetic dissimilarity matrices, population structure, and genetic differentiation; there were, however, a few discrepancies between some pairs of datasets. Detailed results of each sampling method, the concordance in their outputs, and the technical and cost implications of each method were discussed.

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Section: Methodsmentioning

confidence: 99%

“…Most of the statistical analyses were performed as described in previous studies 20,25 . Briefly, heterozygosity, IBS-based genetic distance matrices, and principal component analysis (PCA) were computed using TASSEL v.5.2.58 52 .…”

Section: Statistical Analysesmentioning

confidence: 99%

Comparisons of sampling methods for assessing intra- and inter-accession genetic diversity in three rice species using genotyping by sequencing

Gouda

Ndjiondjop

Djèdatin

et al. 2020

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“…Maize is one of the most important crops in civilization and possesses diverse usage due to availability of various mutants with specific traits and adaptability to different climatic conditions (Prasanna, 2010, 2012). Since domestication, maize breeding has acquired diverse morphotypes available in different landraces (Wegary et al., 2019). Maize is easily crossable to its wild relative ‘teosinte’ and provides enormous opportunity for exchange of genes and genomic segments through introgressive hybridization (Lorant et al., 2017).…”

Section: Introductionmentioning

confidence: 99%

A novel quantitative trait loci governs prolificacy in ‘Sikkim Primitive’ – A unique maize (Zea mays) landrace of North‐Eastern Himalaya

et al. 2021

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‘Sikkim Primitive’ is a prolific maize landrace with five to nine ears per plant. Though the landrace was discovered in 1960s, loci governing the prolificacy was not identified. Here, a prolific inbred ‘MGUSP101’ developed from ‘Sikkim Primitive’ was crossed with two nonprolific inbreds, namely, HKI1128 and UMI1200. Two F2:3 populations (MGUSP101 × HKI1128 and MGUSP101 × UMI1200) were evaluated at three locations. Across locations, number of ears per plant varied from 1.35 to 5.38 in MGUSP101 × HKI1128 population. Bulked‐segregant analysis coupled with targeted QTL mapping identified a major QTL (bin: 8.05) explaining 31.7% phenotypic variation amongst 145 F2:3 individuals. The QTL was further validated in 138 F2:3 individuals of MGUSP101 × UMI1200 (range: 1.10–4.88). The identified QTL explained 29.2% of phenotypic variance at the same interval. We designated this novel QTL as ‘qProl‐SP‐8.05’ which has not been reported earlier. Six candidate genes responsible for prolificacy were also identified. This novel QTL can be introgressed through marker‐assisted selection for induction of prolificacy in elite maize. This is the first report of identification of locus governing prolificacy in ‘Sikkim Primitive’.

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“… 4 , 5 and crop domestication e.g. 6 , 7 . The evolution of herbicide resistance (HR) in agricultural weeds results from strong selection pressure.…”

Section: Introductionmentioning

confidence: 99%

High gene flow maintains genetic diversity following selection for high EPSPS copy number in the weed kochia (Amaranthaceae)

Martin

Benedict

Wei

et al. 2020

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Kochia, a major weed species, has evolved resistance to four herbicide modes of action. Herbicide resistance appears to spread quickly, which could result in diminished standing genetic variation, reducing the ability of populations to adapt further. Here we used double digest restriction enzyme associated sequencing to determine the level of gene flow among kochia populations and whether selection for glyphosate resistance reduces genetic variation. Canadian Prairie populations show little to no genetic differentiation (FST = 0.01) and no correlation between genetic and geographic distance (r2 = − 0.02 p = 0.56), indicating high gene flow and no population structure. There is some evidence that kochia populations are genetically depauperate compared to other weed species, but genetic diversity did not differ between glyphosate susceptible and resistant populations or individuals. The inbreeding coefficients suggest there are 23% fewer heterozygotes in these populations than expected with random mating, and no variation was found within the chloroplast. These results indicate that any alleles for herbicide resistance can be expected to spread quickly through kochia populations, but there is little evidence this spread will reduce the species’ genetic variation or limit the species’ ability to respond to further selection pressure.

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Molecular diversity and selective sweeps in maize inbred lines adapted to African highlands

Cited by 18 publications

References 91 publications

Comparisons of sampling methods for assessing intra- and inter-accession genetic diversity in three rice species using genotyping by sequencing

Comparisons of sampling methods for assessing intra- and inter-accession genetic diversity in three rice species using genotyping by sequencing

A novel quantitative trait loci governs prolificacy in ‘Sikkim Primitive’ – A unique maize (Zea mays) landrace of North‐Eastern Himalaya

High gene flow maintains genetic diversity following selection for high EPSPS copy number in the weed kochia (Amaranthaceae)

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