Genome-wide association studies of doubled haploid exotic introgression lines for root system architecture traits in maize (Zea mays L.)

Sanchez, Darlene L.; Liu, Sisi; Ibrahim, Rania; Blanco, Michael; Lübberstedt, Thomas

doi:10.1016/j.plantsci.2017.12.004

Cited by 64 publications

(60 citation statements)

References 46 publications

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“…In their study, STRUCTURE method combined with ΔK population number selection procedure was able to differentiate three independent clusters, namely SS, NS and Iodent, while in our study Iodent, although visually present, was confounded to NS pool due to insufficient number of inbreds with unmixed origin from two putative NS subgroups. Linkage disequilibrium was higher compared to large diversity panels [14,38] but comparable to recent reports with medium sized maize diversity panels [39,40].…”

Section: 3supporting

confidence: 87%

Genomewide analysis of biomass responses to water withholding in young plants of maize inbred lines with expired plant variety protection certificate

Mazur

Brkić

Šimić

et al. 2019

Preprint

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Patterns of seasonal variations in rainfall are changing which affects rain-fed agricultural areas. Water deficit during the early vegetative growth poses threat as it causes variability in plant development, makes plant susceptible to other stresses and deteriorates the stands. Plant's responses to water deficit are reflected in biomass traits which represent the morpho-physiological adjustments of plant to new conditions. The aims of this study were to assess the biomass responses of maize inbred lines with expired plant variety protection certificate that are freely distributed worldwide using genomewide analysis approach. The collection of 109 maize inbred lines, genotyped using genotyping-by-sequencing, was planted in controlled conditions (16/8 day/night, 25°C, 50% RH, 200 µMol/m 2 /s) in trays filled with soil in three replicates. Plants in control (C) were watered every two days with 8 ml H2O , while watering was stopped for 10 days in water withholding (WW) treatment. Fourteen days old plants were harvested and fresh weight (FW), dry weight (DW) and dry matter content (DMC, % of FW) were measured. Different responses to WW were detected in two genetic subgroups: Stiff Stalk and Non-Stiff Stalk. Totally 29 QTLs were detected, and it was shown that genetic regulation of DMC is different than regulation of FW and DW. This was further supported with correlations of rrBLUP marker effects among the traits. It was concluded that measurements of biomass traits in this manner are fast and reliable indicator of plant's response to water deficit and can be used for effective screening of breeding progenies.

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Section: 3supporting

confidence: 87%

Genomewide analysis of biomass responses to water withholding in young plants of maize inbred lines with expired plant variety protection certificate

Mazur

Brkić

Šimić

et al. 2019

Preprint

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“…Regions containing short recurrent parent regions were tested with the null hypothesis that a double crossover event took place, and the correction was based on the P ‐values obtained from the test (Rice et al, 2018). After correction, donor parent contributions were closer to the expected 25% and the number of recombination events was greatly reduced (Sanchez et al, 2018).…”

Section: Methodsmentioning

confidence: 90%

Stability Analysis of Kernel Quality Traits in Exotic‐Derived Doubled Haploid Maize Lines

et al. 2019

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Core Ideas Exotic germplasm may be useful for altering temperate kernel characteristics. Single nucleotide polymorphism markers were associated with composition traits. The stability and usefulness of exotic germplasm was demonstrated. Variation in kernel composition across maize (Zea mays L.) germplasm is affected by a combination of the plant's genotype, the environment in which it is grown, and the interaction between these two elements. Adapting exotic germplasm to the US Corn Belt is highly dependent on the plant's genotype, the environment where it is grown, and the interaction between these components. Phenotypic plasticity is ill‐defined when specific exotic germplasm is moved over large latitudinal distances and for the adapted variants being created. Reduced plasticity (or stability) is desired for the adapted variants, as it allows for a more rapid implementation into breeding programs throughout the Corn Belt. Here, doubled haploid lines derived from exotic maize and adapted through backcrossing exotic germplasm to elite adapted lines were used in conjunction with genome‐wide association studies to explore stability in four kernel composition traits. Genotypes demonstrated a response to environments that paralleled the mean response of all genotypes used across all traits, with protein content and kernel density exhibiting the highest levels of Type II stability. Genes such as opaque10, empty pericarp 16, and floury 1 were identified as potential candidates within quantitative trait locus regions. The findings within this study aid in validating previously identified genomic regions and identified novel genomic regions affecting kernel quality traits.

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“…This pipeline could be used for non-destructive phenotyping of various root phenotypes (e.g., total root length and root angle); the authors acquired 16 root phenotypes for 163 accessions during a time course of 5 days using this pipeline and identified several loci that were significantly associated with each phenotype by GWAS. In maize seedlings, GWAS for RSA evaluated by ARIA software, which can extract 27 different root traits in one analysis including 2D and 3D traits, identified reported QTLs and new loci controlling root development including root network area (Pace et al, 2014;Sanchez et al, 2018). In addition to root traits, leaf traits involved in photosynthesis, yield, and stress resistance were also analyzed by high-throughput leaf phenotyping using scan camera, which was applied for GWAS.…”

Section: Gwas For Morphological Phenotypesmentioning

confidence: 99%

Genome-wide Association Studies of Agronomic Traits Consisting of Field- and Molecular-based Phenotypes

Nakano

Kobayashi

2020

RAS

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Genome-wide association study (GWAS) is a powerful approach to identify the genetic factors underlying the intraspecific phenotypic variations. Recent advances in DNA sequencing technology, including next generation sequencing has enabled us to easily genotype high density genome-wide SNPs. In addition, many accessions of various plant species have been widely collected in recent years. These genetic resources have made GWAS a markedly more popular approach for investigation of natural variations occurring in various traits using large populations. In addition to genotyping technology, advances in high-throughput phenotyping technologies have enabled us to acquire variation data on a large number of accessions characterized for various traits, including not only the field traits (e.g., yield and disease resistance) but also molecular traits (e.g., gene expression level and metabolite content). Thus, it is possible to expand the range of application of GWAS and enhance the detection power of genomic association. In this review, we summarize recent GWAS of various agronomic traits at field and molecular scale, following which we highlight the integration approach involving GWAS and high-throughput phenotyping technologies including transcriptome, ionome and metabolome.

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Genome-wide association studies of doubled haploid exotic introgression lines for root system architecture traits in maize (Zea mays L.)

Cited by 64 publications

References 46 publications

Genomewide analysis of biomass responses to water withholding in young plants of maize inbred lines with expired plant variety protection certificate

Genomewide analysis of biomass responses to water withholding in young plants of maize inbred lines with expired plant variety protection certificate

Stability Analysis of Kernel Quality Traits in Exotic‐Derived Doubled Haploid Maize Lines

Genome-wide Association Studies of Agronomic Traits Consisting of Field- and Molecular-based Phenotypes

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