Identification and validation of Fusarium head blight resistance QTL in the U.S. soft red winter wheat cultivar ‘Jamestown’

Carpenter, Neal R.; Wright, Emily E.; Malla, Subas; Singh, Lovepreet; Sanford, David A. Van; Clark, Anthony; Harrison, Stephen A.; Murphy, J. Paul; Costa, José Maria Correia da; Chao, Shiaoman; Brown-Guedira, Gina; McMaster, Nicole; Schmale, David G.; Griffey, Carl A.; Rawat, Nidhi

doi:10.1002/csc2.20307

Cited by 10 publications

(13 citation statements)

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“…Multiple QTL have been reported on chromosome 1B conferring resistance to SEV (QFhb-1B.2) in the Chinese wheat mapping panel (Hu et al, 2020), DON (Qksu.fhbE-1BS) in Kansas wheat cultivar Everest (da Silva et al, 2019), IND (Qfhs.vt-1BL) in FHB resistant SRWW cultivar VA00W-38 (Liu et al, 2012), and FDK and DON in the SRWW association panel (Tessmann & Van Sanford, 2018), none of these QTL were near to our loci. Recently, Carpenter et al (2020) mapped QTL QFHB.vt-1B.1 and QFHB.vt-1B.2 from a SRWW cultivar Jamestown at 476.3-476.9 Mb (flanking markers IWB7443 and IWB10551) and 330.2-341.9 Mb (IWB6259 and IWB43992), respectively. However, our loci overlapped with the QTL Qfhb.nc-1B detected in the NC-Neuse/AGS 2000 RILs population (Petersen et al, 2016).…”

Section: 3mentioning

confidence: 99%

Genetics of Fusarium head blight resistance in soft red winter wheat using a genome‐wide association study

et al. 2022

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Host resistance is an effective and sustainable approach to manage the negative impact of Fusarium head blight (FHB) on wheat (Triticum aestivum L.) grain yield and quality. The objective of this study was to characterize the phenotypic responses and identify quantitative trait loci (QTL) conditioning different FHB resistance types using a panel of 236 elite soft red winter wheat (SRWW) lines in a genome‐wide association study (GWAS). The panel was phenotyped for five FHB and three morphological traits under two field and two greenhouse environments in 2018–2019 and 2019–2020. We identified 160 significant marker–trait associations (MTAs) for FHB traits and 11 MTAs for plant height. Eleven QTL showed major effects and explained >10% phenotypic variation (PV) for FHB resistance. Among these major loci, three QTL were stable and five QTL exhibited a pleiotropic effect. The QTL QFhb‐3BL, QFhb‐5AS, QFhb‐5BL, QFhb‐7AS.1, QFhb‐7AS.2, and QFhb‐7BS are presumed to be novel. Pyramiding multiple resistance alleles from all the major‐effect QTL resulted in a significant reduction in FHB incidence, severity, index, deoxynivalenol (DON), and Fusarium‐damaged kernel (FDK) by 17, 43, 45, 55, and 25%, respectively. Further validation of these QTL could potentially facilitate successful introgression of these resistance loci in new cultivars for improved FHB resistance in breeding programs.

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Section: 3mentioning

confidence: 99%

Genetics of Fusarium head blight resistance in soft red winter wheat using a genome‐wide association study

et al. 2022

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“…Kinship for GWAS and genomic prediction pipelines was derived from the same additive genomic relationship matrix created from the A.mat function as part of the sommer package v4.1.5 [32] using the VanRaden method [33], in order to maintain continuity between both analyses. Major FHB resistance QTL Fhb1 [34,35], F1BJ [4,24] and F1AN [18] are shown to have allele frequencies of 15.4%, 27.5%, 36.6% across entries, respectively.…”

Section: Genotypic Datamentioning

confidence: 99%

“…Fhb1 has been shown to reduce FDK by 32% and DON accumulation by 20% in soft red winter wheat populations [1]. F1BJ has been shown to explain as much as 11.8% of FDK and 9.2% DON variation, and F1AN has been shown to explain 11.4% of FDK and 10.9% of DON variation [18,24].…”

Section: Introductionmentioning

confidence: 98%

“…Additionally, it was hypothesized that FDK, when determined by different platforms, would demonstrate varying phenotypic resolution, causing direct effect on the corresponding FDK dataset's ability to (1) uncover missing heritability in the FDK trait; (2) capture the genetic variation underpinning Type III, IV and V resistance components; (3) detect trait associations with FHB resistance QTL in genome-wide association studies (GWAS) [22]. Previously, GWAS has been used to associate FDK with major FHB resistance loci such as Fhb1 [23], F1BJ (FHB_1B_Jamestown) [4,24] and F1AN (FHB_1A_Neuse) [18]. Fhb1 has been previously detected using FDK as a trait, while F1BJ and F1AN have been previously associated with DON directly [16].…”

Section: Introductionmentioning

confidence: 99%

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Evaluation of Methods for Measuring Fusarium-Damaged Kernels of Wheat

et al. 2022

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Fusarium head blight (FHB) is one of the most economically destructive diseases of wheat (Triticum aestivum L.), causing substantial yield and quality loss worldwide. Fusarium graminearum is the predominant causal pathogen of FHB in the U.S., and produces deoxynivalenol (DON), a mycotoxin that accumulates in the grain throughout infection. FHB results in kernel damage, a visual symptom that is quantified by a human observer enumerating or estimating the percentage of Fusarium-damaged kernels (FDK) in a sample of grain. To date, FDK estimation is the most efficient and accurate method of predicting DON content without measuring presence in a laboratory. For this experiment, 1266 entries collectively representing elite varieties and SunGrains advanced breeding lines encompassing four inoculated FHB nurseries were represented in the analysis. All plots were subjected to a manual FDK count, both exact and estimated, near-infrared spectroscopy (NIR) analysis, DON laboratory analysis, and digital imaging seed phenotyping using the Vibe QM3 instrument developed by Vibe imaging analytics. Among the FDK analytical platforms used to establish percentage FDK within grain samples, Vibe QM3 showed the strongest prediction capabilities of DON content in experimental samples, R2 = 0.63, and higher yet when deployed as FDK GEBVs, R2 = 0.76. Additionally, Vibe QM3 was shown to detect a significant SNP association at locus S3B_9439629 within major FHB resistance quantitative trait locus (QTL) Fhb1. Visual estimates of FDK showed higher prediction capabilities of DON content in grain subsamples than previously expected when deployed as GEBVs (R2 = 0.71), and the highest accuracy in genomic prediction, followed by Vibe QM3 digital imaging, with average Pearson’s correlations of r = 0.594 and r = 0.588 between observed and predicted values, respectively. These results demonstrate that seed phenotyping using traditional or automated platforms to determine FDK boast various throughput and efficacy that must be weighed appropriately when determining application in breeding programs to screen for and develop resistance to FHB and DON accumulation in wheat germplasms.

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“…Carpenter et al. (2020) mapped quantitative trait loci (QTL) associated with resistance to Fusarium head blight in a population of recombinant inbred lines derived from a cross of the soft red winter wheat variety ‘Jamestown’ with Pioneer ‘25R47.’ Additional mapping using related populations validated QTL positions in different genetic backgrounds and provided the framework for marker‐assisted selection to improve resistance.…”

Section: The Importance Of Plant Healthmentioning

confidence: 99%

Introduction to the special Crop Science issue: Celebrating the International Year of Plant Health

Goldman

2020

Crop Science

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Identification and validation of Fusarium head blight resistance QTL in the U.S. soft red winter wheat cultivar ‘Jamestown’

Cited by 10 publications

References 50 publications

Genetics of Fusarium head blight resistance in soft red winter wheat using a genome‐wide association study

Genetics of Fusarium head blight resistance in soft red winter wheat using a genome‐wide association study

Evaluation of Methods for Measuring Fusarium-Damaged Kernels of Wheat

Introduction to the special Crop Science issue: Celebrating the International Year of Plant Health

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