Development of tightly linked markers and identification of candidate genes for Fusarium crown rot resistance in barley by exploiting a near-isogenic line-derived population

Abstract Background Fusarium crown rot (FCR) is a chronic disease in cereal production worldwide. The impact of this disease is highly environmentally dependant and significant yield losses occur mainly in drought-affected crops. Results In the study reported here, we evaluated possible relationships between genes conferring FCR resistance and drought tolerance using two approaches. The first approach studied FCR induced differentially expressed genes (DEGs) targeting two barley and one wheat loci against a panel of genes curated from the literature based on known functions in drought tolerance. Of the 149 curated genes, 61.0% were responsive to FCR infection across the three loci. The second approach was a comparison of the global DEGs induced by FCR infection with the global transcriptomic responses under drought in wheat. This analysis found that approximately 48.0% of the DEGs detected one week following drought treatment and 74.4% of the DEGs detected three weeks following drought treatment were also differentially expressed between the susceptible and resistant isolines under FCR infection at one or more timepoints. As for the results from the first approach, the vast majority of common DEGs were downregulated under drought and expressed more highly in the resistant isoline than the sensitive isoline under FCR infection. Conclusions Results from this study suggest that the resistant isoline in wheat was experiencing less drought stress, which could contribute to the stronger defence response than the sensitive isoline. However, most of the genes induced by drought stress in barley were more highly expressed in the susceptible isolines than the resistant isolines under infection, indicating that genes conferring drought tolerance and FCR resistance may interact differently between these two crop species. Nevertheless, the strong relationship between FCR resistance and drought responsiveness provides further evidence indicating the possibility to enhance FCR resistance by manipulating genes conferring drought tolerance.

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Colonization of Durum Wheat (Triticum turgidum L. var. durum) Culms Exhibiting Premature Senescence (Dead Heads) Associated with Fusarium pseudograminearum Crown Rot

Plant Disease ◽

10.1094/pdis-03-17-0415-re ◽

2017 ◽

Vol 101 (10) ◽

pp. 1788-1794 ◽

Cited By ~ 4

Author(s):

Noel L. Knight ◽

Bethany Macdonald ◽

Mark W. Sutherland

Keyword(s):

Durum Wheat ◽

Disease Susceptibility ◽

Triticum Turgidum ◽

Crown Rot ◽

Vascular Bundles ◽

Fusarium Crown Rot ◽

Fusarium Pseudograminearum ◽

Field Samples ◽

Key Factor ◽

Significant Disease

Fusarium crown rot is a significant disease of durum wheat (Triticum turgidum L. var. durum), which exhibits high levels of disease susceptibility. The most extreme symptom of crown rot is a prematurely senescing culm that typically fails to set grain. Individual crown rot-affected durum wheat plants displaying both nonsenescent and prematurely senescent culms were harvested to compare visual discoloration, Fusarium pseudograminearum biomass, and vascular colonization in culm sections sampled at three different heights above the crown. Field samples of EGA Bellaroi were collected at Wellcamp, QLD, in 2011, 2012, 2013, and 2014, and of Hyperno at Narrabri, NSW, in 2014. Prematurely senescent culms exhibited greater visual discoloration, F. pseudograminearum biomass, and vascular colonization than nonsenescent culms in each year they were examined. The extent of these differences varied between environments and timing of collection in each year. Vascular colonization initially occurred in xylem vessels and spread into phloem tissues as disease severity increased. The increased presence of hyphae in vascular bundles of prematurely senescing culms provides strong evidence for the hypothesis that restriction of water and nutrient movement in a diseased culm is a key factor in crown rot severity.

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Power and false-positive rate in QTL detection with near-isogenic line libraries

Heredity ◽

10.1038/hdy.2010.87 ◽

2010 ◽

Vol 106 (4) ◽

pp. 576-584 ◽

Cited By ~ 14

Author(s):

K C Falke ◽

M Frisch

Keyword(s):

False Positive ◽

False Positive Rate ◽

Isogenic Line ◽

Near Isogenic Line ◽

Qtl Detection ◽

Positive Rate

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Lipoxygenase activities during development of root and nodule of soybean

Pesquisa Agropecuária Brasileira ◽

10.1590/s0100-204x2004000700002 ◽

2004 ◽

Vol 39 (7) ◽

pp. 625-630 ◽

Cited By ~ 6

Author(s):

Tatiana Góes Junghans ◽

Maria Goreti de Almeida Oliveira ◽

Maurilio Alves Moreira

Keyword(s):

Growth And Development ◽

Root Formation ◽

Lipoxygenase Activity ◽

Post Inoculation ◽

Isogenic Line ◽

Near Isogenic Line ◽

Near Isogenic Lines ◽

Isogenic Lines ◽

Bradyrhizobium Elkanii ◽

Over Time

The objective of this work was to evaluate root and nodule soybean lipoxygenases in Doko cultivar and in a near isogenic line lacking seed lipoxygenases, inoculated and uninoculated with Bradyrhizobium elkanii. The lipoxygenase activities from roots collected at 3, 5, 9, 13, 18 and 28 days post-inoculation and from nodules collected at 13, 18 and 28 days post-inoculation were measured. The pH-activity profiles from root and nodules suggested that the lipoxygenases pool expressed in these organs from Doko cultivar and triple-null near isogenic lines are similar. The root lipoxygenase activity of Doko and triple-null lines, inoculated and uninoculated, reduced over time. The highest lipoxygenase activity observed at the beginning of root formation suggests the involvement of this enzyme in growth and development of this organ. However, for nodules an expressive increase of lipoxygenase activity was noticed 28 days post-inoculation. Root and nodule showed, at least, two mobility groups for lipoxygenases in immunoblottings, with approximately 94 and 97 kDa.

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Genetic architecture and mechanism of seed number per pod in rapeseed: elucidated through linkage and near-isogenic line analysis

Scientific Reports ◽

10.1038/srep24124 ◽

2016 ◽

Vol 6 (1) ◽

Cited By ~ 15

Author(s):

Yuhua Yang ◽

Jiaqin Shi ◽

Xinfa Wang ◽

Guihua Liu ◽

Hanzhong Wang

Keyword(s):

Genetic Architecture ◽

Isogenic Line ◽

Near Isogenic Line ◽

Seed Number ◽

Line Analysis

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Development of a near isogenic line of ‘Koshihikari’ with a seed dormancy gene and an evaluation of its resistance to heat-induced quality decline

Breeding Research ◽

10.1270/jsbbr.18.1 ◽

2016 ◽

Vol 18 (1) ◽

pp. 1-10 ◽

Cited By ~ 1

Author(s):

Asako Kobayashi ◽

Kazuhiko Sugimoto ◽

Takeshi Hayashi ◽

Motohiko Kondo ◽

Junya Sonoda ◽

...

Keyword(s):

Seed Dormancy ◽

Isogenic Line ◽

Near Isogenic Line ◽

Resistance To Heat

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A Fine mapping quantitative trait loci that underlie resistance to soybean sudden death syndrome using NILs and SNPs.

Atlas Journal of Biology ◽

10.5147/ajb.v0i0.177 ◽

2018 ◽

pp. 583-591

Author(s):

Yi Chen Lee ◽

M Javed Iqbal ◽

Victor N Njiti ◽

Stella Kantartzi ◽

David A. Lightfoot

Keyword(s):

Quantitative Trait Loci ◽

Sudden Death ◽

Candidate Genes ◽

Quantitative Trait ◽

Soybean Cyst Nematode ◽

Snp Markers ◽

Sudden Death Syndrome ◽

Isogenic Line ◽

Trait Loci ◽

Glycine Max L

Soybean (Glycine max (L.) Merr.) cultivars differ in their resistance to sudden death syndrome (SDS), caused by Fusarium virguliforme. Breeding for improving SDS response has been challenging, due to interactions among the 18-42 known resistance loci. Four quantitative trait loci (QTL) for resistance to SDS (cqRfs–cqRfs3) were clustered within 20 cM of the rhg1 locus underlying resistance to soybean cyst nematode (SCN) on Chromosome (Chr.) 18. Another locus on Chr. 20 (cqRfs5) was reported to interact with this cluster. The aims here were to compare the inheritance of resistance to SDS in a near isogenic line (NIL) population that was fixed for resistance to SCN but segregated at two of the four loci (cqRfs1 and cqRfs) for SDS resistance; to examine the interaction with the locus on Chr. 20; and to identify candidate genes underlying QTL. Used were; a NIL population derived from residual heterozygosity in an F5:7 recombinant inbred line EF60 (lines 1-38); SDS response data from two locations and years; four segregating microsatellite and 1,500 SNP markers. Polymorphic regions were found from 2,788 Kbp to 8,938 Kbp on Chr. 18 and 33,100 Kbp to 34,943 Kbp on Chr. 20 that were significantly (0.005 < P > 0.0001) associated with resistance to SDS. The QTL fine maps suggested that the two loci on Chr. 18 were three loci (cqRfs1, cqRfs, and cqRfs19). Candidate genes were inferred. An epistatic interaction was inferred between Chr. 18 and Chr. 20 loci. Therefore, SDS resistance QTL were both complex and interacting.

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Genetic Variance for Fusarium Crown Rot Tolerance in Durum Wheat

10.1101/2020.10.05.326058 ◽

2020 ◽

Author(s):

Gururaj Kadkol ◽

Jess Meza ◽

Steven Simpfendorfer ◽

Steve Harden ◽

Brian Cullis

Keyword(s):

Durum Wheat ◽

Bread Wheat ◽

Genetic Variance ◽

Field Trials ◽

Crown Rot ◽

Tolerance Index ◽

Fusarium Crown Rot ◽

N Yield ◽

Good Repeatability ◽

Tolerance Indices

AbstractTolerance to the cereal disease Fusarium crown rot (FCR) was investigated in a set of 34 durum wheat genotypes, with Suntop, (bread wheat) and EGA Bellaroi (durum) as tolerant and intolerant checks, in a series of replicated field trials over four years with inoculated (FCR-i) and non-inoculated (FCR-n) plots of the genotypes. The genotypes included conventional durum lines and lines derived from crossing durum with 2-49, a bread wheat line with the highest level of partial resistance to FCR. A split plot trial design was chosen to optimize the efficiency for the prediction of FCR tolerance for each genotype. A multi-environment trial (MET) analysis was undertaken which indicated that there was good repeatability of FCR tolerance across years. Based on an FCR tolerance index, Suntop was the most tolerant genotype and EGA Bellaroi was very intolerant, but many durum wheats had FCR tolerance indices which were comparable to Suntop. These included some conventional durum lines, V101030, TD1702, V11TD013*3X-63 and DBA Bindaroi, as well as genotypes from crosses with 2-49 (V114916 and V114942). The correlation between FCR tolerance and FCR-n yield predictions was moderately negative indicating it could be somewhat difficult to develop high yielding FCR-tolerant genotypes. However, FCR tolerance showed a positive correlation with FCR-i yield predictions in seasons of high disease expression indicating it could be possible to screen for FCR tolerance using only FCR-i treatments. These results are the first demonstration of genetic diversity in durum germplasm for FCR tolerance and they provide a basis for breeding for this trait.

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Genetic Determinants of Wheat Resistance to Common Root Rot (Spot Blotch), Fusarium Crown Rot, and Sharp Eyespot

10.1101/2020.07.30.228932 ◽

2020 ◽

Author(s):

Jun Su ◽

Jiaojie Zhao ◽

Shuqing Zhao ◽

Mengyu Li ◽

Xiaofeng Shang ◽

...

Keyword(s):

Root Rot ◽

Spot Blotch ◽

Crown Rot ◽

Genetic Determinants ◽

Common Root ◽

Fusarium Crown Rot ◽

Common Root Rot ◽

Sharp Eyespot ◽

Root And Crown Rot ◽

Moderate Resistance

Due to the field soil changes, high density planting, and straw-returning methods, wheat common root rot (spot blotch), Fusarium crown rot (FCR), and sharp eyespot have become severe threatens to global wheat productions. Only a few wheat genotypes show moderate resistance to these root and crown rot fungal diseases, and the genetic determinants of wheat resistance to these devastating diseases have been poorly understood. This review summarizes the recent progress of genetic studies on wheat resistance to common root rot, Fusarium crown rot, and sharp eyespot. Wheat germplasms with relative higher resistance are highlighted and genetic loci controlling the resistance to each of the disease are summarized.

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