Qiongxian Lu scite author profile

Fusarium head blight (FHB) is a destructive wheat disease of global importance. Resistance breeding depends heavily on the Fhb1 gene. The CIMMYT line Shanghai-3/Catbird (SHA3/CBRD) is a promising source without this gene. A recombinant inbred line (RIL) population from the cross of SHA3/CBRD with the German spring wheat cv. Naxos was evaluated for FHB resistance and related traits in field trials using spray and spawn inoculation in Norway and point inoculation in China. After spray and spawn inoculation, FHB severities were negatively correlated with both anther extrusion (AE) and plant height (PH). The QTL analysis showed that the Rht-B1b dwarfing allele co-localized with a QTL for low AE and increased susceptibility after spawn and spray inoculation. In general, SHA3/CBRD contributed most of the favorable alleles for resistance to severity after spray and spawn inoculation, while Naxos contributed more favorable alleles for reduction in FDK and DON content and resistance to severity after point inoculation. SHA3/CBRD contributed a major resistance QTL close to the centromere on 2DLc affecting FHB severity and DON after all inoculation methods. This QTL was also associated with AE and PH, with high AE and tall alleles contributed by SHA3/CBRD. Several QTL for AE and PH were detected, and low AE or reduced PH was always associated with increased susceptibility after spawn and spray inoculation. Most of the other minor FHB resistance QTL from SHA3/CBRD were associated with AE or PH, while the QTL from Naxos were mostly not. After point inoculation, no other QTL for FHB traits was associated with AE or PH, except the 2DLc QTL which was common across all inoculation methods. Marker-assisted selection based on the 2DLc QTL from SHA3/CBRD combined with phenotypic selection for AE is recommended for resistance breeding based on this valuable source of resistance.

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Genetic mapping of quantitative trait loci for fiber quality and yield trait by RIL approach in Upland cotton

Shen

et al. 2006

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The improvement of cotton fiber quality has become more important because of changes in spinning technology. Stable quantitative trait loci (QTLs) for fiber quality will enable molecular marker-assisted selection to improve fiber quality of future cotton cultivars. A simple sequence repeat (SSR) genetic linkage map consisting of 156 loci covering 1,024.4 cM was constructed using a series of recombinant inbred lines (RIL) developed from an F 2 population of an Upland cotton (Gossypium hirsutum L.) cross 7235 · TM-1. Phenotypic data were collected at Nanjing and Guanyun County in 2002 and 2003 for 5 fiber quality and 6 yield traits. We found 25 major QTLs (LOD ‡3.0) and 28 putative QTLs (2.0 < LOD < 3.0) for fiber quality and yield components in two or four environments independently. Among the 25 QTLs with LOD ‡ 3, we found 4 QTLs with large effects on fiber quality and 7 QTLs with large effects on yield components. The most important chromosome D8 in the present study was densely populated with markers and QTLs, in which 36 SSR loci within a chromosomal region of 72.7 cM and 9 QTLs for 8 traits were detected.

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QTL mapping of adult-plant resistance to stripe rust in a population derived from common wheat cultivars Naxos and Shanghai 3/Catbird

Ren

et al. 2012

Theor Appl Genet

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Stripe rust, caused by Puccinia striiformis Westend. f. sp. tritici Erikss., is a severe foliar disease of common wheat (Triticum aestivum L.) worldwide. Use of adult-plant resistance (APR) is an efficient approach to provide long-term protection of crops from the disease. The German spring wheat cultivar Naxos showed a high level of APR to stripe rust in the field. To identify the APR genes in this cultivar, a mapping population of 166 recombinant inbred lines (RILs) was developed from a cross between Naxos and Shanghai 3/Catbird (SHA3/CBRD), a moderately susceptible line developed by CIMMYT. The RILs were evaluated for maximum disease severity (MDS) in Sichuan and Gansu in the 2009-2010 and 2010-2011 cropping seasons. Composite interval mapping (CIM) identified four QTL, QYr.caas-1BL.1RS, QYr.caas-1DS, QYr.caas-5BL.3 and QYr.caas-7BL.1, conferring stable resistance to stripe rust across all environments, each explaining 1.9-27.6, 2.1-5.8, 2.5-7.8 and 3.7-9.1 % of the phenotypic variance, respectively. QYr.caas-1DS flanked by molecular markers XUgwm353-Xgdm33b was likely a new QTL for APR to stripe rust. Because the interval between flanking markers for each QTL was less than 6.5 cM, these QTL and their closely linked markers are potentially useful for improving resistance to stripe rust in wheat breeding.

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Development of Gossypium barbadense chromosome segment substitution lines in the genetic standard line TM-1 of Gossypium hirsutum

Wang

Ding

et al. 2008

Sci. Bull.

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Two Major Resistance Quantitative Trait Loci are Required to Counteract the Increased Susceptibility to Fusarium Head Blight of the Rht‐D1b Dwarfing Gene in Wheat

Szabó-Hevér

Bjørnstad

et al. 2011

Crop Science

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Fusarium head blight (FHB) is a destructive wheat (Triticum aestivum L.) disease of global importance. The widely used dwarfing allele Rht‐D1b has recently been shown to compromise FHB resistance. The objectives of this study were to investigate the impact of this dwarfing allele in a segregating population with major resistance quantitative trait loci (QTL) derived from ‘Sumai‐3’ and Nobeokabozu, and to determine how many resistance QTL are needed to counteract its negative effect. Fusarium head blight resistance was evaluated in four field trials with spray inoculation and two field trials with point inoculation in a double‐haploid (DH) population from a cross between the Swedish cv. Avle (susceptible spring type; wild‐type allele Rht‐D1a) and Line 685 (resistant winter type; semi‐dwarf allele Rht‐D1b). The Rht‐D1 locus explained up to 38% of the phenotypic variation and was the most important QTL for FHB severity under spray inoculation but did not show any effect after point inoculation. Fhb1 on 3BS was detected with both inoculation methods but was relatively more important after point inoculation. Another two QTL on 5A and 2BL were detected after spray inoculation and a QTL on 2D after point inoculation. Comparison of phenotypic effects of different allele combinations revealed that a combination of both Fhb1 and the 5A QTL was required to counteract the increased susceptibility of Rht‐D1b. Although breeding of FHB resistant cultivars with this dwarfing allele is possible, it requires the pyramiding of several resistant QTL to achieve adequate levels of resistance.

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Molecular mapping of adult plant resistance to Parastagonospora nodorum leaf blotch in bread wheat lines ‘Shanghai-3/Catbird’ and ‘Naxos’

Lillemo

2014

Theor Appl Genet

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The field resistance to Parastagonospora nodorum leaf blotch in SHA3/CBRD is based on many genes with minor effects. Parastagonospora nodorum leaf blotch is a severe wheat disease in Norway and other regions with humid and rainy climate. It causes grain shriveling and reduced yield in years of epidemics. Shanghai-3/Catbird (SHA3/CBRD), a CIMMYT breeding line, was observed to be resistant to P. nodorum leaf blotch in the field. The objective of the current study was to map the genetic factors related to its resistance. A recombinant inbred line population from a cross between SHA3/CBRD and the susceptible German spring cv. Naxos was tested in field trials over 4 years (2010, 2011, 2012 and 2013) with natural infection supplied with mist irrigation. Leaf blotch severity was scored together with plant height, heading date and maturity date in these trials. A testing data set was also available from other field trials with the same population. Totally, two major and six minor QTL were detected for leaf blotch resistance. The major QTL on chromosome 3BL with resistance contributed by Naxos was consistent across all environments and explained up to 12 % of the phenotypic variation. Another major QTL on 3B with resistance from SHA3/CBRD was significant in 2010, 2013 and the testing data set and explained up to 12 % of the phenotypic variation. Minor QTL were detected on 1B, 3AS, 5BS, 5BL, 7A and 7B. The 5BS QTL was likely caused by Snn3-B1, with sensitivity contributed by Naxos. The 5BL QTL mapped to the Tsn1 region, but was likely caused by other mechanisms since both parents were insensitive to ToxA.

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FIND-IT: Accelerated trait development for a green evolution

et al. 2022

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Improved agricultural and industrial production organisms are required to meet the future global food demands and minimize the effects of climate change. A new resource for crop and microbe improvement, designated FIND-IT (Fast Identification of Nucleotide variants by droplet DigITal PCR), provides ultrafast identification and isolation of predetermined, targeted genetic variants in a screening cycle of less than 10 days. Using large-scale sample pooling in combination with droplet digital PCR (ddPCR) greatly increases the size of low–mutation density and screenable variant libraries and the probability of identifying the variant of interest. The method is validated by screening variant libraries totaling 500,000 barley ( Hordeum vulgare ) individuals and isolating more than 125 targeted barley gene knockout lines and miRNA or promoter variants enabling functional gene analysis. FIND-IT variants are directly applicable to elite breeding pipelines and minimize time-consuming technical steps to accelerate the evolution of germplasm.

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Transcriptional and biochemical analyses of gibberellin expression and content in germinated barley grain

Betts

Dockter

Berkowitz

et al. 2019

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Mobilization of reserves in germinated cereal grains is critical for early seedling vigour, global crop productivity, and hence food security. Gibberellins (GAs) are central to this process. We have developed a spatio-temporal model that describes the multifaceted mechanisms of GA regulation in germinated barley grain. The model was generated using RNA sequencing transcript data from tissues dissected from intact, germinated grain, which closely match measurements of GA hormones and their metabolites in those tissues. The data show that successful grain germination is underpinned by high concentrations of GA precursors in ungerminated grain, the use of independent metabolic pathways for the synthesis of several bioactive GAs during germination, and a capacity to abort bioactive GA biosynthesis. The most abundant bioactive form is GA1, which is synthesized in the scutellum as a glycosyl conjugate that diffuses to the aleurone, where it stimulates de novo synthesis of a GA3 conjugate and GA4. Synthesis of bioactive GAs in the aleurone provides a mechanism that ensures the hormonal signal is relayed from the scutellum to the distal tip of the grain. The transcript data set of 33 421 genes used to define GA metabolism is available as a resource to analyse other physiological processes in germinated grain.

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Qiongxian Lu

Anther extrusion and plant height are associated with Type I resistance to Fusarium head blight in bread wheat line ‘Shanghai-3/Catbird’

Genetic mapping of quantitative trait loci for fiber quality and yield trait by RIL approach in Upland cotton

QTL mapping of adult-plant resistance to stripe rust in a population derived from common wheat cultivars Naxos and Shanghai 3/Catbird

Development of Gossypium barbadense chromosome segment substitution lines in the genetic standard line TM-1 of Gossypium hirsutum

Two Major Resistance Quantitative Trait Loci are Required to Counteract the Increased Susceptibility to Fusarium Head Blight of the Rht‐D1b Dwarfing Gene in Wheat

Molecular mapping of adult plant resistance to Parastagonospora nodorum leaf blotch in bread wheat lines ‘Shanghai-3/Catbird’ and ‘Naxos’

FIND-IT: Accelerated trait development for a green evolution

Transcriptional and biochemical analyses of gibberellin expression and content in germinated barley grain

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