Molecular dissection of Secale africanum chromosome 6Rafr in wheat enabled localization of genes for resistance to powdery mildew and stripe rust

The hard red winter wheat Tangmai 4 did not develop symptoms of infection following inoculation with powdery mildew (Erysiphe graminis DC. f. sp. tritici E. Marchal) isolates from regions of western Canada and northern China. Tangmai 4 exhibited resistance to stem rust (Puccinia graminis Pers. f. sp. tritici Eriks. & Henn.) and leaf rust (P. triticina Eriks.) races from western Canada. This wheat line was resistant to individual stripe rust (P. striiformis Westend. f. sp. tritici Eriks.) races from the U.S. and Canada. Sequential C-banding and genomic in situ hybridization (GISH), and electrophoretic analyses of high molecular weight glutenins and gliadins demonstrated that Tangmai 4 carried a pair of T1BL·1RS wheat-rye (Secale cereale L.) translocated chromosomes. Since the genes located on T1BL·1RS are no longer effective in controlling powdery mildew and the rust diseases, Tangmai 4 must carry additional genes for resistance to these diseases, which makes it a valuable resource for the improvement of resistance in wheat against these diseases. Key words: T1BL·1RS translocation, disease resistance, sequential C-banding and GISH, glutenin, gliadin

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The barley immune receptor Mla recognizes multiple pathogens and contributes to host range dynamics

Nature Communications ◽

10.1038/s41467-021-27288-3 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Jan Bettgenhaeuser ◽

Inmaculada Hernández-Pinzón ◽

Andrew M. Dawson ◽

Matthew Gardiner ◽

Phon Green ◽

...

Keyword(s):

Powdery Mildew ◽

Stripe Rust ◽

Resistance Genes ◽

Host Species ◽

Plant Pathogens ◽

Puccinia Striiformis ◽

Species Specificity ◽

Wheat Stripe Rust ◽

Barley Powdery Mildew ◽

Barley Stripe Rust

AbstractCrop losses caused by plant pathogens are a primary threat to stable food production. Stripe rust (Puccinia striiformis) is a fungal pathogen of cereal crops that causes significant, persistent yield loss. Stripe rust exhibits host species specificity, with lineages that have adapted to infect wheat and barley. While wheat stripe rust and barley stripe rust are commonly restricted to their corresponding hosts, the genes underlying this host specificity remain unknown. Here, we show that three resistance genes, Rps6, Rps7, and Rps8, contribute to immunity in barley to wheat stripe rust. Rps7 cosegregates with barley powdery mildew resistance at the Mla locus. Using transgenic complementation of different Mla alleles, we confirm allele-specific recognition of wheat stripe rust by Mla. Our results show that major resistance genes contribute to the host species specificity of wheat stripe rust on barley and that a shared genetic architecture underlies resistance to the adapted pathogen barley powdery mildew and non-adapted pathogen wheat stripe rust.

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Disease resistance in the genusAegilops L. — stem rust, leaf rust, stripe rust, and powdery mildew

Die Kulturpflanze ◽

10.1007/bf01997267 ◽

1985 ◽

Vol 33 (2) ◽

pp. 133-153 ◽

Cited By ~ 36

Author(s):

Jan Valkoun ◽

Karl Hammer ◽

Dagmar Kučerová ◽

Pavel Bartoš

Keyword(s):

Disease Resistance ◽

Powdery Mildew ◽

Leaf Rust ◽

Stripe Rust ◽

Stem Rust

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Molecular Cytogenetic Characterization of a New T2BL·1RS Wheat-Rye Chromosome Translocation Line Resistant to Stripe Rust and Powdery Mildew

Plant Disease ◽

10.1094/pdis-93-2-0124 ◽

2009 ◽

Vol 93 (2) ◽

pp. 124-129 ◽

Cited By ~ 20

Author(s):

Chunmei Wang ◽

Qi Zheng ◽

Lihui Li ◽

Yongchun Niu ◽

Haibo Wang ◽

...

Keyword(s):

In Situ Hybridization ◽

Powdery Mildew ◽

Stripe Rust ◽

Expressed Sequence Tag ◽

Puccinia Striiformis ◽

Wheat Breeding ◽

Translocation Line ◽

Winter Rye ◽

New Genotype

Wheat (Triticum aestivum) genotypes with rye (Secale cereale) 1RS chromosomal translocations are widely used in wheat breeding programs because 1RS carries genes for resistance to several diseases. However, some of the pathogens have evolved into new races that overcome the resistance due to extensive use of cultivars with the resistance genes from rye. Therefore, identification and deployment of new resistance sources with desirable agronomic characteristics are important and urgent. We have used winter rye cultivar German White as a source of genes for desirable traits in wheat improvement. A new genotype named WR04-32 was produced through hybridization and chromosome manipulation between common winter wheat cultivar Xiaoyan 6 and German White. This genotype was highly resistant to a wide spectrum of the wheat stripe rust (Puccinia striiformis f. sp. tritici) and powdery mildew (Blumeria graminis f. sp. tritici) pathotypes prevalent in China. The polymerase chain reaction (PCR) result using EST-STS (expressed sequence tag-site tagged sequence) marker STSWE126 specific to 1RS confirmed 1RS in WR04-32, and it was further proved to be a wheat-rye T2BL·1RS translocation line using sequential genomic in situ hybridization (GISH) and multicolor fluorescence in situ hybridization (FISH) with probes pAs1 and pSc119.2 (or pHvG38). In addition to its resistance to stripe rust and powdery mildew, WR04-32 was genetically stable and had desirable agronomic traits, making it a desirable germplasm for wheat breeding.

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Chromosome constitution and origin analysis in three derivatives of Triticum aestivum – Leymus mollis by molecular cytogenetic identification

Genome ◽

10.1139/gen-2014-0161 ◽

2014 ◽

Vol 57 (11/12) ◽

pp. 583-591 ◽

Cited By ~ 13

Author(s):

Xiaofei Yang ◽

Changyou Wang ◽

Chunhuan Chen ◽

Hong Zhang ◽

Zengrong Tian ◽

...

Keyword(s):

Triticum Aestivum ◽

Powdery Mildew ◽

Common Wheat ◽

Stripe Rust ◽

Wheat Breeding ◽

Chromosome Constitution ◽

Disease Resistances ◽

Derivatives Of ◽

Leymus Mollis

Leymus mollis (2n = 4x = 28, NsNsXmXm) is an important tetraploid species in Leymus (Poaceae: Triticeae) and a useful genetic resource for wheat breeding because of the stress tolerance and disease resistance of this species. The development of Triticum aestivum (common wheat) – L. mollis derivatives with desirable genes will provide valuable bridge materials for wheat improvement, especially regarding powdery mildew resistance genes, which are rarely documented in L. mollis. In the present study, three derivatives of common wheat cultivar 7182 and L. mollis, namely M47, M51, and M42, were subjected to chromosomal characterization via cytogenetic identification, the analysis of molecular markers, and genomic in situ hybridization. These derivatives were all morphologically and cytogenetically stable. M47 was highly resistant to powdery mildew and nearly immune to stripe rust at the adult stage, and the chromosome constitution of this derivative can be expressed as 2n = 56 = 42T.a + 14L.m (where T.a = T. aestivum chromosomes; L.m = L. mollis chromosomes). Compared to M47, M42 was also resistant to stripe rust but was susceptible to powdery mildew; the chromosome constitution of M42 was 2n = 54 = 42T.a + 12L.m, in which a pair of homoeologous group 7 L.m chromosomes was eliminated. Finally, M51 was susceptible to powdery mildew and stripe rust and had a chromosome constitution of 2n = 48 = 42T.a + 6L.m, in which four pairs of L.m chromosomes from homoeologous groups 2, 4, 5, and 7 were eliminated. The differing disease resistances of the three derivatives are discussed in this report in the context of their chromosomal variations; this information can thus contribute to breeding disease resistant wheat with the potential for applying these derivatives as useful bridge materials.

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Molecular Cytogenetic Characterization of a New Wheat-Thinopyrum intermedium Partial Amphiploid Resistant to Powdery Mildew and Stripe Rust

Cytogenetic and Genome Research ◽

10.1159/000266169 ◽

2009 ◽

Vol 126 (4) ◽

pp. 390-395 ◽

Cited By ~ 15

Author(s):

Y. Bao ◽

X. Li ◽

S. Liu ◽

F. Cui ◽

H. Wang

Keyword(s):

Powdery Mildew ◽

Stripe Rust ◽

Thinopyrum Intermedium ◽

Molecular Cytogenetic ◽

Partial Amphiploid ◽

Cytogenetic Characterization

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Inter-seasonal and altitudinal inoculum dynamics for wheat stripe rust and powdery mildew epidemics in Gangu, Northwestern China

Crop Protection ◽

10.1016/j.cropro.2018.03.005 ◽

2018 ◽

Vol 110 ◽

pp. 65-72

Author(s):

Yilin Gu ◽

Yong Li ◽

Cuicui Wang ◽

Bingyao Chu ◽

Qi Liu ◽

...

Keyword(s):

Powdery Mildew ◽

Stripe Rust ◽

Northwestern China ◽

Wheat Stripe Rust

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Development of two powdery mildew and stripe rust resistant wheat lines from (Triticum turgidum×Haynaldia villosaamphiploid) × synthetic wheat hybrids

Cereal Research Communications ◽

10.1556/crc.38.2010.3.1 ◽

2010 ◽

Vol 38 (3) ◽

pp. 307-316 ◽

Cited By ~ 2

Author(s):

X. Li ◽

H. Liu ◽

J. Gao ◽

H. Wang

Keyword(s):

Powdery Mildew ◽

Stripe Rust ◽

Triticum Turgidum ◽

Synthetic Wheat ◽

Wheat Hybrids ◽

Wheat Lines

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Molecular mapping of quantitative trait loci for adult-plant resistance to powdery mildew in Italian wheat cultivar Libellula

Crop and Pasture Science ◽

10.1071/cp12174 ◽

2012 ◽

Vol 63 (6) ◽

pp. 539 ◽

Cited By ~ 9

Author(s):

M. A. Asad ◽

B. Bai ◽

C. X. Lan ◽

J. Yan ◽

X. C. Xia ◽

...

Keyword(s):

Quantitative Trait Loci ◽

Powdery Mildew ◽

Stripe Rust ◽

Plant Resistance ◽

Quantitative Trait ◽

Rust Resistance ◽

Adult Plant Resistance ◽

Wheat Cultivar ◽

Stripe Rust Resistance ◽

Adult Plant

Powdery mildew, caused by Blumeria graminis f. sp. tritici (Bgt), is a fungal disease that causes significant yield losses in many wheat-growing regions of the world. Previously, five quantitative trait loci (QTLs) for adult-plant resistance (APR) to stripe rust resistance were identified in Italian wheat cultivar Libellula. The objectives of this study were to map QTLs for APR to powdery mildew in 244 F2 : 3 lines of Libellula/Huixianhong, to analyse the stability of detected QTLs across environments, and to assess the association of these QTLs with stripe rust resistance. Powdery mildew response was evaluated for 2 years in Beijing and for 1 year in Anyang. The correlation between averaged maximum disease severity (MDS) and averaged area under disease progress curve (AUDPC) over 2 years in Beijing was 0.98, and heritabilities of MDS and AUDPC were 0.65 and 0.81, respectively, based on the mean values averaged across environments. SSR markers were used to screen the parents and mapping population. Five QTLs were identified by inclusive composite interval mapping, designated as QPm.caas-2DS, QPm.caas-4BL.1, QPm.caas-6BL.1, QPm.caas-6BL.2, and QPm.caas-7DS. Three QTLs (QPm.caas-2DS and QPm.caas-6BL.1, and QPm.caas-6BL.2) seem to be new resistance loci for powdery mildew. QTLs QPm.caas-2DS and QPm.caas-4BL.1 were identified at the same position as previously mapped QTLs for stripe rust resistance in Libellula. The QTL QPm.caas-7DS, derived from Libellula, coincided with the slow rusting and slow mildewing locus Lr34/Yr18/Pm38. These results and the identified markers could be useful for wheat breeders aiming for durable resistance to both powdery mildew and stripe rust.

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