Development and characterization of a wheat–Leymus mollis Lm#7Ns disomic addition line with resistance to stripe rust

Leymus mollis (Trin.) Pilg. (2n = 4x = 28, NsNsXmXm) possesses a number of valuable genes against biotic and abiotic stress, which could be transferred into common wheat background for wheat improvement. In the present study, we determined the karyotypic constitution of a wheat – L. mollis double disomic addition line, M11003-4-4-1-1, selected from the F5 progeny of a stable wheat – L. mollis derivative M39 (2n = 56) × Triticum aestivum cultivar 7182, by morphological and cytogenetic identification, GISH (genomic in situ hybridization), FISH (fluorescent in situ hybridization), molecular markers analysis, and stripe rust resistance evaluation. Cytological studies demonstrated that M11003-4-4-1-1 had a chromosome karyotype of 2n = 46 with 23 bivalents, while GISH and FISH analysis indicated that this line contained 42 common wheat chromosomes and two pairs of L. mollis chromosomes. DNA markers showed that the alien chromosomes from L. mollis belonged to homoeologous groups 5 and 6. Evaluation of the agronomic traits revealed that M11003-4-4-1-1 was resistant to stripe rust at the adult stage, while the plant height was reduced and the 1000-grain weight was increased significantly. Therefore, the new line M11003-4-4-1-1 could be exploited as an important bridge material in chromosome engineering and wheat breeding.

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Characterization of a wheat-Psathyrostachys huashanica Keng 4Ns disomic addition line for enhanced tiller numbers and stripe rust resistance

Planta ◽

10.1007/s00425-013-1957-2 ◽

2013 ◽

Vol 239 (1) ◽

pp. 97-105 ◽

Cited By ~ 38

Author(s):

Wanli Du ◽

Jing Wang ◽

Min Lu ◽

Shugui Sun ◽

Xinhong Chen ◽

...

Keyword(s):

Stripe Rust ◽

Rust Resistance ◽

Stripe Rust Resistance ◽

Addition Line ◽

Psathyrostachys Huashanica ◽

Disomic Addition Line

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Molecular characterization of a wheat–Psathyrostachys huashanica Keng 2Ns disomic addition line with resistance to stripe rust

Molecular Genetics and Genomics ◽

10.1007/s00438-014-0844-2 ◽

2014 ◽

Vol 289 (5) ◽

pp. 735-743 ◽

Cited By ~ 14

Author(s):

Wanli Du ◽

Jing Wang ◽

Liangming Wang ◽

Jun Wu ◽

Jixin Zhao ◽

...

Keyword(s):

Molecular Characterization ◽

Stripe Rust ◽

Addition Line ◽

Psathyrostachys Huashanica ◽

Disomic Addition Line

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Isolation and characterization of a wheat – Psathyrostachys huashanica ‘Keng’ 3Ns disomic addition line with resistance to stripe rust

Genome ◽

10.1139/gen-2013-0199 ◽

2014 ◽

Vol 57 (1) ◽

pp. 37-44 ◽

Cited By ~ 12

Author(s):

Wanli Du ◽

Jing Wang ◽

Yuhui Pang ◽

Liangming Wang ◽

Jun Wu ◽

...

Keyword(s):

Stripe Rust ◽

Agronomic Traits ◽

Addition Line ◽

Homoeologous Group ◽

Psathyrostachys Huashanica ◽

Disomic Addition Line ◽

Multiple Loci ◽

Isolation And Characterization ◽

Group 3 ◽

Alien Chromatin

We isolated a wheat germplasm line, 22-2, which was derived from common wheat (Triticum aestivum ‘7182’) and Psathyrostachys huashanica ‘Keng’ (2n = 2x = 14, NsNs). Genomic composition and homoeologous relationships of 22-2 was analyzed using cytology, genomic in situ hybridization (GISH), EST–SSR, and EST–STS to characterize the alien chromatin in the transfer line. The cytological investigations showed that the chromosome number and configuration were 2n = 44 = 22 II. Mitotic and meiotic GISH using P. huashanica genomic DNA as the probe indicated that 22-2 contained a pair of P. huashanica chromosomes. The genomic affinities of the introduced P. huashanica chromosomes were determined by EST–SSR and EST–STS using multiple-loci markers from seven wheat homoeologous groups between the parents and addition line. One EST–SSR and 17 EST–STS markers, which were located on the homoeologous group 3 chromosomes of wheat, amplified polymorphic bands in 22-2 that were unique to P. huashanica. Thus, these markers suggested that the introduced Ns chromosome pair belonged to homoeologous group 3, so we designated 22-2 as a 3Ns disomic addition line. Based on disease reaction to mixed races (CYR31, CYR32, and Shuiyuan14) of stripe rust in the adult stages, 22-2 was found to have high resistance to stripe rust, which was possibly derived from its P. huashanica parent. Consequently, the new disomic addition line 22-2 could be a valuable donor source for wheat improvement depending on the excellent agronomic traits, especially, the introduction of novel disease resistance genes into wheat during breeding programs.

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Isolation and molecular cytogenetic characterization of a wheat – Leymus mollis double monosomic addition line and its progenies with resistance to stripe rust

Genome ◽

10.1139/gen-2017-0078 ◽

2017 ◽

Vol 60 (12) ◽

pp. 1029-1036 ◽

Cited By ~ 2

Author(s):

Xiaofei Yang ◽

Xin Li ◽

Changyou Wang ◽

Chunhuan Chen ◽

Zengrong Tian ◽

...

Keyword(s):

In Situ Hybridization ◽

Stripe Rust ◽

Rust Resistance ◽

Stripe Rust Resistance ◽

Addition Line ◽

Cytogenetic Characterization ◽

Monosomic Addition ◽

Monosomic Addition Line ◽

Leymus Mollis

A common wheat – Leymus mollis (2n = 4x = 28, NsNsXmXm) double monosomic addition line, M11003-4-3-8/13/15 (2n = 44 = 42T.a + L.m2 + L.m3), with stripe rust resistance was developed (where T.a represents Triticum aestivum chromosome, L.m represents L. mollis chromosome, and L.m2/3 represents L. mollis chromosome of homoeologous groups 2 and 3). The progenies of line M11003-4-3-8/13/15 were characterized by cytological observation, specific molecular markers, fluorescence in situ hybridization (FISH), and genomic in situ hybridization (GISH). Among the progenies, there existed five different types (I, II, III, IV, and V) of chromosome constitution, the formulas of which were 2n = 44 = 42T.a + 1L.m2 + 1L.m3, 2n = 43 = 42T.a + 1L.m2, 2n = 43 = 42T.a + 1L.m3, 2n = 42 = 42T.a, and 2n = 44 = 42T.a + 2L.m2, respectively. Field disease screening showed that types I and III showed high resistance to stripe rust, while types II, IV, and V were susceptible. Leymus mollis was almost immune to stripe rust, whereas the wheat parent, cultivar 7182, was susceptible. Therefore, we concluded that the stripe rust resistance originated from L. mollis. These various lines could be further fully exploited as important disease resistance materials to enrich wheat genetic resources.

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