Characterization of wheat – <i>Psathyrostachys huashanica</i> small segment translocation line with enhanced kernels per spike and stripe rust resistance

Kang, Houyang; Zhang, Zhijuan; Xu, Lili; Qi, Weiliang; Yao, Tsuneyoshi; Wang, Hao; Zhu, Wei; Li, Daiyan; Zeng, Jian; Wang, Yi; Fan, Xing; Li, Sha; Zhang, Haiqin; Zhou, Yong‐Hong

doi:10.1139/gen-2015-0138

Cited by 23 publications

(27 citation statements)

References 43 publications

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“…Crosses between wheat and P. huashanica are relatively recent, and P. huashanica is significant among numerous species related to wheat because of its excellent agronomic characteristics. Several wheat-P. huashanica progeny lines were generated in previous studies, including disomic addition lines [33], disomic substitution lines [34], and small fragment translocation lines [17]. In our laboratory, 35 derived lines were developed by crossing common wheat 7182 with P. huashanica via embryo rescue culture and backcrossing, and these intermediate materials with different agronomic traits provide a suitable foundation for exploiting genes from P. huashanica.…”

Section: Discussionmentioning

confidence: 99%

“…A series of wheat-P. huashanica addition lines and substitution lines were then produced, as well as a new intergeneric amphiploid PHw-SA by treating the F 1 hybrid from a cross between wheat cv Kaixianluohanmai and P. huashanica with colchicine [15,16]. Based on these studies, a small fragment wheat-P. huashanica translocation line K-13-835-3 was developed from a BC 1 F 5 population of a cross between PHw-SA and wheat cv CN16, with attractive agronomic traits and high resistance to stripe rust was selected [17]. Zhang et al [18] conducted random amplified polymorphic DNA (RAPD) analysis using the genomic DNA from P. huashanica and common wheat, and characterized two novel sequence characterized amplified region (SCAR) markers called Psh-D15 270 and Psh-F19 558 , that were present only in the Ns genome.The use of resistance to powdery mildew found in P. huashanica to produce resistant wheat cultivars was mentioned rarely in previous studies.…”

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confidence: 99%

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A 1Ns Disomic Addition from Psathyrostachys Huashanica Keng Confers Resistance to Powdery Mildew in Wheat

Liu¹,

Hou²,

Li³

et al. 2020

Agronomy

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Powdery mildew is a fungal disease that threatens wheat production throughout the world. Breeding resistant cultivars is an effective way to reduce harm caused by powdery mildew. In this study, 35 wheat-Psathyrostachys huashanica-derived lines were developed by crossing common wheat and P. huashanica Keng (2n = 2x = 14, NsNs) using embryo culture. Resistance to powdery mildew in the derived lines was identified at the seedling and adult stages. Line H5-5-4-2 was selected with immunity to powdery mildew at both growth stages. The chromosome structure of this line was characterized by cytology, genomic in situ hybridization (GISH), and expressed sequence tag-sequence-tagged site (EST-STS) analysis. The chromosome configuration was 2n = 44 = 22II. Two P. huashanica chromosomes with strong hybridization signals were detected by GISH analysis. Among 83 EST-STS markers that covered all seven homologous groups in wheat, three pairs of STS markers, BE497584, BF202643, and BG262410, located in wheat homologous group 1 amplified clear specific bands related to P. huashanica. The results indicated that resistant line H5-5-4-2 was a wheat-P. huashanica 1Ns disomic addition line.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

A 1Ns Disomic Addition from Psathyrostachys Huashanica Keng Confers Resistance to Powdery Mildew in Wheat

Liu¹,

Hou²,

Li³

et al. 2020

Agronomy

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“…In addition, 2Ns, 3Ns, 4Ns, and 5Ns disomic addition lines and a 2Ns(2D) substitution line are resistant to stripe rust [13][14][15][16]18]. A 6Ns disomic addition line and a small segment translocation line possess twin spikelets and more kernels per spike than its wheat parent [13,21], and a 7Ns disomic addition line showed high resistance to leaf rust [12]. However, only a few wheat-P. huashanica translocation lines are available for breeding despite its importance.…”

Section: Discussionmentioning

confidence: 99%

“…The colchicine treated H811 was crossed and backcrossed to 7182 to get heptaploid hybrid H8911 (2n = 49, AABBDDNs). Subsequently, H8911 was then backcrossed to 7182 or crossed to several other wheat cultivars, and generated a series of wheat-P. huashanica derived lines including wheat-P. huashanica 1Ns-7Ns disomic addition lines [12][13][14][15][16][17], 2Ns(2D) disomic substitution line [18], 5Ns(5D) disomic substitution line [19], and translocation lines [20,21]. These wheat-P. huashanica derived lines have more desired agronomic traits than their wheat parents, demonstrating that P. huashanica is a useful wild relative for wheat improvement.…”

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confidence: 99%

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Molecular cytogenetic characterization of a novel wheat–Psathyrostachys huashanica Keng T3DS-5NsL•5NsS and T5DL-3DS•3DL dual translocation line with powdery mildew resistance

Zhao

Cheng

et al. 2020

BMC Plant Biol

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Background: Psathyrostachys huashanica Keng (2n = 2x = 14, NsNs) carries many outstanding agronomic traits, therefore is a valuable resource for wheat genetic improvement. Wheat-P. huashanica translocation lines are important intermediate materials for wheat breeding and studying the functions of alien chromosomes. However, powdery mildew resistance in these translocation lines has not been reported previously.Results: This study developed a novel wheat-P. huashanica translocation line TR77 by selecting a F 7 progeny from the cross between heptaploid hybrid H8911 (2n = 7x = 49, AABBDDNs) and durum wheat line Trs-372. Chromosome karyotype of 2n = 42 = 21II was observed in both mitotic and meiotic stages of TR77. Genomic in situ hybridization analysis identified two translocated chromosomes that paired normally at meiosis stage in TR77. Molecular marker analysis showed that part of chromosome 5D was replaced by part of alien chromosome fragment 5Ns. It meant replacement made part 5DL and part 5NsL·5NsS existed in wheat background, and then translocation happened between these chromosomes and wheat 3D chromosome. Fluorescence in situ hybridization demonstrated that TR77 carries dual translocations: T3DS-5NsL·5NsS and T5DL-3DS·3DL. Analysis using a 15 K-wheat-SNP chip confirmed that SNP genotypes on the 5D chromosome of TR77 matched well with these of P. huashanica, but poorly with common wheat line 7182. The translocation was physically located between 202.3 and 213.1 Mb in 5D. TR77 showed longer spikes, more kernels per spike, and much better powdery mildew resistance than its wheat parents: common wheat line 7182 and durum wheat line Trs-372.(Continued on next page)

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Deletion mapping and verification of an enhanced-grain number per spike locus from the 6PL chromosome arm of Agropyron cristatum in common wheat

et al. 2019

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Characterization of wheat – Psathyrostachys huashanica small segment translocation line with enhanced kernels per spike and stripe rust resistance

Cited by 23 publications

References 43 publications

A 1Ns Disomic Addition from Psathyrostachys Huashanica Keng Confers Resistance to Powdery Mildew in Wheat

A 1Ns Disomic Addition from Psathyrostachys Huashanica Keng Confers Resistance to Powdery Mildew in Wheat

Molecular cytogenetic characterization of a novel wheat–Psathyrostachys huashanica Keng T3DS-5NsL•5NsS and T5DL-3DS•3DL dual translocation line with powdery mildew resistance

Deletion mapping and verification of an enhanced-grain number per spike locus from the 6PL chromosome arm of Agropyron cristatum in common wheat

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