Characterization of the wheat-tetraploid Thinopyrum elongatum 7E(7D) substitution line with Fusarium head blight resistance.

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-26 DOI:10.1186/s12870-024-05703-3

Dandan Wu, Fei Wang, Linfeng Chen, Yuanwen Mao, Yinghui Li, Wei Zhu, Lili Xu, Yazhou Zhang, Yi Wang, Jian Zeng, Yiran Cheng, Lina Sha, Xing Fan, Haiqin Zhang, Yonghong Zhou, Houyang Kang

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Abstract

Background: Fusarium head blight (FHB), a devastating disease of wheat production, is predominantly elicited by Fusarium graminearum (Fg). The tetraploid Thinopyrum elongatum is a tertiary gene resource of common wheat that possesses high affinity and displays high resistance traits against multiple biotic and abiotic stress. We aim to employ and utilize the novel FHB resistance resources from the wild germplasm of common wheat for breeding.

Results: Durum wheat-tetraploid Th. elongatum amphiploid 8801 was hybridized with common wheat cultivars SM482 and SM51, and the F₅ generation was generated. We conducted cytogenetically in situ hybridization (ISH) technologies to select and confirm a genetically stable 7E(7D) substitution line K17-1069-5, which showed FHB expansion resistance in both field and greenhouse infection experiments and displayed no significant disadvantage in agronomic traits compared to their common wheat parents in the field. The F₂ segregation populations (K17-1069-5 × SM830) showed that the 7E chromosome conferred dominant FHB resistance with dosage effect. We developed 19 SSR molecular markers specific to chromosome 7E, which could be conducted for genetic mapping and large breeding populations marker-assisted selection (MAS) during selection procedures in the future. We isolated a novel Fhb7 allele from the tetraploid Th. elongatum chromosome 7E (Chr7E) using homology-based cloning, which was designated as TTE7E-Fhb7.

Conclusions: In summary, our study developed a novel wheat-tetraploid Thinopyrum elongatum 7E(7D) K17-1069-5 substitution line which contains stable FHB resistance.

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具有抗镰刀菌头疫病能力的小麦-四倍体 Thinopyrum elongatum 7E(7D) 替代系的特征。

背景：镰刀菌头枯病（FHB）是小麦生产中的一种毁灭性病害，主要由禾谷镰刀菌（Fg）引起。四倍体 Thinopyrum elongatum 是普通小麦的三级基因资源，对多种生物和非生物胁迫具有高亲和性和高抗性。我们的目标是将普通小麦野生种质中的新型 FHB 抗性资源用于育种：结果：将硬质小麦-四倍体Th.我们通过细胞遗传原位杂交（ISH）技术筛选并确认了一个遗传稳定的7E(7D)替代品系K17-1069-5，该品系在田间和温室感染实验中均表现出抗FHB扩展性，与普通小麦亲本相比，其农艺性状在田间没有明显劣势。F2 分离群体（K17-1069-5 × SM830）表明，7E 染色体具有剂量效应，能赋予小麦显性 FHB 抗性。我们开发了 19 个特异于 7E 染色体的 SSR 分子标记，可用于遗传图谱绘制和大型育种群体的标记辅助选择（MAS）。我们利用基于同源克隆的方法从四倍体Th.elongatum染色体7E（Chr7E）中分离出了一个新的Fhb7等位基因，并将其命名为TTE7E-Fhb7：综上所述，我们的研究培育出了一个新型的小麦-四倍体 Thinopyrum elongatum 7E(7D) K17-1069-5 替换品系，该品系具有稳定的 FHB 抗性。

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.