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定位图谱和鉴定影响燕麦脱氧雪腐镰刀菌烯醇(DON)含量(镰刀菌抗性)的 QTL。

Linkage mapping and identification of QTL affecting deoxynivalenol (DON) content (Fusarium resistance) in oats (Avena sativa L.).

出版信息

Theor Appl Genet. 2013 Oct;126(10):2655-70. doi: 10.1007/s00122-013-2163-0.

DOI:10.1007/s00122-013-2163-0
PMID:23959525
Abstract

Mycotoxins caused by Fusarium spp. is a major concern on food and feed safety in oats, although Fusarium head blight (FHB) is often less apparent than in other small grain cereals. Breeding resistant cultivars is an economic and environment-friendly way to reduce toxin content, either by the identification of resistance QTL or phenotypic evaluation. Both are little explored in oats. A recombinant-inbred line population, Hurdal × Z595-7 (HZ595, with 184 lines), was used for QTL mapping and was phenotyped for 3 years. Spawn inoculation was applied and deoxynivalenol (DON) content, FHB severity, days to heading and maturity (DH and DM), and plant height (PH) were measured. The population was genotyped with DArTs, AFLPs, SSRs and selected SNPs, and a linkage map of 1,132 cM was constructed, covering all 21 oat chromosomes. A QTL for DON on chromosome 17A/7C, tentatively designated as Qdon.umb-17A/7C, was detected in all experiments using composite interval mapping, with phenotypic effects of 12.2–26.6 %. In addition, QTL for DON were also found on chromosomes 5C, 9D, 13A, 14D and unknown_3, while a QTL for FHB was found on 11A. Several of the DON/FHB QTL coincided with those for DH, DM and/or PH. A half-sib population of HZ595, Hurdal × Z615-4 (HZ615, with 91 lines), was phenotyped in 2011 for validation of QTL found in HZ595, and Qdon.umb-17A/7C was again localized with a phenotypic effect of 12.4 %. Three SNPs closely linked to Qdon.umb-17A/7C were identified in both populations, and one each for QTL on 5C, 11A and 13A were identified in HZ595. These SNPs, together with those yet to be identified, could be useful in marker-assisted selection to pyramiding resistance QTL.

摘要

镰刀菌引起的霉菌毒素是燕麦食品和饲料安全的主要关注点,尽管赤霉病(FHB)通常不如其他小谷物明显。培育抗性品种是一种经济和环保的方法,可以通过鉴定抗性 QTL 或表型评估来降低毒素含量。这两种方法在燕麦中都很少被探索。使用重组自交系群体 Hurdal×Z595-7(HZ595,有 184 条线)进行 QTL 作图,并进行了 3 年的表型分析。进行了孢子接种,测量了脱氧雪腐镰刀菌烯醇(DON)含量、赤霉病严重程度、抽穗期和成熟期(DH 和 DM)以及株高(PH)。该群体使用 DArTs、AFLPs、SSR 和选定的 SNPs 进行了基因型分析,并构建了 1132cM 的连锁图谱,涵盖了燕麦的所有 21 条染色体。在所有实验中,使用复合区间作图检测到第 17A/7C 染色体上 DON 的 QTL,暂定命名为 Qdon.umb-17A/7C,表型效应为 12.2-26.6%。此外,还在第 5C、9D、13A、14D 和未知_3 染色体上检测到 DON 的 QTL,在第 11A 染色体上检测到赤霉病的 QTL。一些 DON/FHB QTL 与 DH、DM 和/或 PH 的 QTL 重合。HZ595 的半同胞群体 Hurdal×Z615-4(HZ615,有 91 条线)在 2011 年进行了表型分析,以验证 HZ595 中发现的 QTL,Qdon.umb-17A/7C 再次被定位,表型效应为 12.4%。在两个群体中都鉴定到与 Qdon.umb-17A/7C 紧密连锁的 3 个 SNP,在 HZ595 中还鉴定到 5C、11A 和 13A 上 QTL 的各 1 个 SNP。这些 SNP 以及尚未鉴定到的 SNP,可用于标记辅助选择以聚合抗性 QTL。

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