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普通小麦品种坤丹中成年植株对叶锈病和条锈病抗性基因座的鉴定与定位

Identification and Mapping of Adult Plant Resistance Loci to Leaf Rust and Stripe Rust in Common Wheat Cultivar Kundan.

作者信息

Ren Y, Singh R P, Basnet B R, Lan C X, Huerta-Espino J, Lagudah E S, Ponce-Molina L J

机构信息

Mianyang Institute of Agricultural Science/Mianyang Branch of National Wheat Improvement Center, Mianyang 621023, Sichuan, China.

International Maize and Wheat Improvement Center (CIMMYT), 06600 México D.F., Mexico.

出版信息

Plant Dis. 2017 Mar;101(3):456-463. doi: 10.1094/PDIS-06-16-0890-RE. Epub 2017 Jan 12.

DOI:10.1094/PDIS-06-16-0890-RE
PMID:30677352
Abstract

Leaf rust (LR) and stripe rust (YR) are important diseases of wheat worldwide. We used 148 recombinant inbred lines (RIL) from the cross of Avocet × Kundan for determining and mapping the genetic basis of adult plant resistance (APR) loci. The population was phenotyped LR and YR for three seasons in field trials conducted in Mexico and genotyped with the diversity arrays technology sequencing (DArT-Seq) and simple sequence repeat markers. The final genetic map was constructed using 2,937 polymorphic markers with an average distance of 1.29 centimorgans between markers. Inclusive composite interval mapping identified two co-located APR quantitative trait loci (QTL) for LR and YR, two LR QTL, and three YR QTL. The co-located resistance QTL on chromosome 1BL corresponded to the pleiotropic APR gene Lr46/Yr29. QLr.cim-2BL, QYr.cim-2AL, and QYr.cim-5AS could be identified as new resistance loci in this population. Lr46/Yr29 contributed 49.5 to 65.1 and 49.2 to 66.1% of LR and YR variations, respectively. The additive interaction between detected QTL showed that LR severities for RIL combining four QTL ranged between 5.3 and 25.8%, whereas the lowest YR severities were for RIL carrying QTL on chromosomes 1BL + 2AL + 6AL. The high-density DArT-Seq markers across chromosomes can be used in fine mapping of the targeted loci and development SNP markers.

摘要

叶锈病(LR)和条锈病(YR)是全球小麦的重要病害。我们利用Avocet×Kundan杂交产生的148个重组自交系(RIL)来确定和定位成株抗性(APR)位点的遗传基础。在墨西哥进行的田间试验中,对该群体连续三个季节进行叶锈病和条锈病表型鉴定,并使用多样性阵列技术测序(DArT-Seq)和简单序列重复标记进行基因分型。最终构建的遗传图谱使用了2937个多态性标记,标记间平均距离为1.29厘摩。包容性复合区间作图法鉴定出两个叶锈病和条锈病共定位的APR数量性状位点(QTL)、两个叶锈病QTL和三个条锈病QTL。1BL染色体上共定位的抗性QTL对应于多效性APR基因Lr46/Yr29。QLr.cim-2BL、QYr.cim-2AL和QYr.cim-5AS可被鉴定为该群体中的新抗性位点。Lr46/Yr29分别解释了叶锈病和条锈病变异的49.5%至65.1%和49.2%至66.1%。检测到的QTL之间的加性互作表明,携带四个QTL的RIL的叶锈病严重度在5.

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