利用“永久F2”群体定位抗赤霉病QTL

doi:10.3724/SP.J.1006.2008.00539

作物学报 ›› 2008, Vol. 34 ›› Issue (04): 539-544.doi: 10.3724/SP.J.1006.2008.00539

• 作物遗传育种·种质资源·分子遗传学 • 下一篇

利用“永久F₂”群体定位抗赤霉病QTL

田大刚;林峰;张彩琴;张政值;薛树林;曹勇;李春军;马正强*

应用植物基因组学实验室和南京农业大学作物遗传与种质创新国家重点实验室, 江苏南京210095

收稿日期:2007-11-14 修回日期:1900-01-01 出版日期:2008-04-12 网络出版日期:2008-04-12
通讯作者: 马正强

Mapping QTLs Associated with Resistance to Fusarium Head Blight Using an “Immortalized F₂” Population

TIAN Da-Gang,LIN Feng,ZHANG Cai-Qin,ZHANG Zheng-Zhi, XUE Shu-Lin,CAO Yong,LI Chun-Jun,MA Zheng-Qiang *

Laboratory of Applied Plant Genomics and the National Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Nanjing 210095, Jiangsu, China

Received:2007-11-14 Revised:1900-01-01 Published:2008-04-12 Published online:2008-04-12
Contact: MA Zheng-Qiang

摘要/Abstract

摘要：

为了研究抗赤霉病侵染性的遗传, 利用感赤霉病品种南大2419和抗赤霉病品种望水白杂交单粒传获得的重组自交系群体132个株系间的随机配对组合, 构建了一个包含198个株系的“永久F2”群体。通过两年抗侵染田间试验和QTL作图, 定位了6个抗侵染QTL, 其中抗性等位位点源于望水白的Qfhi.nau-4B和Qfhi.nau-5A以及源于南大2419的Qfhi.nau-2B的效应较为稳定。Qfhi.nau-4B和Qfhi.nau-5A的效应较大且以加性效应为主, 前者存在部分显性基因效应。此外, 还检测到4对显著的互作位点。这些结果进一步说明赤霉病抗性遗传的复杂性, 同时也表明在利用望水白进行抗赤霉病育种时早代选择抗侵染性是可行的。

关键词: 赤霉病, 望水白, “永久F₂”群体, 类型I抗性

Abstract: Fusarium head blight (FHB) or scab disease, caused by Gibberrella zeae (Schw.) Petch, is a serious disease in many wheat (Triticum aestivum L.) growing regions worldwide. To study the inheritance of scab resistance against fungal penetration (type I resistance), an 198 lines “immortalized F₂”population was constructed by crossing between recombinant inbred lines chosen by random permutation of 132 RILs from the RIL population derived from the cross between scab-susceptible cultivar Nanda 2419 and scab-resistant cultivar Wangshuibai. The population were then evaluated for percentage of infected spikes (PIS) across two years and six chromosome regions were detected for their association with type I resistance through interval mapping, among which Qfhi.nau-4B and Qfhi.nau-5A with the resistance alleles originated from Wangshuibai and Qfhi.nau-2B with the resistance allele from Nanda 2419 were consistently detected. Qfhi.nau-4B and Qfhi.nau-5A had the largest effects among the detected QTLs and both showed mainly the additive allelic effects, the former also had partial dominance. In addition, four pairs of significant interaction loci were identified. These results further demonstrate that wheat scab resistance are under complex genetic control and also imply that early generation selection for type I resistance in scab resistance breeding is feasible with Wangshuibai as the parent.

Key words: Fusarium head blight, Wangshuibai, “Immortalized F₂” population, Type I resistance

田大刚;林峰;张彩琴;张政值;薛树林;曹勇;李春军;马正强. 利用“永久F₂”群体定位抗赤霉病QTL[J]. 作物学报, 2008, 34(04): 539-544.

TIAN Da-Gang;LIN Feng;ZHANG Cai-Qin;ZHANG Zheng-Zhi; XUE Shu-Lin;CAO Yong;LI Chun-Jun;MA Zheng-Qiang. Mapping QTLs Associated with Resistance to Fusarium Head Blight Using an “Immortalized F₂” Population[J]. Acta Agron Sin, 2008, 34(04): 539-544.

参考文献

相关文章 15

[1]	陈同睿, 罗艳君, 赵潘婷, 贾海燕, 马正强. 过表达TaJRL53基因提高了小麦赤霉病抗性[J]. 作物学报, 2021, 47(1): 19-29.
[2]	胡文静,张勇,陆成彬,王凤菊,刘金栋,蒋正宁,王金平,朱展望,徐小婷,郝元峰,何中虎,高德荣. 小麦品种扬麦16赤霉病抗扩展QTL定位及分析[J]. 作物学报, 2020, 46(02): 157-165.
[3]	张晓军,肖进,王海燕,乔麟轶,李欣,郭慧娟,常利芳,张树伟,阎晓涛,畅志坚,武宗信. 小偃麦衍生品系的赤霉病抗性评价[J]. 作物学报, 2020, 46(01): 62-73.
[4]	王林生,张雅莉,南广慧. 普通小麦-大赖草易位系T5AS-7LrL·7LrS分子细胞遗传学鉴定[J]. 作物学报, 2018, 44(10): 1442-1447.
[5]	朱展望, 徐登安, 程顺和, 高春保, 夏先春, 郝元峰, 何中虎. 中国小麦品种抗赤霉病基因Fhb1的鉴定与溯源[J]. 作物学报, 2018, 44(04): 473-482.
[6]	张宏军, 宿振起, 柏贵华, 张旭, 马鸿翔, 李腾, 邓云, 买春艳, 于立强, 刘宏伟, 杨丽, 李洪杰, 周阳. 利用Fhb1基因功能标记选择提高黄淮冬麦区小麦品种对赤霉病的抗性[J]. 作物学报, 2018, 44(04): 505-511.
[7]	李韬*,郑飞,秦胜男,李磊,顾世梁. 小麦–黑麦易位系T1BL•1RS在小麦品种中的分布及其与小麦赤霉病抗性的关联[J]. 作物学报, 2016, 42(03): 320-329.
[8]	杨在东,马信,吴世文,王宏伟,孙鑫,冀宪领,李安飞,孔令让. 小麦NPR1-like基因的克隆及赤霉菌诱导下的表达分析[J]. 作物学报, 2013, 39(10): 1775-1782.
[9]	陈士强,秦树文,黄泽峰,戴毅,张璐璐,高营营,高勇,陈建民. 基于SLAF-seq技术开发长穗偃麦草染色体特异分子标记[J]. 作物学报, 2013, 39(04): 727-734.
[10]	崔承齐,王林生,陈佩度. 普通小麦–大赖草易位系T7BS•7Lr#1S和T2AS•2AL-7Lr#1S的分子细胞遗传学鉴定[J]. 作物学报, 2013, 39(02): 191-197.
[11]	周淼平，杨学明，姚金保，任丽娟，张增艳，马鸿翔. 转Gastrodianin基因提高小麦赤霉病和纹枯病的抗性[J]. 作物学报, 2012, 38(09): 1617-1624.
[12]	刘欣, 蔡士宾, 张伯桥, 周淼平, 路妍, 吴继中, 杜丽璞, 李斯深, 臧淑江, 张增艳. 抗纹枯病、赤霉病的转TaPIEP1基因小麦的分子鉴定与选育[J]. 作物学报, 2011, 37(07): 1144-1150.
[13]	裴自友;贾高峰;亓增军;庄丽芳;冯祎高;王秀娥;陈佩度;刘大钧. 普通小麦籽粒DON含量的配合力分析[J]. 作物学报, 2007, 33(05): 731-737.
[14]	张凯鸣;马鸿翔;陆维忠;蔡志翔;陈怀谷;袁生. 小麦赤霉病与DON积累的抗性及其相关SSR位点差异[J]. 作物学报, 2006, 32(12): 1788-1795.
[15]	叶兴国; Shirley Sato;徐惠君;杜丽璞;黄益洪;陆维忠;Tom Clemente. BCL、RIP细胞凋亡基因向小麦中的导入和赤霉病抗性鉴定[J]. 作物学报, 2005, 31(11): 1389-1393.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

利用“永久F₂”群体定位抗赤霉病QTL

Mapping QTLs Associated with Resistance to Fusarium Head Blight Using an “Immortalized F₂” Population

PDF

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 0

关于本刊

在线期刊

作者中心

相关单位

联系我们