Identification of molecular markers linked to Fusarium ear rot genes in maize plants Zea mays L

M. N. Barakat; S. R. Bayoumi; M. M. Abdel-Rahman

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Identification of molecular markers linked to Fusarium ear rot genes in maize plants Zea mays L

机译：玉米中玉米镰刀菌腐烂基因相关分子标记的鉴定

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ABSTRACT Two maize populations (GE440 ???? Sd7 and NC300 ???? Gm1002) were used in this study. Molecular markers like simple sequence repeat (SSR) and sequence-tagged site (STS) were used to identify resistance genes linked to Fusarium ear rot ( Fusarium verticillioides ). Also, quantitative trait locus (QTL) mapping was used to detect resistance genes on maize chromosomes. The co-dominant microsatellite markers (bnlg1063, umc2082, bnlg1621, umc2013, bnlg1740, umc2059 and SSR85) and STS (STS06) were amplified polymorphic bands and candidate markers linked to Fusarium ear rot resistance genes in maize. Seven QTLs were identified ranging from 2 to 7 for each trait. QTLs were distributed on two chromosomes and associated with grain yield/main ear and 100 kernel weight. The present study indicated that microsatellite and STS primers might be useful for developing improved cultivars.

机译：摘要本研究使用了两个玉米种群（GE440→Sd7和NC300→Gm1002）。简单序列重复序列（SSR）和序列标记位点（STS）等分子标记用于鉴定与镰刀菌腐烂（Fusarium verticillioides）相关的抗性基因。同样，使用定量性状基因座（QTL）作图来检测玉米染色体上的抗性基因。将共显性微卫星标记（bnlg1063，umc2082，bnlg1621，umc2013，bnlg1740，umc2059和SSR85）和STS（STS06）扩增为多态性谱带，并选择了与玉米镰刀菌耐腐基因相关的候选标记。每个性状鉴定出七个QTL，范围从2至7。 QTL分布在两个染色体上，并与谷物产量/主穗和100粒重相关。本研究表明，微卫星和STS引物可能对开发改良的品种有用。

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《Biotechnology & Biotechnological Equipment》 |2016年第4期|共页
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M. N. Barakat; S. R. Bayoumi; M. M. Abdel-Rahman;
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1. Identification of molecular markers linked to Fusarium ear rot genes in maize plants Zea mays L [J] . M. N. Barakat, S. R. Bayoumi, M. M. Abdel-Rahman Biotechnology & Biotechnological Equipment . 2016,第4期

机译：玉米中玉米镰刀菌腐烂基因相关分子标记的鉴定
2. Fumonisin B(1)-nonproducing strains of Fusarium verticillioides cause maize (Zea mays) ear infection and ear rot. [J] . Desjardins AE, Plattner RD Journal of Agricultural and Food Chemistry . 2000,第11期

机译：Fumonisin B（1）-非生产性的镰孢镰刀菌菌株引起玉米（Zea mays）耳朵感染和耳腐。
3. Fumonisin B-1-nonproducing strains of Fusarium verticillioides cause maize (Zea mays) ear infection and ear rot [J] . Desjardins AE., Plattner RD. Journal of Agricultural and Food Chemistry . 2000,第11期

机译：不生产伏马毒素B-1的枯萎镰刀菌菌株引起玉米（Zea mays）耳部感染和腐烂
4. Construction of Molecular Marker Linkage Map and Genetic Analysis of Plant Height in Maize [C] . Yan J.B, Tang H, Huang Y.Q, Asian Regional Maize Workshop . 2004

机译：玉米植物高度分子标志互联地图及遗传分析的构建
5. Three-dimensional molecular cytological and genetic analysis of the SUN-domain (Sad1-Unc-84) proteins in maize (Zea mays, L.) meiosis; discovery of a novel plant SUN family, including SUN3, a candidate gene for the desynaptic1 (dy1) mutant [D] . Murphy, Shaun 2011

机译：玉米（Zea mays，L.）减数分裂中SUN结构域（Sad1-Unc-84）蛋白的三维分子细胞学和遗传分析；发现一种新型植物SUN家族，包括SUN3（desynaptic1（dy1）突变体的候选基因）
6. Identification Mapping and Molecular Marker Development for Rgsr8.1: A New Quantitative Trait Locus Conferring Resistance to Gibberella Stalk Rot in Maize (Zea mays L.) [O] . Qian Chen, Jun Song, Wen-Ping Du, -1

机译：Rgsr8.1的鉴定作图和分子标记开发：赋予玉米抗赤霉病茎秆新抗性的定量性状基因座
7. Identification of molecular markers linked to Fusarium ear rot genes in maize plants Zea mays L [O] . M. M. Abdel-Rahman, S. R. Bayoumi, M. N. Barakat 2016

机译：鉴定与玉米植物玉米穗腐病基因相关的分子标记Zea mays L.

Identification of molecular markers linked to Fusarium ear rot genes in maize plants Zea mays L

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