Assessment of Genes Controlling Area under Disease Progress Curve (AUDPC) for Stripe Rust (P. Striiformis F. Sp. Tritici) in Two Wheat (Triticum Aestivum L.) Crosses

M. Irfaq; Mir Ajab; Ma Hongxiang; GSS Khattak

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Assessment of Genes Controlling Area under Disease Progress Curve (AUDPC) for Stripe Rust (P. Striiformis F. Sp. Tritici) in Two Wheat (Triticum Aestivum L.) Crosses

机译：两种小麦（Triticum Aestivum L.）杂交小麦条锈病（P. Striiformis F. Sp。Tritici）病程曲线（AUDPC）下基因控制区的评估

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Genetic effects on controlling stripe rust resistance were determined in two wheat crosses, Bakhiawar-92 × Frontana (cross 1) and Inqilab-91 × Fakhre Sarhad (cross 2) using Area under Disease Progress Curve (AUDPC) as a measure of stripe rust resistance. The resistant and susceptible genotypes for crosses were identified by initial assessment of 45 wheat accessions for stripe rust resistance. Mixed inheritance model was applied to the data analysis of six basic populations P_1, F_1, P_2, B_1, B_2, and F_2 in the crosses. The results indicated that AUDPC in cross 1 was controlled by two major genes with additive-dominance epistatic effect plus polygenes with additive-dominance epistatic effects (model E). Whereas in case of cross 2, it was under the control of two major genes with additive-dominance epistatic effect plus additive-dominant polygenes (model E-1). Additive effect was predominant then all other types of genetic effects suggesting the delay in selection for resistance till maximum positive genes are accumulated in the individuals of subsequent generations. Occurrence of trans-gressive segregants for susceptibility and resistance indicated the presence of resistance as well as some negative genes for resistance in the parents. The major gene heritability was higher than the polygene heritabilily in B_1, B_2 and F_2 for the crosses. The major gene as well as the polygene heritability was ranging from 48.99 to 87.12% and 2.26 and 36.80% for the two crosses respectively. The highest phenotypic variations in AUDPC (2504.10 to 5833.14) for segregating progenies (BC_1, BC_2 and F_2) represent that the character was highly influenced by the environment.

机译：使用疾病进展曲线下面积（AUDPC）作为条带抗性的度量标准，测定了两个小麦杂交品种Bakhiawar-92×Frontana（交叉1）和Inqilab-91×Fakhre Sarhad（交叉2）对控制条带抗锈性的遗传效应。。通过初步评估45种小麦的条纹锈病抗性，鉴定出了抗性和易感基因型。将混合遗传模型应用于十字架上六个基本种群P_1，F_1，P_2，B_1，B_2和F_2的数据分析。结果表明，杂交1中的AUDPC受两个具有加性显性上位效应的主基因和具有加性显性上位效应的多基因控制（模型E）。而在杂交2的情况下，它受两个具有加性显性上位效应和加性显性多基因（E-1型）的主要基因的控制。然后是所有其他类型的遗传效应，主要是累加效应，这表明抗药性的选择要延迟，直到后代的个体中积累最大的阳性基因为止。侵袭性隔离株的易感性和耐药性的出现表明父母中存在耐药性以及一些耐药性阴性基因。杂交后代B_1，B_2和F_2的主要基因遗传力均高于多基因。两个杂交的主要基因和多基因遗传力分别为48.99％至87.12％和2.26％和36.80％。分离子代（BC_1，BC_2和F_2）的AUDPC中最大的表型变异（2504.10至5833.14）表明该字符受环境的影响很大。

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《Cytology and genetics》 |2009年第4期|241-252|共12页
作者
M. Irfaq; Mir Ajab; Ma Hongxiang; GSS Khattak;
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Crop Breeding Division, Nuclear Institute for Food and Agriculture (NIFA), Peshawar, N. W.F.P., Pakistan;

Faculty of Plant Science, Department of Biological Sciences, Quaid-i-Azam University, Islamabad, Pakistan;

Crop Breeding Division, Nuclear Institute for Food and Agriculture (NIFA), Peshawar, N. W.F.P., Pakistan;

Institute of Biotechnology, Jiangsu Academy of Agricultural Sciences, Nanjing, Jiangsu, PR. China;

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1. Genetic Behavior of Controlling Area Under Disease Progress Curve for Stripe Rust (Puccinia striiformis f. sp tritici) in Two Wheat (Triticum aestivum) Crosses [J] . Irfaq Muhammad, Ajab Mir, Khattak Gul Sanat Shah, Phytopathology . 2009,第11期

机译：两个小麦（Triticum aestivum）杂交小麦条锈病（Puccinia striiformis f。sp tritici）病程曲线下控制区的遗传行为
2. A Genome-Wide Association Study of Resistance to Stripe Rust (Puccinia striiformis f. sp. tritici) in a Worldwide Collection of Hexaploid Spring Wheat (Triticum aestivum L.) [J] . Marco Maccaferri, Junli Zhang, Peter Bulli, G3: Genes, Genomes, Genetics . 2015,第3期

机译：全球范围内对六倍体春小麦（Triticum aestivum L.）的条纹锈病（Puccinia striiformis f。sp。tritici）抗性的全基因组关联研究。
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机译：确定QTL对春小麦（Triticum aestivum L.）栽培品种Louise'的高温成年植物对条锈病（Puccinia striiformis f.sp.tritici）的抗性
4. Map-based isolation of the leaf rust disease resistance gene LrlO from the hexaploid wheat (Triticum aestivum L.) genome [C] . C. Feuillet, S. Travella, N. Stein, International Wheat Genetics Symposium . 2003

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5. Mapping High-Temperature Adult-Plant Resistance to Stripe Rust (Puccinia Striiformis) in Spring Wheat (Triticum Aestivum) and Characterization of Their Interaction on a Molecular Level [D] . Nazarov, Taras. 2017

机译：高温成年植物对春小麦（小麦）条锈病（Puccinia striiformis）的抗性定位及其相互作用的分子水平表征
6. A Genome-Wide Association Study of Resistance to Stripe Rust (Puccinia striiformis f. sp. tritici) in a Worldwide Collection of Hexaploid Spring Wheat (Triticum aestivum L.) [O] . Marco Maccaferri, Junli Zhang, Peter Bulli, 2015

机译：全球范围内对六倍体春小麦（Triticum aestivum L.）的条纹锈病（Puccinia striiformis f。sp。tritici）抗性的全基因组关联研究。
7. Assessment of genes controlling Area Under Disease Progress Curve (AUDPC) for stripe rust (P. striiformis f. sp. Tritici) in two wheat (Triticum aestivum L.) crosses [O] . Irfaq M., Mir Ajab, Ma Hongxiang, 2009

机译：对两个小麦（Triticum aestivum L.）杂交小麦条锈病（P. striiformis f。sp。Tritici）的疾病进展曲线（AUDPC）控制区基因的评估

Assessment of Genes Controlling Area under Disease Progress Curve (AUDPC) for Stripe Rust (P. Striiformis F. Sp. Tritici) in Two Wheat (Triticum Aestivum L.) Crosses

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