利用标记辅助选择技术进行抗条锈病育种,评估小麦基因型的有效性"。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Atef A Shahin, Reda I Omara, Hend A Omar, Heba Saad El-Din, Mohamed D Sehsah, Tarek Essa, Marwa A Zayton, Hanaa S Omar
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引用次数: 0

摘要

由条锈病菌(Puccinia striiformis f. sp. tritici)诱发的条锈病是全球温带地区最有害、最普遍的病害,影响着全球的小麦产区。控制该病害的有效策略是通过埃及的育种工作提高小麦对条锈病的遗传抗性,而埃及此前并未对小麦基因型进行育种。利用标记辅助选择方法评估了 38 个小麦基因型对条锈病的抗性水平。调查表明,小麦育种计划可以利用慢锈性 Yr 基因这种有效的抗性基因,通过标记辅助育种来培育具有条锈病抗性的新型基因型。根据所研究的小麦基因型对四种病害的反应,结果将基因型分为三组。第一组包括抗病基因型,第二组表现出慢锈病特征,病害症状发生率最低,最后一组在三个季节中病害特征发生率最高,包括快锈病基因型。鉴定出的抗锈病基因有 Yr5、Yr9、Yr10、Yr15、Yr17、Yr18、Yr26、Yr29、Yr30 和 Yr36。所有基因型中都有 Yr26、Yr30 和 Yr36 基因。基因型 Misr3、Misr4、Giza168、Giza167、Giza170、Giza171、Gemmeiza9 和 Gemmeiza10 带有 Yr9 基因。只有一个基因型 Sids13 带有 Yr17 基因。在 Sids14、Giza168、Giza170、Gemmeiza9 和 Gemmeiza10 中发现了 Yr18 和 Yr29 基因。然而,没有一个小麦基因型显示存在 Yr5、Yr10 或 Yr15。为了将 Yr5 和 Yr10 基因引入易感基因型(Misr1、Misr2 和 Gemmeiza11),进行了几代回交。这些基因型在全球都有种植,以生产优质面粉而闻名,因此对农民来说非常重要。这项研究表明,提高小麦基因型的条锈病抗性和增产潜力巨大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of effectiveness resistance genes in wheat genotypes using marker-assisted selection for stripe rust resistance breeding".

Stripe rust, induced by Puccinia striiformis f. sp. tritici, is the most harmful and prevalent disease in temperate regions worldwide, affecting wheat production areas globally. An effective strategy for controlling the disease involves enhancing genetic resistance against stripe rust, achieved through Egyptian breeding efforts not previously conducted on wheat genotypes. The resistance level to stripe rust in thirty-eight wheat genotypes was assessed using marker-assisted selection methods. The investigation suggests that wheat breeding programs can utilize slow-rusting Yr genes, which are effective resistance genes, to develop novel genotypes with stripe rust resistance through marker-assisted breeding. Based on the four disease responses of the wheat genotypes under investigation, the results categorized the genotypes into three groups. The first group included resistant genotypes, the second group exhibited a slow-rusting character with the lowest disease symptom rates, and the last group displayed the highest disease characteristics rates throughout the three seasons, comprising fast-rusting genotypes. The rust-resistant genes identified were Yr5, Yr9, Yr10, Yr15, Yr17, Yr18, Yr26, Yr29, Yr30, and Yr36. Genes Yr26, Yr30, and Yr36 were present in all genotypes. Genotypes Misr3, Misr4, Giza168, Giza167, Giza170, Giza171, Gemmeiza9, and Gemmeiza10 carried the Yr9 gene. Only one genotype, Sids13, was found to have the Yr17 gene. Genes Yr18 and Yr29 were identified in Sids14, Giza168, Giza170, Gemmeiza9, and Gemmeiza10. However, none of the wheat genotypes showed the presence of Yr5, Yr10, or Yr15. Several backcrossing generations were conducted to introduce the Yr5 and Yr10 genes into susceptible genotypes (Misr1, Misr2, and Gemmeiza11). These genotypes are cultivated globally and are known for producing high-quality flour, making them of great importance to farmers. The study demonstrates significant potential for enhancing wheat genotypes for stripe rust resistance and increased production.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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