Validated Molecular Marker for Downy Mildew Disease Resistance Breeding of Sunflower: A Short Review

Journal Of Agrobiotechnology Pub Date : 2023-08-10 DOI:10.37231/jab.2023.14.2.333

None M. S. H. Bhuiyan, None M. A. Malek, Nazmul Alam Khana Alam Khana, Majharul Islam, Sofiur Rahman, MD AMIRUL ALAM

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Abstract

The oomycete pathogen Plasmopara halstedii responsible for sunflower downy mildew (DM), that is a significant and important disease that greatly affects the economy. As of now, there is no non-race-specific resistance for this disease and breeders are depended on race-specific resistance to control DM disease. On the other hand, using conventional breeding procedure introgression of the DM resistance genes is a long-term task due to the highly virulent and aggressive nature of the P. halstedii pathogen. Molecular markers that can be applied at the seedling stage, offers rapid response for selection with higher precision as well as a lower cost. There are currently 36 downy mildew resistance genes (R genes), designated as Pl (Pl1-Pl36, Plhra, and PlArg, in sunflowers, each with a unique linkage group (LGs). The availability of DM resistance genomic data of sunflower, related to Single Nucleotide Polymorphisms (SNP) based markers with mine allelic diversity maximize the opportunity of utilizing Marker assisted selection (MAS) techniques for downy mildew resistance breeding. This review highlights the available genetic marker and their utilization at MAS techniques for enhancing downy mildew disease resistant breeding program of sunflowers.

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向日葵抗霜霉病分子标记研究进展

向日葵霜霉病是造成向日葵霜霉病的卵菌病原菌，是严重影响经济的重要病害。到目前为止，这种疾病没有非种族特异性抗性，育种者依靠种族特异性抗性来控制糖尿病。另一方面，由于P. halstedii病原体的高毒性和侵袭性，使用常规育种程序渗入DM抗性基因是一项长期任务。分子标记技术可应用于苗期，反应速度快，选择精度高，成本低。目前有36个抗霜霉病基因(R基因)，分别命名为Pl (Pl1-Pl36, Plhra, PlArg)，每个基因都有一个独特的连锁群(LGs)。向日葵抗霜霉病基因组数据的可用性，与单核苷酸多态性(SNP)标记相关，具有良好的等位基因多样性，最大限度地利用标记辅助选择(MAS)技术进行抗霜霉病育种。本文综述了现有的遗传标记及其在MAS技术上的应用，以加强向日葵抗霜霉病育种计划。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal Of Agrobiotechnology

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