Evaluation of Seedling Resistance and Marker Assisted Selection for Leaf Rust (Puccinia triticina) Resistance in Pakistani Wheat Landraces, Cultivars and Advanced Lines

Q4 Agricultural and Biological Sciences
A. W. Channa, H. Bux, G. H. Jatoi, M. A. Sial, S. M. A. Shah, Isabel M. G. Figari, Naimatullah Koondhar
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引用次数: 3

Abstract

Leaf rust is amongst major biotic constraints of wheat (Triticum aestivum L.) having ability to cause substantial yield reductions worldwide. A continuous exploration for novel sources of resistance is pre-requisite for its management. Objectives of study were to conduct resistance evaluation of 112 Pakistani landraces and 48 advanced lines/ cultivars at seedling stage with total 10 virulent pathotypes of leaf rust, 3 from Pakistan and 7 from U.S.A and to detect closely linked markers for Lr10, 16, 34 and 67 genes through marker-assisted selection (MAS). Findings revealed most of Pakistani landraces showed lack of resistance at seedling stage. Only 7 accessions of landraces and 11 advanced lines were found highly resistant against all pathotypes of Pakistan. Similarly, 10 advanced lines exhibited high resistance while variability in resistance was recorded for landraces against all pathotypes tested from USA. Marker-assisted selection revealed Lr genes i.e. Lr10, Lr16, Lr34 and Lr67 were present at various frequencies. Highest frequency was observed for Lr34 followed by Lr16 Lr67 while lowest was recorded for Lr10. These genetic resources and lines identified effective against Pakistan and USA pathotypes are potential sources for improvement of leaf rust (LR) resistance and can be utilized as valuable material for breeding resistant wheat cultivars.
巴基斯坦小麦地方品种、品种和高级品系幼苗抗叶锈病评价及标记辅助选择
叶锈病是小麦(Triticum aestivum L.)的主要生物限制之一,有能力在世界范围内造成大量减产。不断探索新的抗药性来源是控制抗药性的先决条件。本研究的目的是对112个巴基斯坦地方品种和48个先进品种的10种叶锈病毒型(3种来自巴基斯坦,7种来自美国)进行苗期抗性评价,并通过标记辅助选择(MAS)检测Lr10、16、34和67个基因的紧密连锁标记。结果显示,大部分巴基斯坦地方品种在苗期表现出抗性不足。只有7个地方品种和11个高级品种被发现对巴基斯坦所有病型都具有高度抗性。同样,10个高级品系表现出高抗性,而地方品种对来自美国的所有病型的抗性均有差异。标记辅助选择显示Lr10、Lr16、Lr34和Lr67等Lr基因存在于不同频率。Lr34的频率最高,其次是Lr16和Lr67, Lr10的频率最低。这些对巴基斯坦型和美国型小麦有效的遗传资源和品系是改良小麦叶锈病抗性的潜在资源,可作为选育抗叶锈病小麦品种的宝贵材料。
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来源期刊
International Journal of Phytopathology
International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.20
自引率
0.00%
发文量
11
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