University of Agriculture, Centre of Agricultural Biochemistry and Biotechnology - CABB, Faisalabad, Pakistan.
Universidad Católica del Maule, Centro de Investigación de Estudios Avanzados del Maule - CIEAM, Vicerrectoría de Investigación y Postgrado, Talca, Chile.
Braz J Biol. 2022 Apr 1;84:e249472. doi: 10.1590/1519-6984.249472. eCollection 2022.
Leaf rust, caused by Puccinia triticina, is the most common rust disease of wheat. The fungus is an obligate parasite capable of producing infectious urediniospores. To study the genetic structure of the leaf rust population 20 RAPD primers were evaluated on 15 isolates samples collected in Pakistan. A total of 105 RAPD fragments were amplified with an average of 7 fragments per primer. The number of amplified fragments varied from 1 to 12. GL Decamer L-07 and GL Decamer L-01 amplified the highest number of bands (twelve) and primer GL Decamer A-03 amplified the lowest number of bands i.e one. Results showed that almost all investigated isolates were genetically different that confirms high genetic diversity within the leaf rust population. Rust spores can follow the migration pattern in short and long distances to neighbor areas. Results indicated that the greatest variability was revealed by 74.9% of genetic differentiation within leaf rust populations. These results suggested that each population was not completely identical and high gene flow has occurred among the leaf rust population of different areas. The highest differentiation and genetic distance among the Pakistani leaf rust populations were detected between the leaf rust population in NARC isolate (NARC-4) and AARI-11and the highest similarity was observed between NARC isolates (NARC-4) and (NARC-5). The present study showed the leaf rust population in Pakistan is highly dynamic and variable.
叶锈病由小麦柄锈菌引起,是小麦最常见的锈病。该真菌是一种专性寄生菌,能够产生传染性夏孢子。为了研究叶锈菌群体的遗传结构,在巴基斯坦采集的 15 个分离物样本上评估了 20 个 RAPD 引物。总共扩增了 105 个 RAPD 片段,每个引物平均有 7 个片段。扩增片段的数量从 1 到 12 不等。GL Decamer L-07 和 GL Decamer L-01 扩增的条带最多(12 条),而引物 GL Decamer A-03 扩增的条带最少(1 条)。结果表明,几乎所有被调查的分离物在遗传上都是不同的,这证实了叶锈菌群体内存在高度的遗传多样性。锈菌孢子可以遵循短距离和长距离的迁移模式到达邻近地区。结果表明,74.9%的叶锈菌群体内遗传分化显示出最大的变异性。这些结果表明,每个群体并不完全相同,不同地区的叶锈菌群体之间发生了高基因流。在巴基斯坦叶锈菌群体中,NARC 分离物(NARC-4)和 AARI-11 之间的叶锈菌群体的分化和遗传距离最高,而 NARC 分离物(NARC-4)和(NARC-5)之间的相似性最高。本研究表明,巴基斯坦的叶锈菌群体高度动态和多变。
