Texas AgriLife Research ( Texas A & M University System), Amarillo, TX, USA.
Phytopathology. 2010 Nov;100(11):1204-12. doi: 10.1094/PHYTO-04-10-0103.
Theoretical models predict that, under restrictive host conditions, virus populations will exhibit greater genetic variability. This virus response has been experimentally demonstrated in a few cases but its relation with a virus's capability to overcome plant resistance is unknown. To explore the genetic host effects on Beet necrotic yellow vein virus (BNYVV) populations that might be related to resistance durability, a wild-type virus isolate was vector inoculated into partially resistant Rz1, Rz2, and susceptible sugar beet cultivars during a serial planting experiment. Cloning and sequencing a region of the viral RNA-3, involving the pathogenic determinant p25, revealed that virus diversity significantly increased in direct proportion to the strength of host resistance. Thus, whereas virus titers were highest, intermediate, and lowest in susceptible, Rz1, and Rz2 plants, respectively; the average number of nucleotide differences among single-plant populations was 0.8 (±0.1) in susceptible, 1.4 (±0.1) in Rz1, and 2.4 (±0.2) in Rz2 genotypes. A similar relationship between host restriction to BNYVV root accumulation and virus genetic variability was detected in fields of sugar beet where these specific Rz1- and Rz2-mediated resistances have been defeated.
理论模型预测,在宿主受限的情况下,病毒群体将表现出更大的遗传变异性。这种病毒反应在少数情况下已经得到了实验证明,但它与病毒克服植物抗性的能力的关系尚不清楚。为了探索可能与抗性持久性有关的甜菜坏死黄脉病毒(BNYVV)种群的遗传宿主效应,将野生型病毒分离物通过载体接种到部分抗性 Rz1、Rz2 和易感甜菜品种中,进行了一系列种植实验。克隆和测序病毒 RNA-3 的一个区域,涉及致病性决定因素 p25,结果表明病毒多样性与宿主抗性的强度成正比显著增加。因此,在易感、Rz1 和 Rz2 植株中,病毒滴度分别最高、中等和最低;在易感、Rz1 和 Rz2 基因型中,单株群体之间的核苷酸差异平均数分别为 0.8(±0.1)、1.4(±0.1)和 2.4(±0.2)。在甜菜田中也检测到了 BNYVV 根部积累对宿主的限制与病毒遗传变异性之间的类似关系,这些特定的 Rz1 和 Rz2 介导的抗性已经被克服。