Phytopathology. 2010 Feb;100(2):127-33. doi: 10.1094/PHYTO-100-2-0127.
ABSTRACT Breakdown of sugar beet Rz1-mediated resistance against Beet necrotic yellow vein virus (BNYVV) infection was previously found, by reverse genetics, to be caused by a single mutation in its p25 gene. The possibility of alternative breaking mutations, however, has not been discarded. To explore the natural diversity of BNYVV in the field and its effects on overcoming Rz1, wild-type (WT) and resistance-breaking (RB) p25 genes from diverse production regions of North America were characterized. The relative titer of WT p25 was inversely correlated with disease expression in Rz1 plants from Minnesota and California. In Minnesota, the predominant WT p25 encoded the A(67)C(68) amino acid signature whereas, in California, it encoded A(67)L(68). In both locations, these WT signatures were associated with asymptomatic BNYVV infections of Rz1 cultivars. Further analyses of symptomatic resistant plants revealed that, in Minnesota, WT A(67)C(68) was replaced by V(67)C(68) whereas, in California, WT A(67)L(68) was replaced by V(67)L(68). Therefore, V(67) was apparently critical in overcoming Rz1 in both pathosystems. The greater genetic distances between isolates from different geographic regions rather than between WT and RB from the same location indicate that the underlying C to U transition originated independently in both BNYVV lineages.
摘要 通过反向遗传学发现,先前甜菜 Rz1 介导的抗甜菜坏死黄脉病毒 (BNYVV) 感染的崩溃是由其 p25 基因中的单个突变引起的。然而,替代突破突变的可能性尚未被排除。为了探索田间 BNYVV 的自然多样性及其对克服 Rz1 的影响,来自北美的不同生产区域的野生型 (WT) 和抗性突破 (RB) p25 基因进行了特征描述。WT p25 的相对滴度与明尼苏达州和加利福尼亚州 Rz1 植物的疾病表达呈负相关。在明尼苏达州,主要的 WT p25 编码 A(67)C(68)氨基酸特征,而在加利福尼亚州,它编码 A(67)L(68)。在这两个地方,这些 WT 特征与 Rz1 品种的无症状 BNYVV 感染有关。对有症状的抗性植物的进一步分析表明,在明尼苏达州,WT A(67)C(68)被 V(67)C(68)取代,而在加利福尼亚州,WT A(67)L(68)被 V(67)L(68)取代。因此,V(67)显然在这两个系统中都对克服 Rz1 至关重要。来自不同地理区域的分离株之间的遗传距离大于同一地点的 WT 和 RB 之间的遗传距离,这表明潜在的 C 到 U 转换在这两个 BNYVV 谱系中是独立起源的。
