Department of Applied Biology, Chungnam National University, Daejeon, 305-764, Korea.
Arch Virol. 2014 Jun;159(6):1373-83. doi: 10.1007/s00705-013-1964-4. Epub 2014 Jan 1.
Soybean mosaic virus (SMV), a member of the family Potyviridae, is an important viral pathogen affecting soybean production in Korea. Variations in helper component proteinase (HC-Pro) sequences and the pathogenicity of SMV samples from seven Korean provinces were compared with those of previously characterized SMV isolates from China, Korea and the United States. Phylogenetic analysis separated 16 new Korean SMV isolates into two groups. Fourteen of the new Korean SMV samples belonged to group II and were very similar to U.S. strain SMV G7 and Chinese isolate C14. One isolate in group II, A297-13, differed at three amino acid positions (L54F, N286D, D369N) in the HC-Pro coding sequence from severe isolates and SMV 413, showed very weak silencing suppressor activity, and produced only mild symptoms in soybean. To test the role of each amino acid substitution in RNA silencing and viral RNA accumulation, a series of point mutations was constructed. Substitution of N for D at position 286 in HC-Pro of SMV A297-12 significantly reduced silencing suppression activity. When the mutant HC-Pro of A297-13 was introduced into an infectious clone of SMV 413, accumulation of viral RNA was reduced to less than 3 % of the level of SMV 413 containing HC-Pro of A297-12 at 10 days post-inoculation (dpi) but increased to 40 % of SMV 413(HC-Pro A297-12) at 40 dpi. At 50 dpi RNA accumulation of SMV 413(HC-Pro A297-13) was similar to that of SMV 413(HC-Pro A297-12). However, at 50 dpi, the D at position 286 of HC-Pro in SMV 413(HC-Pro A297-13) was found to have reverted to N. The results showed that 1) a naturally occurring mutation in HC-Pro significantly reduced silencing suppression activity and accumulation of transgene and viral RNAs, and 2) that there was strong selection for revision to wild type when the mutation was introduced into an infectious clone of SMV.
大豆花叶病毒(SMV)是马铃薯 Y 病毒科的一种重要病毒病原体,会影响韩国的大豆生产。本研究比较了来自韩国 7 个省份的辅助成分蛋白酶(HC-Pro)序列变异和 SMV 样本的致病性,以及先前从中国、韩国和美国鉴定的 SMV 分离株。系统进化分析将 16 个新的韩国 SMV 分离株分为两组。14 个新的韩国 SMV 样本属于第二组,与美国菌株 SMV G7 和中国分离株 C14 非常相似。第二组中的一个分离株 A297-13 在 HC-Pro 编码序列的三个氨基酸位置(L54F、N286D、D369N)与严重分离株和 SMV 413 不同,表现出非常弱的沉默抑制活性,仅在大豆中产生轻微症状。为了测试每个氨基酸取代在 RNA 沉默和病毒 RNA 积累中的作用,构建了一系列点突变。SMV A297-12 的 HC-Pro 中 N286 取代为 D 显著降低了沉默抑制活性。当 A297-13 的突变 HC-Pro 被引入 SMV 413 的感染性克隆时,与含有 A297-12 的 HC-Pro 的 SMV 413 相比,病毒 RNA 的积累减少到不到 10 天接种后(dpi)的 3%,但在 40 dpi 时增加到 40%SMV 413(HC-Pro A297-12)。在 50 dpi 时,SMV 413(HC-Pro A297-13)的 RNA 积累与 SMV 413(HC-Pro A297-12)相似。然而,在 50 dpi 时,发现 SMV 413(HC-Pro A297-13)中 HC-Pro 的第 286 位的 D 已恢复为 N。结果表明:1)HC-Pro 中的自然发生突变显著降低了沉默抑制活性和转基因和病毒 RNA 的积累,2)当突变被引入 SMV 的感染性克隆时,对野生型的修正有很强的选择。
