Vaira A M, Semeria L, Crespi S, Lisa V, Allavena A, Accotto G P
Istituto di Fitovirologia Applicata, C.N.R., Torino, Italy.
Mol Plant Microbe Interact. 1995 Jan-Feb;8(1):66-73. doi: 10.1094/mpmi-8-0066.
Nicotiana benthamiana was transformed with the nucleoprotein (N) gene of an Italian isolate of tomato spotted wilt virus (TSWV). Forty-five T1 primary transformant lines were analyzed for the expression of N protein and for resistance to TSWV and three other tospoviruses: impatiens necrotic spot virus (INSV), groundnut bud necrosis virus (GBNV), and groundnut ringspot virus (GRSV). Thirteen of these lines were further characterized. Resistance to all TSWV isolates tested was found in two lines. The expression of the transgene (N mRNA) was lower in these resistant lines than in any of the susceptible lines, and the transgene N protein was either absent or present below detectable levels. These lines were susceptible to the other tospoviruses tested, but they developed symptoms milder than controls when inoculated with GRSV. Some of the lines producing high levels of N protein showed delays (of 2-3 weeks) in symptom expression with at least one of the TSWV isolates tested and symptom delay or attenuation with INSV or GRSV (or both). From our results it appears that high expression of TSWV N protein retards, in some cases, disease development by TSWV and INSV. In contrast, the lack of detectable expression of the transgenic N protein, accompanied by limited production of N transcripts, conferred TSWV-specific resistance.
用番茄斑萎病毒(TSWV)意大利分离株的核蛋白(N)基因转化本氏烟草。分析了45个T1代初级转化株系中N蛋白的表达情况以及对TSWV和其他三种番茄斑萎病毒的抗性:凤仙花坏死斑病毒(INSV)、花生芽坏死病毒(GBNV)和花生环斑病毒(GRSV)。对其中13个株系进行了进一步的特性分析。在两个株系中发现了对所有测试的TSWV分离株的抗性。这些抗性株系中转基因(N mRNA)的表达低于任何敏感株系,并且转基因N蛋白要么不存在,要么含量低于可检测水平。这些株系对其他测试的番茄斑萎病毒敏感,但接种GRSV时,它们产生的症状比对照轻。一些产生高水平N蛋白的株系在至少一种测试的TSWV分离株接种后症状表达延迟(2-3周),并且在接种INSV或GRSV(或两者)后症状延迟或减轻。从我们的结果来看,TSWV N蛋白的高表达在某些情况下会延缓TSWV和INSV引起的病害发展。相反,转基因N蛋白缺乏可检测的表达,同时N转录本产量有限,赋予了对TSWV的特异性抗性。
