Cillo Fabrizio, Finetti-Sialer Mariella M, Papanice Maria A, Gallitelli Donato
Dipartimento di Protezione delle Piante e Microbiologia Applicata, Università degli Studi and Istituto di Virologia Vegetale del CNR-sezione di Bari, Via Amendola 165/A, 70126 Bari, Italy.
Mol Plant Microbe Interact. 2004 Jan;17(1):98-108. doi: 10.1094/MPMI.2004.17.1.98.
Transgenic tomato (Lycopersicon esculentum Mill. cv. UC82) plants expressing a benign variant of Cucumber mosaic virus satellite RNA (CMV Tfn-satRNA) were generated. The transformed plants did not produce symptoms when challenged with a satRNA-free strain of CMV (CMV-FL). The same plant lines initially were susceptible to necrosis elicited by a CMV strain supporting a necrogenic variant of satRNA (CMV-77), but a phenotype of total recovery from the necrosis was observed in the newly developing leaves. The features of the observed resistance were analyzed and are consistent with two different mechanisms of resistance. In transgenic plants inoculated with CMV-FL strain, the symptomless phenotype was correlated to the down-regulation of CMV by Tfn-satRNA, amplified from the transgene transcripts, as the first resistance mechanism. On the other hand, the delayed resistance to CMV-77 in transgenic tomato lines was mediated by a degradation process that targets satRNAs in a sequence-specific manner. Evidence is provided for a correlation between a reduced accumulation level of transgenic messenger Tfn-satRNA, the accumulation of small (approximately 23 nucleotides) RNAs with sequence homology to satRNAs, the progressively reduced accumulation of 77-satRNA in infected tissues, and the transition in infected plants from diseased to healthy. Thus, events leading to the degradation of satRNA sequences indicate a role for RNA silencing as the second mechanism determining resistance of transgenic tomato lines.
培育出了表达黄瓜花叶病毒卫星RNA(CMV Tfn-satRNA)良性变体的转基因番茄(Lycopersicon esculentum Mill. cv. UC82)植株。当用不含卫星RNA的黄瓜花叶病毒株系(CMV-FL)进行挑战时,转化植株没有产生症状。同样的植株系最初对支持卫星RNA坏死变体的黄瓜花叶病毒株系(CMV-77)引发的坏死敏感,但在新长出的叶片中观察到了从坏死中完全恢复的表型。对观察到的抗性特征进行了分析,其与两种不同的抗性机制一致。在接种CMV-FL株系的转基因植株中,无症状表型与Tfn-satRNA对CMV的下调相关,Tfn-satRNA从转基因转录本中扩增而来,这是第一种抗性机制。另一方面,转基因番茄株系对CMV-77的延迟抗性是由一个以序列特异性方式靶向卫星RNA的降解过程介导的。有证据表明转基因信使Tfn-satRNA积累水平降低、与卫星RNA具有序列同源性的小(约23个核苷酸)RNA的积累、感染组织中77-卫星RNA的积累逐渐减少以及感染植株从患病到健康的转变之间存在相关性。因此,导致卫星RNA序列降解的事件表明RNA沉默作为决定转基因番茄株系抗性的第二种机制发挥了作用。
