类病毒：分子感染因子。

Department of Biology, Medical Faculty, J. E. Purkynĕ University, Brno, Czechoslovakia.

Acta Virol. 1987 Nov;31(6):506-24.

In 1971, unique small RNA molecules, the viroids, were found to cause specific infectious diseases of plants. They are the smallest and simplest contagious agents known. Until now, 14 viroids have been described and 12 diseases of potatoes, tomatoes, citruses, chrysanthemums, cucumbers, hops, coconut palms avocado trees and burdock are known to be caused by viroids. The common symptoms of these diseases are: stunting of plants. discoloration of veins, epinasty, curling and distortions of leaves, chlorotic or necrotic spots etc., followed by death of the diseased plants. All viroids are ssRNAs of m.w. ranging from 1.1 x 10(5) to 1.7 x 10(5), corresponding to chains of just 246 to 371 ribonucleotides. For 10 viroids, complete nucleotide sequences are known PSTV, CSV, CEV, TPMV and TASV show 60%-80% homology with each other; in analogy, ASBV, HSV, CPFV. GV and CCCV are closely homologous to each other, too, but just distantly related to the PSTV group. Extensive intramolecular base pairing creates a characteristic secondary structure of the cyclic viroid RNA chain, native viroids appearing as quasi double-stranded, unbranched, very short rod-like structures with short single-stranded loops. (Thus PSTV forms rods about 50 nm long and 2 nm wide.) The stretch of nearly all viroids bears a common central conserved region of 19 bp. The "upper" part of this region is, presumably, the cleavage-ligation site of viroid oligomers during replication. Viroids are located and replicated in nuclei of infected cells, in association with their nucleoli. Their replication is directed by host DNA-dependent RNA polymerase II using cRNA oligomers as templates according to the rolling circle model. Viroid RNA has no mRNA function. The virulence of viroids is coded by their virulence modulating region in the "left hand" part of their molecules: a single nucleotide substitution between nucleotides 43 and 56 within this region alters the virulence. Most probably, viroids have originated by the circularization of spliced-out transcripts of eucaryotic introns. A stable complex may be created between the 5' end of U1 snRNA and nucleotides 257 to 279 of PSTV cRNA strand; thus the pathogenic effects of viroids seem to be a result of their interference with pre-mRNA processing.

1971年，人们发现了一种独特的小RNA分子——类病毒，它能引发植物的特定传染病。类病毒是已知最小、最简单的传染性病原体。到目前为止，已描述了14种类病毒，已知马铃薯、番茄、柑橘、菊花、黄瓜、啤酒花、椰子树、鳄梨树和牛蒡的12种疾病是由类病毒引起的。这些疾病的常见症状有：植株发育不良、叶脉变色、叶片向下弯曲、卷曲和变形、出现褪绿或坏死斑点等，随后患病植株死亡。所有类病毒都是单链RNA，分子量在1.1×10⁵至1.7×10⁵之间，相当于仅由246至371个核糖核苷酸组成的链。对于10种类病毒，其完整的核苷酸序列是已知的。马铃薯纺锤块茎类病毒（PSTV）、黄瓜白果类病毒（CSV）、柑橘裂皮类病毒（CEV）、番茄斑萎病毒（TPMV）和番茄顶枯类病毒（TASV）彼此之间有60%-80%的同源性；类似地，鳄梨日斑类病毒（ASBV）、山楂类病毒（HSV）、椰子死亡类病毒（CPFV）、葡萄类病毒（GV）和黄瓜绿斑驳花叶类病毒（CCCV）彼此之间也密切同源，但与PSTV组的关系较远。广泛的分子内碱基配对形成了环状类病毒RNA链的特征性二级结构，天然类病毒呈现为准双链、无分支、非常短的杆状结构，带有短的单链环。（因此PSTV形成的杆长约50纳米，宽约2纳米。）几乎所有类病毒的链都有一个19个碱基对的共同中央保守区域。该区域的“上部”大概是类病毒寡聚体在复制过程中的切割-连接位点。类病毒位于受感染细胞的细胞核中，并与其核仁相关联进行复制。它们的复制由宿主依赖DNA的RNA聚合酶II以cRNA寡聚体为模板，根据滚环模型进行指导。类病毒RNA没有mRNA功能。类病毒的毒力由其分子“左手”部分的毒力调节区域编码：该区域内第43至56个核苷酸之间的单个核苷酸替换会改变毒力。很可能，类病毒起源于真核内含子剪接出的转录本的环化。U1 snRNA的5'端与PSTV cRNA链的第257至279个核苷酸之间可能形成稳定的复合物；因此，类病毒的致病作用似乎是它们干扰前体mRNA加工的结果。