Mundry K W, Watkins P A, Ashfield T, Plaskitt K A, Eisele-Walter S, Wilson T M
Biologisches Institut, Universität Stuttgart, Germany.
J Gen Virol. 1991 Apr;72 ( Pt 4):769-77. doi: 10.1099/0022-1317-72-4-769.
Destabilizing events required for subsequent cotranslational disassembly of tobacco mosaic virus (TMV) particles in vitro were studied. Brief treatment of U-32P-labelled TMV (strain vulgare or U2) with 1% SDS exposed only 2.5% of the RNA (160 5' nucleotides) in a susceptible subpopulation of virions. Limited uncoating occurred almost immediately and appeared to be synchronous because the amount of 5' oligonucleotide marker (omega) recovered remained constant throughout a 15 min period in SDS. Additional RNase T1-sensitive oligonucleotides were exposed only after 1 to 2 min in SDS. Coat protein (CP) subunits released from virions 'destabilized' by ultracentrifugation at between pH 7.2 and 9.2 were quantified using L-[35S]methionine-labelled particles of TMV strain U2. CP recovery and virus particle translation results were consistent with increasing numbers of virions uncoating for approximately 200 nucleotides. In the presence of sparsomycin (SPN), the TMV strain vulgare 5' leader and the first AUG codon can bind two 80S ribosomes. Electron microscopy of pH 7.5-treated TMV particles incubated in SPN-treated wheatgerm extract or rabbit reticulocyte lysate, showed that approximately 10% of virions complexed with one ribosome and approximately 10% with two bound ribosomes, confirming that omega at least had been uncoated. Nucleocapsids in these complexes were shorter than untreated TMV by 9 to 10 nm (i.e. equivalent to 192 to 217 nucleotides exposed). The template activities of virions pretreated at pH 7.2 to 9.2 were destroyed by RNase H when short cDNAs were hybridized to sequences at, or immediately 3' to, the first AUG codon. We propose that the complete 5' leader of TMV RNA interacts weakly with CP subunits and that this micro-instability is due to the absence of G residues and is essential for initiation of cotranslational virus disassembly.
对烟草花叶病毒(TMV)颗粒体外共翻译解离所需的去稳定化事件进行了研究。用1%十二烷基硫酸钠(SDS)对U-32P标记的TMV(普通株系或U2株系)进行短暂处理,仅使易感病毒粒子亚群中的2.5%的RNA(160个5'核苷酸)暴露出来。几乎立即发生了有限的脱壳,并且似乎是同步的,因为在SDS中15分钟内回收的5'寡核苷酸标记物(ω)的量保持恒定。额外的核糖核酸酶T1敏感寡核苷酸仅在SDS中处理1至2分钟后才暴露出来。使用L-[35S]甲硫氨酸标记的TMV U2株系颗粒对在pH 7.2至9.2之间通过超速离心“去稳定化”的病毒粒子释放的衣壳蛋白(CP)亚基进行定量。CP回收和病毒粒子翻译结果与越来越多的病毒粒子脱壳约200个核苷酸一致。在稀疏霉素(SPN)存在的情况下,普通TMV株系的5'前导序列和第一个AUG密码子可以结合两个80S核糖体。对在经SPN处理的小麦胚芽提取物或兔网织红细胞裂解物中孵育的pH 7.5处理的TMV颗粒进行电子显微镜观察,结果显示约10%的病毒粒子与一个核糖体复合,约10%与两个结合的核糖体复合,证实至少ω已经脱壳。这些复合物中的核衣壳比未处理的TMV短9至10纳米(即相当于192至217个核苷酸暴露)。当短的cDNA与第一个AUG密码子处或其紧邻的3'端序列杂交时,在pH 7.2至9.2预处理的病毒粒子的模板活性被核糖核酸酶H破坏。我们提出,TMV RNA完整的5'前导序列与CP亚基弱相互作用,这种微不稳定性是由于缺乏G残基,并且对于共翻译病毒解离的起始至关重要。
