Expression of a subgenomic retroviral messenger RNA

When mRNA for avian retroviral envelope glycoprotein (env) was injected into cells transformed by env-deficient Bryan Rous sarcoma virus, the env deficiency of the injected cells was complemented to allow the release of transforming virus for up to 40 hr. When virus spread within the injected culture was allowed to occur, a second phase of transforming virus production by the injected culture began approximately 2 days following injection, continued for many days and often increased to titers well above those seen soon after injection. The requirement for virus spread, along with the genetic properties of virus released long after injection, supported the hypothesis that the second phase of virus production resulted when injected env mRNA was packaged into virus released by injected cells. When this virus infected other cells within the culture the env mRNA was reverse-transcribed to form a subgenomic, proviral-like molecule able to direct the synthesis of env mRNA. Accordingly, it was shown that neither DNA nor full genomic viral RNA contaminating injected mRNA preparations could account for the results. Evidence that an mRNA can be reverse-transcribed into an active, proviral-like molecule may be of importance in the relationship between retroviruses and their hosts.     

虫媒黄病毒亚基因组RNA

黄病毒是一大科人类致病性的单股正链RNA病毒。黄病毒包括登革病毒、西尼罗脑炎病毒及日本脑炎病毒等成员,主要径通过节肢动物的叮咬进行传播,即为虫媒黄病毒。研究发现,在虫媒黄病毒复制过程中,除病毒基因组正链RNA、互补的负链RNA及两者的杂合RNA分子外,在病毒感染细胞后还能产生一种病毒亚基因组RNA(subgenomic RNA,sgRNA)。近年对这种sgRNA展开了比较多的研究,结果表明,其产生机制与已知的其他病毒sgRNA产生机制并不相同。该sgRNA的产生与虫媒黄病毒基因组3’非编码区所形成的保守二级结构有关,同时宿主核酸酶对其的不完全降解亦有重要作用。虫媒黄病毒基因组3’非编码区中带有多个与病毒复制相关的RNA元件,而sgRNA的发现有助于全面地认识病毒RNA与宿主RNA代谢途径间的相互作用,为最终阐明病毒的致病机制奠定基础。     

trans regulation of cap-independent translation by a viral subgenomic RNA

Many positive-strand RNA viruses generate 3'-coterminal subgenomic mRNAs to allow translation of 5'-distal open reading frames. It is unclear how viral genomic and subgenomic mRNAs compete with each other for the cellular translation machinery. Translation of the uncapped Barley yellow dwarf virus genomic RNA (gRNA) and subgenomic RNA1 (sgRNA1) is driven by the powerful cap-independent translation element (BTE) in their 3' untranslated regions (UTRs). The BTE forms a kissing stem-loop interaction with the 5' UTR to mediate translation initiation at the 5' end. Here, using reporter mRNAs that mimic gRNA and sgRNA1, we show that the abundant sgRNA2 inhibits translation of gRNA, but not sgRNA1, in vitro and in vivo. This trans inhibition requires the functional BTE in the 5' UTR of sgRNA2, but no translation of sgRNA2 itself is detectable. The efficiency of translation of the viral mRNAs in the presence of sgRNA2 is determined by proximity to the mRNA 5' end of the stem-loop that kisses the 3' BTE. Thus, the gRNA and sgRNA1 have "tuned" their expression efficiencies via the site in the 5' UTR to which the 3' BTE base pairs. We conclude that sgRNA2 is a riboregulator that switches off translation of replication genes from gRNA while permitting translation of structural genes from sgRNA1. These results reveal (i) a new level of control of subgenomic-RNA gene expression, (ii) a new role for a viral subgenomic RNA, and (iii) a new mechanism for RNA-mediated regulation of translation.